病毒载体製造，非病毒载体製造，基因治疗製造市场:各产业规模，各媒介类型，各应用领域，各治疗领域，各地区:产业趋势与全球预测，2022年～2035年

本报告提供全球病毒载体製造，非病毒载体製造，基因治疗製造市场相关调查，提供市场概要，以及各地区的市场形势，企业的竞争力分析，参与企业的简介等资讯。

目录

第1章 序文

第2章 摘要整理

第3章 简介

第4章 病毒载体及基因治疗厂商(产业相关人员):市场形势

• 本章概要
• 病毒载体及基因治疗厂商:整体市场形势

第5章 质体DNA及基因治疗厂商(产业相关人员):市场形势

• 本章概要
• 质体DNA及基因治疗厂商:整体市场形势

第6章 媒介及基因治疗厂商(非前世的业缘界参与企业):市场形势

• 本章概要
• 媒介及基因治疗厂商:整体市场形势

第7章 媒介及基因治疗製造技术:市场形势

• 本章概要
• 媒介及基因治疗製造技术
• 结束

第8章 企业的竞争力分析

• 本章概要
• 调查手法主要的参数
• 媒介及基因治疗:公司内部厂商
• 媒介及基因治疗:受託製造机关
• 为媒介和基因治疗:公司内部及受託製造从事的参与企业

第9章 北美的媒介及基因治疗厂商

• 本章概要
• Advanced BioScience Laboratories
• Aldevron
• BioReliance/SAFC Commercial (Merck KGaA)
• bluebird bio
• 其他的企业

第10章 欧洲的媒介及基因治疗厂商

• 本章概要
• Biovian
• Centre for Process Innovation
• Cobra Biologics
• FinVector
• Kaneka Eurogentec
• Lonza
• MolMed
• Novasep
• Orchard Therapeutics
• Oxford BioMedica
• Richter-Helm
• Sanofi (CEPiA, Sanofi Pasteur, Genzyme)
• uniQure
• Vibalogics
• VIVEbiotech
• 其他的企业

第11章 亚太地区的媒介及基因治疗厂商

• 本章概要
• Wuxi AppTec
• 其他的主要加入企业

第12章 其他的主要加入企业

• 本章概要
• Thermo Fisher Scientific
• BioNTech Innovative Manufacturing
• Celonic

第13章 最近的伙伴关係

• 本章概要
• 伙伴关係模式
• 媒介及基因治疗的製造:最近的伙伴关係
• 其他的合作

第14章 最近的扩张

第15章 策略性合作伙伴的分析

第16章 新兴媒介

• 本章概要

第17章 重要的洞察

第18章 原价分析

第19章 能力分析

第20章 需求分析

第21章 市场规模与机会分析

第22章 波特的五力分析

第23章 主要的推动要素与课题

• 本章概要
• 病毒载体及质体DNA製造市场:主要的推动要素与课题
• 结束

第24章 调查分析

第25章 结论

第26章 执行见解

第27章 附录I:表格形式的资料

第28章 附录II:企业及组织清单

INTRODUCTION

With the increasing number of cell and gene therapies being developed and launched for a wide range of therapeutic areas, these modalities are on their way to become one of the highest valued markets in the biopharmaceutical domain. In fact, in 2021, cell and gene therapy developers raised capital worth more than USD 20 billion, registering an increase of 19% from the amount raised in 2020 (~USD 17 billion). It is worth highlighting that, in February 2022, the USFDA approved second CAR-T therapy, CARVYKTI™, developed by Johnson and Johnson, which can be used for the treatment of relapsed or refractory multiple myeloma. Additionally, close to 1,500 clinical trials are being conducted, globally, for the evaluation of cell and gene therapies. Over time, it has been observed that the clinical success of these therapies relies on the design and type of gene delivery vector used (in therapy development and / or administration). At present, several innovator companies are actively engaged in the development / production of viral vectors and / or non-viral vectors for cell and gene therapies. In this context, it is worth mentioning that, over the past few years, multiple viral vector and non-viral vector based vaccine candidates have been developed against COVID-19 (caused by novel coronavirus, SARS-CoV-2) and oncological disorders; this is indicative of lucrative opportunities for companies that have the required capabilities to manufacture vectors and gene therapies.

The viral and non-viral vector manufacturing landscape features a mix of industry players (well-established companies, mid-sized firms and start-ups / small companies), as well as several academic institutes. It is worth highlighting that several companies that have the required capabilities and facilities to manufacturing vectors for both in-house requirements and offer contract services (primarily to ensure the optimum use of their resources and open up additional revenue generation opportunities) have emerged in this domain. Further, in order to produce more effective and affordable vectors, several stakeholders are integrating various novel technologies; these technologies are likely to improve the scalability and quality of the resultant therapy. In addition, this industry has also witnessed a significant increase in the partnership and expansion activities over the past few years, with several companies having been acquired by the larger firms. Given the growing demand for interventions that require genetic modification, the vector and gene therapy manufacturing market is poised to witness substantial growth in the foreseen future.

SCOPE OF THE REPORT

The "Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing Market (5th Edition) by Scale of Operation (Preclinical, Clinical and Commercial), Type of Vector (AAV Vector, Adenoviral Vector, Lentiviral Vector, Retroviral Vector, Plasmid DNA and Others), Application Area (Gene Therapy, Cell Therapy and Vaccine), Therapeutic Area (Oncological Disorders, Rare Disorders, Neurological Disorders, Sensory Disorders, Metabolic Disorders, Musco-skeletal Disorders, Blood Disorders, Immunological Diseases, and Others), and Geographical Regions (North America, Europe, Asia Pacific, MENA, Latin America and Rest of the World): Industry Trends and Global Forecasts, 2022-2035" report features an extensive study of the rapidly growing market of vector and gene therapy manufacturing, focusing on contract manufacturers, as well as companies having in-house manufacturing facilities. The study presents an in-depth analysis of the various firms / organizations that are engaged in this domain, across different regions of the globe. Amongst other elements, the report includes:

• An overview of the current status of the market with respect to the players engaged (both industry and non-industry) in the manufacturing of viral, non-viral and other novel types of vectors and gene therapies. It features information on the year of establishment, company size, location of headquarters, type of product manufactured (vector and gene therapy / cell therapy / vaccine), location of manufacturing facilities, type of manufacturers (in-house and contract services), scale of operation (preclinical, clinical and commercial), type of vector manufactured (AAV, adenoviral, lentiviral, retroviral, plasmid DNA and others) and application area (gene therapy, cell therapy, vaccine and others).

• An analysis of the technologies offered / developed by the companies enagaged in this domain, based on the type of technology (viral vector related platform, non-viral vector related platform and others), type of manufacturer (vector manufacturing, gene delivery, product manufacturing, transduction / transfection, vector packaging and other), scale of operation (preclinical, clinical and commercial), type of vector involved (AAV, adenoviral, lentiviral, retroviral, non-viral and other viral vectors), application area (gene therapy, cell therapy, vcaccine and others). It also highlights the most prominent players within this domain, in terms of number of technologies.

• A region-wise, company competitiveness analysis, highlighting key players engaged in the manufacturing of vectors and gene therapies, across key geographical areas, featuring a four-dimensional bubble representation, taking into consideration supplier strength (based on experience in this field), manufacturing strength (type of product manufactured, number of manufacturing facilites and number of application areas), service strength (scale of operation, number of vectors manufactured and geographical reach) and company size (small, mid-sized and large).

• Elaborate profiles of key players based in North America, Europe and Asia-Pacific (shortlisted based on proprietary criterion). Each profile features an overview of the company / organization, its financial performance (if available), information related to its manufacturing facilities, vector manufacturing technology and an informed future outlook.

• Tabulated profiles of the other key players headquartered in different regions across the globe (shortlisted based on proprietary criterion). Each profile features an overview of the company, its financial performance (if available), information related to its manufacturing capabilities, and an informed future outlook.

• An analysis of partnerships and collaborations established in this domain since 2015; it includes details of deals that were / are focused on the manufacturing of vectors, which were analyzed on the basis of year of partnership, type of partnership (manufacturing agreement, product / technology licensing, product development, merger / acqusition, research and development agreement, process development / optimization, service alliance, production asset / facility acquisition, supply agreement and others), scale of operation (preclinical, clinical and commercial), type of vector involved (AAV, adenoviral, lentiviral, retroviral, plasmid and others), region and most active players (in terms of number of partnerships).

• An analysis of the expansions related to viral vector and non-viral vector manufacturing, which have been undertaken since 2015, based on several parameters, such as year of expansion, type of expansion (new facility / plant establishment, facility expansion, technology installation / expansion, capacity expansion, service expansion and others), type of vector (AAV, adenoviral, lentiviral, retroviral, plasmid and others), application area (gene therapy, cell therapy, vaccine and others) and geographical location of the expansion.

• An analysis evaluating the potential strategic partners (comparing vector based therapy developers and vector purification product developers) for vector and gene therapy product manufacturers, based on several parameters, such as developer strength, product strength, type of vector, therapeutic area, pipeline strength (preclinical and clinical).

• An overview of other viral / non-viral gene delivery approaches that are currently being researched for the development of therapies involving genetic modification.

• An in-depth analysis of viral vector and plasmid DNA manufacturers, featuring three schematic representations, a three dimensional grid analysis, representing the distribution of vector manufacturers (on the basis of type of vector) across various scales of operation and type of manufacturer (in-house operations and contract manufacturing services), a heat map of viral vector and plasmid DNA manufacturers based on the type of vector (AAV, adenoviral vector, lentiviral vector, retroviral vector and plasmid DNA) and type of organization (industry (small, mid-sized and large) and non-industry), and a schematic world map representation, highlighting the headquarters and geographical location of key vector manufacturing hubs.

• An analysis of the various factors that are likely to influence the pricing of vectors, featuring different models / approaches that may be adopted by product developers / manufacturers in order to decide the prices of proprietary vectors.

• An estimate of the overall, installed vector manufacturing capacity of industry players based on the information available in the public domain, and insights generated via both secondary and primary research. The analysis also highlights the distribution of the global capacity by company size (small, mid-sized and large), scale of operation (clinical and commercial), type of vector (viral vector and plasmid DNA) and region (North America, Europe, Asia Pacific and the rest of the world).

• An informed estimate of the annual demand for viral and non-viral vectors, taking into account the marketed gene-based therapies and clinical studies evaluating vector-based therapies; the analysis also takes into consideration various relevant parameters, such as target patient population, dosing frequency and dose strength.

• A discussion on the factors driving the market and various challenges associated with the vector production process.

• A qualitative analysis, highlighting the five competitive forces prevalent in this domain, including threats for new entrants, bargaining power of drug developers, bargaining power of vector and gene therapy manufacturers, threats of substitute technologies and rivalry among existing competitors.

One of the key objectives of this report was to evaluate the current market size and the future opportunity associated with the vector and gene therapy manufacturing market, over the coming decade. Based on various parameters, such as the likely increase in number of clinical studies, anticipated growth in target patient population, existing price variations across different types of vectors, and the anticipated success of gene therapy products (considering both approved and late-stage clinical candidates), we have provided an informed estimate of the likely evolution of the market in the short to mid-term and long term, for the period 2022-2035. In order to provide a detailed future outlook, our projections have been segmented on the basis of scale of operation (preclinical, clinical and commercial), type of vector (AAV vector, adenoviral vector, lentiviral vector, retroviral vector, plasmid DNA and others), application area (gene therapy, cell therapy and vaccine), therapeutic area (oncological disorders, rare disorders, neurological disorders, sensory disorders, metabolic disorders, musco-skeletal disorders, blood disorders, immunological diseases, and others) and geographical region (North America, Europe, Asia Pacific, MENA, Latin America and rest of the world). In order to account for future uncertainties and to add robustness to our model, we have provided three forecast scenarios, namely conservative, base and optimistic scenarios, representing different tracks of the industry's growth.

The research, analysis and insights presented in this report are backed by a deep understanding of key insights generated from both secondary and primary research. For the purpose of the study, we invited over 300 stakeholders to participate in a survey to solicit their opinions on upcoming opportunities and challenges that must be considered for a more inclusive growth. The opinions and insights presented in this study were also influenced by discussions held with senior stakeholders in the industry. The report features detailed transcripts of interviews held with the following industry and non-industry players:

• Menzo Havenga (Chief Executive Officer and President, Batavia Biosciences)

• Nicole Faust (Chief Executive Officer & Chief Scientific Officer, CEVEC Pharmaceuticals)

• Cedric Szpirer (Former Executive & Scientific Director, Delphi Genetics)

• Olivier Boisteau (Co-Founder / President, Clean Cells), Laurent Ciavatti (Former Business Development Manager, Clean Cells) and Xavier Leclerc (Head of Gene Therapy, Clean Cells)

• Alain Lamproye (Former President of Biopharma Business Unit, Novasep)

• Joost van den Berg (Former Director, Amsterdam BioTherapeutics Unit)

• Bakhos A Tannous (Director, MGH Viral Vector Development Facility, Massachusetts General Hospital)

• Eduard Ayuso, DVM, PhD (Scientific Director, Translational Vector Core, University of Nantes)

• Colin Lee Novick (Managing Director, CJ Partners)

• Semyon Rubinchik (Scientific Director, ACGT)

• Astrid Brammer (Senior Manager Business Development, Richter-Helm)

• Marco Schmeer (Project Manager, Plasmid Factory) and Tatjana Buchholz (Former Marketing Manager, Plasmid Factory)

• Brain M Dattilo (Business Development Manager, Waisman Biomanufacturing)

• Beatrice Araud (ATMP Key Account Manager, EFS-West Biotherapy)

• Nicolas Grandchamp (R&D Leader, GEG Tech)

• Geraldine Guerin-Peyrou (Director of Marketing and Technical Support, Polypus Transfection)

• Naiara Tejados( Head of Marketing and Technology Development, VIVEBiotech)

• Jeffery Hung (Independent Consultant)

All actual figures have been sourced and analyzed from publicly available information forums and primary research discussions. Financial figures mentioned in this report are in USD, unless otherwise specified.

RESEARCH METHODOLOGY

The data presented in this report has been gathered via secondary and primary research. For all our projects, we conduct interviews with experts in the area (academia, industry, medical practice and other associations) to solicit their opinions on emerging trends in the market. This is primarily useful for us to draw out our own opinion on how the market may evolve across different regions and technology segments. Wherever possible, the available data has been checked for accuracy from multiple sources of information.

The secondary sources of information include:

• Annual reports
• Investor presentations
• SEC filings
• Industry databases
• News releases from company websites
• Government policy documents
• Industry analysts' views

While the focus has been on forecasting the market over the period 2022-2035, the report also provides our independent view on various technological and non-commercial trends emerging in the industry. This opinion is solely based on our knowledge, research and understanding of the relevant market gathered from various secondary and primary sources of information.

KEY QUESTIONS ANSWERED

• Who are the leading players (contract service providers and in-house manufacturers) engaged in the development of vectors and gene therapies?

• Which regions are the current manufacturing hubs for vectors and gene therapies?

• Which type of vector related technologies are presently offered / being developed by the stakeholders engaged in this domain?

• Which companies are likely to partner with viral and non-viral vector contract manufacturing service providers?

• Which partnership models are commonly adopted by stakeholders engaged in this industry?

• What type of expansion initiatives are being undertaken by players in this domain?

• What are the various emerging viral and non-viral vectors used by players for the manufacturing of genetically modified therapies?

• What are the strengths and threats for the stakeholders engaged in this industry?

• What is the current, global demand for viral and non-viral vector, and gene therapies?

• How is the current and future market opportunity likely to be distributed across key market segments?

CHAPTER OUTLINES

Chapter 2 is an executive summary of the insights captured in our research. It offers a high-level view on the likely evolution of the vector and gene therapy manufacturing market in the short to mid-term, and long term.

Chapter 3 is a general introduction to the various types of viral and non-viral vectors. It includes a detailed discussion on the design, manufacturing requirements, advantages, limitations and applications of the currently available gene delivery vehicles. The chapter also features the clinical and approved pipeline of genetically modified therapies. Further, it includes a review of the latest trends and innovations in the contemporary vector manufacturing market.

Chapter 4 provides a detailed overview of close to 150 companies, featuring both contract service providers and in-house manufacturers that are actively involved in the production of viral vectors and / or gene therapies utilizing viral vectors. The chapter provides details on the year of establishment, company size, location of headquarters, type of product manufactured (vector and gene therapy / cell therapy / vaccine), location of manufacturing facilities, type of manufacturer (in-house and contract services), scale of operation (preclinical, clinical and commercial), type of vector manufactured (AAV, adenoviral, lentiviral, retroviral, plasmid DNA and others) and application area (gene therapy, cell therapy, vaccine and others).

Chapter 5 provides an overview of close to 70 industry players that are actively involved in the production of plasmid DNA and other non-viral vectors and / or gene therapies utilizing non-viral vectors. The chapter provides details on the the year of establishment, company size, location of headquarters, type of product manufactured (vector and gene therapy / cell therapy / vaccine), location of plasmid DNA manufacturing facilities, type of manufacturer (in-house and contract services), scale of operation (preclinical, clinical and commercial) and application area (gene therapy, cell therapy, vaccine and others).

Chapter 6 provides an overview of close to 90 non-industry players (academia and research institutes) that are actively involved in the production of vectors (both viral and non-viral) and / or gene therapies. The chapter provides details on the year of establishment, type of manufacturer (in-house and contract services), scale of operation (preclinical, clinical and commercial), location of headquarters, type of vector manufactured (AAV, adenoviral, lentiviral, retroviral, plasmid DNA and others) and application area (gene therapy, cell therapy, vaccine and others).

Chapter 7 features an in-depth analysis of the technologies offered / developed by the companies engaged in this domain, based on the type of technology (viral vector and non-viral vector related platform), purpose of technology (vector manufacturing, gene delivery, product manufacturing, transduction / transfection, vector packaging and other), scale of operation (preclinical, clinical and commerical), type of vector involved (AAV, adenoviral, lentiviral, retroviral, non-viral and other viral vectors), application area (gene therapy, cell therapy, vaccine and others) and leading technology providers.

Chapter 8 presents a detailed competitiveness analysis of vector manufacturers across key geographical areas, featuring a four-dimensional bubble representation, taking into consideration supplier strength (based on its experience in this field), manufacturing strength (type of product manufactured, number of manufacturing facilities and number of application area), service strength (scale of operation, number of vectors manufactured and geographical reach) and company size (small, mid-sized and large).

Chapter 9 features detailed profiles of some of the key players that have the capability to manufacture viral vectors / plasmid DNA in North America. Each profile presents a brief overview of the company, its financial information (if available), details on vector manufacturing facilities, manufacturing experience and an informed future outlook.

Chapter 10 features detailed profiles of some of the key players that have the capability to manufacture viral vectors / plasmid DNA in Europe. Each profile presents a brief overview of the company, its financial information (if available), details on vector manufacturing facilities, manufacturing experience and an informed future outlook.

Chapter 11 features detailed profiles of some of the key players that have the capability to manufacture viral vectors / plasmid DNA in Asia-Pacific. Each profile presents a brief overview of the company, its financial information (if available), details on vector manufacturing facilities, manufacturing experience and an informed future outlook.

Chapter 12 features tabulated profiles of the other key players that have the capability to manufacture viral vectors / plasmid DNA. Each profile features an overview of the company, its financial performance (if available), information related to its manufacturing capabilities, and an informed future outlook.

Chapter 13 features in-depth analysis and discussion of the various partnerships inked between the players in this market, during the period, 2015-2022, covering analysis based on parameters such as year of partnership, type of partnership(manufacturing agreement, product / technology licensing, product development, merger / acquisition, research and development agreement, process development / optimization, service alliance, production asset / facility acquisition, supply agreement and others), scale of operation (preclinical, clinical and commercial) and type of vector (AAV, adenoviral, lentiviral, retroviral, plasmid and others) most active players (in terms of number of partnerships).

Chapter 14 features an elaborate discussion and analysis of the various expansions that have been undertaken, since 2015. Further, the expansion activities in this domain have been analyzed on the basis of year of expansion, type of expansion (new facility / plant establishment, facility expansion, technology installation / expansion, capacity expansion, service expansion and others), geographical location of the facility, type of vector (AAV, adenoviral, lentiviral, retroviral, plasmid and others) and application area (gene therapy, cell therapy, vaccine and others).

Chapter 15 highlights potential strategic partners (vector based therapy developers and vector purification product developers) for vector and gene therapy product manufacturers, based on several parameters, such as developer strength, product strength, type of vector, therapeutic area, pipeline strength (clinical and preclinical). The analysis aims to provide the necessary inputs to the product developers, enabling them to make the right decisions to collaborate with industry stakeholders with relatively more initiatives in the domain.

Chapter 16 provides detailed information on other viral / non-viral vectors. These include alphavirus vectors, Bifidobacterium longum vectors, Listeria monocytogenes vectors, myxoma virus based vectors, Sendai virus based vectors, self-complementary vectors (improved versions of AAV), minicircle DNA and Sleeping Beauty transposon vectors (non-viral gene delivery approach) and chimeric vectors, that are currently being utilized by pharmaceutical players to develop gene therapies, T-cell therapies and certain vaccines, as well. This chapter presents overview on all the aforementioned types of vectors, along with examples of companies that use them in their proprietary products. It also includes examples of companies that are utilizing specific technology platforms for the development / manufacturing of some of these novel vectors.

Chapter 17 presents a collection of key insights derived from the study. It includes a grid analysis, highlighting the distribution of viral vectors and plasmid DNA manufacturers on the basis of their scale of operation and type of manufacturer (fulfilling in-house requirement / contract service provider). In addition, it consists of a heat map of viral vector and plasmid DNA manufacturers based on the type of vector (AAV, adenoviral vector, lentiviral vector, retroviral vector and plasmid DNA) and type of organization (industry (small, mid-sized and large) and non-industry). The chapter also consists of six world map representations of manufacturers of viral / non-viral vectors (AAV, adenoviral, lentiviral, retroviral vectors, and plasmid DNA), depicting the most active geographies in terms of the presence of the organizations. Furthermore, we have provided a schematic world map representation to highlight the geographical locations of key vector manufacturing hubs across different continents.

Chapter 18 highlights our views on the various factors that may be taken into consideration while pricing viral vectors / plasmid DNA. It features discussions on different pricing models / approaches that manufacturers may choose to adopt to decide the prices of their proprietary products.

Chapter 19 features an informed analysis of the overall installed capacity of the vectors and gene therapy manufacturers. The analysis is based on meticulously collected data (via both secondary and primary research) on reported capacities of various small, mid-sized and large companies, distributed across their respective facilities. The results of this analysis were used to establish an informed opinion on the vector production capabilities of the organizations by company size (small, mid-sized and large), scale of operation (clinical and commercial), type of vector (viral vector and plasmid DNA) and region (North America, Europe, Asia Pacific and the rest of the world).

Chapter 20 features an informed estimate of the annual demand for viral and non-viral vectors, taking into account the marketed gene-based therapies and clinical studies evaluating vector-based therapies. This section offers an opinion on the required scale of supply (in terms of vector manufacturing services) in this market. For the purpose of estimating the current clinical demand, we considered the active clinical studies of different types of vector-based therapies that have been registered till date. The data was analyzed on the basis of various parameters, such as number of annual clinical doses, trial location, and the enrolled patient population across different geographies. Further, in order to estimate the commercial demand, we considered the marketed vector-based therapies, based on various parameters, such as target patient population, dosing frequency and dose strength.

Chapter 21 presents a comprehensive market forecast analysis, highlighting the likely growth of vector and gene therapy manufacturing market till the year 2030. We have segmented the financial opportunity on the basis of type of vector (AAV vector, adenoviral vector, lentiviral vector, retroviral vector, plasmid DNA and others), application area (gene therapy, cell therapy and vaccine), therapeutic area (oncological disorders, rare disorders, neurological disorders, sensory disorders, metabolic disorders, musco-skeletal disorders, blood disorders, immunological diseases, and others), scale of operation (preclinical, clinical and commercial) and geography (North America, Europe, Asia Pacific, MENA, Latin America and rest of the world). Due to the uncertain nature of the market, we have presented three different growth tracks outlined as the conservative, base and optimistic scenarios.

Chapter 22 highlights the qualitative analysis on the five competitive forces prevalent in this domain, including threats for new entrants, bargaining power of drug developers, bargaining power of vector and gene therapy manufacturers, threats of substitute technologies and rivalry among existing competitors.

Chapter 23 provides details on the various factors associated with popular viral vectors and plasmid DNA that act as market drivers and the various challenges associated with the production process. This information has been validated by soliciting the opinions of several industry stakeholders active in this domain.

Chapter 24 presents insights from the survey conducted on over 300 stakeholders involved in the development of different types of gene therapy vectors. The participants, who were primarily Director / CXO level representatives of their respective companies, helped us develop a deeper understanding on the nature of their services and the associated commercial potential.

Chapter 25 summarizes the entire report, highlighting various facts related to contemporary market trend and the likely evolution of the viral vector, non-viral vector and gene therapy manufacturing market.

Chapter 26 is a collection of transcripts of the interviews conducted with representatives from renowned organizations that are engaged in the vector and gene therapy manufacturing domain. In this study, we spoke to Menzo Havenga (Chief Executive Officer and President, Batavia Biosciences), Nicole Faust (Chief Executive Officer & Chief Scientific Officer, CEVEC Pharmaceuticals), Cedric Szpirer (Former Executive & Scientific Director, Delphi Genetics), Olivier Boisteau, (Co-Founder / President, Clean Cells), Laurent Ciavatti (Former Business Development Manager, Clean Cells) and Xavier Leclerc (Head of Gene Therapy, Clean Cells), Alain Lamproye (Former President of Biopharma Business Unit, Novasep), Joost van den Berg (Former Director, Amsterdam BioTherapeutics Unit), Bakhos A Tannous (Director, MGH Viral Vector Development Facility, Massachusetts General Hospital), Eduard Ayuso, DVM, PhD (Scientific Director, Translational Vector Core, University of Nantes), Colin Lee Novick (Managing Director, CJ Partners), Semyon Rubinchik (Scientific Director, ACGT), Astrid Brammer (Senior Manager Business Development, Richter-Helm), Marco Schmeer (Project Manager, Plasmid Factory) and Tatjana Buchholz (Former Marketing Manager, Plasmid Factory), Brain M Dattilo (Business Development Manager, Waisman Biomanufacturing), Beatrice Araud (ATMP Key Account Manager, EFS-West Biotherapy), Nicolas Grandchamp (R&D Leader, GEG Tech), Geraldine Guerin-Peyrou (Director of Marketing and Technical Support, Polypus Transfection), Naiara Tejados, Head of Marketing and Technology Development, VIVEBiotech) and Jeffery Hung (Independent Consultant)

Chapter 27 is an appendix, which provides tabulated data and numbers for all the figures in the report.

Chapter 28 is an appendix that provides the list of companies and organizations that have been mentioned in the report.

TABLE OF CONTENTS

1. PREFACE

• 1.1. Scope of the Report
• 1.2. Research Methodology
• 1.3. Key Questions Answered
• 1.4. Chapter Outlines

2. EXECUTIVE SUMMARY

3. INTRODUCTION

• 3.1. Chapter Overview
• 3.2. Viral and Non-Viral Gene Transfer Techniques
• 3.3. Viral Vectors Used in Genetically Modified Therapies
• 3.4. Types of Viral Vectors
  • 3.4.1. Adeno-associated Viral Vectors
  • 3.4.2. Adenoviral Vectors
  • 3.4.3. Lentiviral Vectors
  • 3.4.4. Retroviral Vectors
  • 3.4.5. Other Viral Vectors
    • 3.4.5.1. Alphavirus
    • 3.4.5.2. Foamy Virus
    • 3.4.5.3. Herpes Simplex Virus
    • 3.4.5.4. Sendai Virus
    • 3.4.5.5. Simian Virus
    • 3.4.5.6. Vaccinia Virus
• 3.5. Types of Non-Viral Vectors
  • 3.5.1. Plasmid DNA
  • 3.5.2. Liposomes, Lipoplexes and Polyplexes
  • 3.5.3. Oligonucleotides
  • 3.5.4. Other Non-Viral Vectors
• 3.6. Gene Delivery using Non-Viral Vectors
  • 3.6.1. Biolistic Methods
  • 3.6.2. Electroporation
  • 3.6.3. Receptor Mediated Gene Delivery
  • 3.6.4. Gene Activated Matrix (GAM)
• 3.7. Applications of Viral and Non-Viral Vectors
  • 3.7.1. Type of Therapy
    • 3.7.1.1. Cell and Gene Therapy
    • 3.7.1.2. Vaccinology
• 3.8. Current / Ongoing Trends in Vector Development / Manufacturing
  • 3.8.1. Vector Engineering
  • 3.8.2. Cargo Engineering
• 3.9. Vector Manufacturing
  • 3.9.1. Types of Vector Manufacturers
  • 3.9.2. Viral Vector Manufacturing Processes
    • 3.9.2.1 Vector Production
    • 3.9.2.2. Adherent and Suspension Cultures
    • 3.9.2.3. Unit Process Versus Multiple Parallel Processes
    • 3.9.2.4. Cell Culture Systems for Production of Viral Vectors
    • 3.9.2.5. Serum-Containing versus Serum-Free Media
  • 3.9.3. Bioprocessing of Viral Vectors
    • 3.9.3.1. AAV Vector Production
    • 3.9.3.2. Adenoviral Vector Production
    • 3.9.3.3. Lentiviral Vector Production
    • 3.9.3.4. γ -Retroviral Vector Production
  • 3.9.4. Key Challenges Associated with Vector Manufacturing
• 3.10. Future Perspectives

4. VIRAL VECTOR AND GENE THERAPY MANUFACTURERS (INDUSTRY PLAYERS): MARKET LANDSCAPE

• 4.1. Chapter Overview
• 4.2. Viral Vector and Gene Therapy Manufacturers: Overall Market Landscape
  • 4.2.1. Analysis by Year of Establishment
  • 4.2.2. Analysis by Company Size
  • 4.2.3. Analysis by Location of Headquarters
  • 4.2.4. Analysis by Type of Product Manufactured
  • 4.2.5. Analysis by Location of Vector Manufacturing Facilities
  • 4.2.6. Analysis by Type of Manufacturer
  • 4.2.7. Analysis by Scale of Operation
  • 4.2.8. Analysis by Location of Headquarters and Scale of Operation
  • 4.2.9. Analysis by Type of Vector Manufactured
  • 4.2.10. Analysis by Scale of Operation and Type of Vector Manufactured
  • 4.2.11. Analysis by Application Area
  • 4.2.12. Information on Production Capacity

5. PLASMID DNA AND GENE THERAPY MANUFACTURERS (INDUSTRY PLAYERS): MARKET LANDSCAPE

• 5.1. Chapter Overview
• 5.2. Plasmid DNA and Gene Therapy Manufacturers: Overall Market Landscape
  • 5.2.1. Analysis by Year of Establishment
  • 5.2.2. Analysis by Company Size
  • 5.2.3. Analysis by Location of Headquarters
  • 5.2.4. Heat Map: Analysis by Company Size and Location of Headquarters
  • 5.2.5. Analysis by Type of Product Manufactured
  • 5.2.6. Analysis by Location of Plasmid DNA Manufacturing Facilities
  • 5.2.7. Analysis by Type of Manufacturer
  • 5.2.8. Analysis by Scale of Operation
  • 5.2.9. Analysis by Application Area
  • 5.2.10. Information on Production Capacity

6. VECTOR AND GENE THERAPY MANUFACTURERS (NON-INDUSTRY PLAYERS): MARKET LANDSCAPE

• 6.1. Chapter Overview
• 6.2. Vector and Gene Therapy Manufacturers: Overall Market Landscape
  • 6.2.1. Analysis by Year of Establishment
  • 6.2.2. Analysis by Location of Vector Manufacturing Facilities
  • 6.2.3. Analysis by Type of Manufacturer
  • 6.2.4. Analysis by Scale of Operation
  • 6.2.5. Analysis by Type of Vector Manufactured
  • 6.2.6. Analysis by Scale of Operation and Type of Vector Manufactured
  • 6.2.7. Analysis by Application Area

7. VECTOR AND GENE THERAPY MANUFACTURING TECHNOLOGIES: MARKET LANDSCAPE

• 7.1. Chapter Overview
• 7.2. Vector and Gene Therapy Manufacturing Technologies
  • 7.2.1. Analysis by Type of Technology
  • 7.2.2. Analysis by Purpose of Technology
  • 7.2.3. Analysis by Scale of Operation
  • 7.2.4. Analysis by Type of Vector
  • 7.2.5. Analysis by Application Area
  • 7.2.6. Most Active Players: Analysis by Number of Technology
• 7.3. Concluding Remarks

8. COMPANY COMPETITIVENESS ANALYSIS

• 8.1. Chapter Overview
• 8.2. Methodology and Key Parameters
• 8.3. Vector and Gene Therapy: In-House Manufacturers
  • 8.3.1. Players based in North America
  • 8.3.2. Players based in Europe
  • 8.3.3. Players based in Asia-Pacific and Rest of the World
• 8.4. Vector and Gene Therapy: Contract Manufacturing Organizations
  • 8.4.1. Players based in North America
  • 8.4.2. Players based in Europe
  • 8.4.3. Players based in Asia-Pacific and Rest of the World
• 8.5. Vector and Gene Therapy: Players Engaged in In-house and Contract Manufacturing
  • 8.5.1. Players based in North America
  • 8.5.2. Players based in Europe
  • 8.5.3. Players based in Asia-Pacific and Rest of the World

9. VECTOR AND GENE THERAPY MANUFACTURERS IN NORTH AMERICA

• 9.1. Chapter Overview
• 9.2. Advanced BioScience Laboratories
  • 9.2.1. Company Overview
  • 9.2.2. Manufacturing Facilities
  • 9.2.3. Recent Developments and Future Outlook
• 9.3. Aldevron
  • 9.3.1. Company Overview
  • 9.3.2. Financial Information
  • 9.3.3. Manufacturing Facilities
  • 9.3.4. Manufacturing Experience
  • 9.3.5. Recent Developments and Future Outlook
• 9.4. BioReliance / SAFC Commercial (Merck KGaA)
  • 9.4.1. Company Overview
  • 9.4.2. Financial Information
  • 9.4.3. Vector Manufacturing Technology Portfolio
  • 9.4.4. Manufacturing Facilities
  • 9.4.5. Recent Developments and Future Outlook
• 9.5. bluebird bio
  • 9.5.1. Company Overview
  • 9.5.2. Financial Information
  • 9.5.3. Manufacturing Facilities
  • 9.5.4. Manufacturing Experience
  • 9.5.5. Recent Development and Future Outlook
• 9.6. Other Companies
  • 9.6.1. Audentes Therapeutics
    • 9.6.1.1. Company Overview
    • 9.6.1.2. Financial Information
    • 9.6.1.3. Manufacturing Facilities
    • 9.6.1.4. Recent Developments and Future Outlook
  • 9.6.2. Emergent BioSolutions
    • 9.6.2.1. Company Overview
    • 9.6.2.2. Financial Information
    • 9.6.2.3 Manufacturing Facilities
    • 9.6.2.4. Recent Developments and Future Outlook
  • 9.6.3. FUJIFILM Diosynth Biotechnologies
    • 9.6.3.1. Company Overview
    • 9.6.3.2. Financial Information
    • 9.6.3.3. Manufacturing Facilities
    • 9.6.3.4. Manufacturing Experience
    • 9.6.3.5. Recent Developments and Future Outlook
  • 9.6.4. MeiraGTx
    • 9.6.4.1. Company Overview
    • 9.6.4.2. Manufacturing Facilities
    • 9.6.4.3. Recent Developments and Future Outlook
  • 9.6.5. Spark Therapeutics
    • 9.6.5.1. Company Overview
    • 9.6.5.2. Financial Information
    • 9.6.5.3. Manufacturing Facilities
    • 9.6.5.4. Vector Manufacturing Technology Portfolio
    • 9.6.5.5. Manufacturing Experience
    • 9.6.5.6. Recent Developments and Future Outlook
  • 9.6.7. Vigene Biosciences
    • 9.6.7.1. Company Overview
    • 9.6.7.2. Manufacturing Facilities
    • 9.6.7.3. Vector Manufacturing Technology Portfolio
    • 9.6.7.4. Manufacturing Experience
    • 9.6.7.5. Recent Developments and Future Outlook

10. VECTOR AND GENE THERAPY MANUFACTURERS IN EUROPE

• 10.1. Chapter Overview
• 10.2. Biovian
  • 10.2.1. Company Overview
  • 10.2.2. Manufacturing Facilities
  • 10.2.3. Recent Developments and Future Outlook
• 10.3. Centre for Process Innovation
  • 10.3.1. Company Overview
  • 10.3.2. Manufacturing Facilities
  • 10.3.3. Recent Developments and Future Outlook
• 10.4. Cobra Biologics
  • 10.4.1. Company Overview
  • 10.4.2. Financial Information
  • 10.4.3. Manufacturing Facilities
  • 10.4.4. Vector Manufacturing Technology Portfolio
  • 10.4.5. Manufacturing Experience
  • 10.4.6. Recent Developments and Future Outlook
• 10.5. FinVector
  • 10.5.1. Company Overview
  • 10.5.2. Manufacturing Facilities
  • 10.5.3. Vector Manufacturing Technology Portfolio
  • 10.5.4. Manufacturing Experience
  • 10.5.5. Recent Developments and Future Outlook
• 10.6. Kaneka Eurogentec
  • 10.6.1. Company Overview
  • 10.6.2. Manufacturing Facilities
  • 10.6.3. Manufacturing Experience
  • 10.6.4. Recent Developments and Future Outlook
• 10.7. Lonza
  • 10.7.1. Company Overview
  • 10.7.2. Financial Information
  • 10.7.3. Vector Manufacturing Technology Portfolio
  • 10.7.4. Manufacturing Facilities
  • 10.7.5. Recent Developments and Future Outlook
• 10.8. MolMed
  • 10.8.1. Company Overview
  • 10.8.2. Financial Information
  • 10.8.3. Manufacturing Facilities
  • 10.8.4. Recent Developments and Future Outlook
• 10.9. Novasep
  • 10.9.1. Company Overview
  • 10.9.2. Financial Information
  • 10.9.3. Manufacturing Facilities
  • 10.9.4. Manufacturing Experience
  • 10.9.5. Recent Developments and Future Outlook
• 10.10. Orchard Therapeutics
  • 10.10.1. Company Overview
  • 10.10.2. Manufacturing Facilities
  • 10.10.3 Recent Developments and Future Outlook
• 10.11. Oxford BioMedica
  • 10.11.1. Company Overview
  • 10.11.2. Financial Information
  • 10.11.3. Manufacturing Facilities
  • 10.11.4. Vector Manufacturing Technology Portfolio
  • 10.11.5. Manufacturing Experience
  • 10.11.6. Recent Developments and Future Outlook
• 10.12. Richter-Helm
  • 10.12.1. Company Overview
  • 10.12.2. Manufacturing Facilities
  • 10.12.3. Recent Developments and Future Outlook
• 10.13. Sanofi (CEPiA, Sanofi Pasteur, Genzyme)
  • 10.13.1. Company Overview
  • 10.13.2. Financial Information
  • 10.13.3. Manufacturing Facilities
  • 10.13.4. Recent Developments and Future Outlook
• 10.14. uniQure
  • 10.14.1. Company Overview
  • 10.14.2. Financial Information
  • 10.14.3. Manufacturing Facilities
  • 10.14.4. Vector Manufacturing Technology Portfolio
  • 10.14.5. Recent Developments and Future Outlook
• 10.15. Vibalogics
  • 10.15.1. Company Overview
  • 10.15.2. Manufacturing Facilities
  • 10.15.3. Recent Developments and Future Outlook
• 10.16. VIVEbiotech
  • 10.16.1. Company Overview
  • 10.16.2. Vector Manufacturing Technology Portfolio
  • 10.16.3. Manufacturing Facilities
  • 10.16.4. Recent Developments and Future Outlook
• 10.17. Other Companies
  • 10.17.1. Cell and Gene Therapy Catapult
    • 10.17.1.1. Company Overview
    • 10.17.1.2. Manufacturing Facilities
    • 10.17.1.3. Recent Developments and Future Outlook

11. VECTOR AND GENE THERAPY MANUFACTURERS IN ASIA-PACIFIC

• 11.1. Chapter Overview
• 11.2. Wuxi AppTec
  • 11.2.1. Company Overview
  • 11.2.2. Financial Information
  • 11.2.3. Manufacturing Facilities
  • 11.2.4. Manufacturing Experience
  • 11.2.5. Recent Developments and Future Outlook
• 11.3. Other Key Players

12. OTHER KEY PLAYERS

• 12.1. Chapter Overview
• 12.2. Thermo Fisher Scientific
  • 12.2.1. Company Overview
  • 12.2.2. Financial Information
  • 12.2.3. Vector Manufacturing Related Capabilities
  • 12.2.4. Recent Developments and Future Outlook
• 12.3. BioNTech Innovative Manufacturing
  • 12.3.1. Company Overview
  • 12.3.2. Financial Information
  • 12.3.3. Vector Manufacturing Related Capabilities
  • 12.3.4. Recent Developments and Future Outlook
• 12.3. Celonic
  • 12.3.1. Company Overview
  • 12.3.2. Vector Manufacturing Related Capabilities
  • 12.3.3. Recent Developments and Future Outlook

13. RECENT PARTNERSHIPS

• 13.1. Chapter Overview
• 13.2. Partnership Models
• 13.3. Vector and Gene Therapy Manufacturing: Recent Partnerships
  • 13.3.1. Analysis by Year of Partnership
  • 13.3.2. Analysis by Type of Partnership
  • 13.3.3. Analysis by Scale of Operation
  • 13.3.4. Analysis by Type of Vector
  • 13.3.5. Analysis by Therapeutic Area
  • 13.3.6. Most Active Players: Analysis by Number of Partnerships
  • 13.3.7. Geographical Analysis
    • 13.3.7.1. Intercontinental and Intracontinental Agreements
• 13.4. Other Collaborations

14. RECENT EXPANSIONS

• 14.1. Chapter Overview
• 14.2. Expansions Models
• 14.3. Vector and Gene Therapy Manufacturing: Recent Expansions
  • 14.3.1. Analysis by Year of Expansion
  • 14.3.2. Analysis by Type of Expansion
  • 14.3.3. Analysis by Amount Invested by Key Players
  • 14.3.4. Analysis by Scale of Operation
  • 14.3.5. Analysis by Type of Vector
  • 14.3.6. Analysis by Application Area
  • 14.3.7. Most Active Players: Analysis by Number of Expansions
  • 14.3.8. Geographical Analysis
    • 14.3.8.1. Analysis by Location of Expansion

15. STRATEGIC PARTNER ANALYSIS

• 15.1. Chapter Overview
• 15.2. Strategic Partner Analysis: Viral Vector based Therapy Developers
• 15.3. Methodology and Key Parameters
  • 15.3.1. Opportunities for AAV Vector- based Therapy Developers
    • 15.3.1.1. Most Likely Partners
    • 15.3.1.2. Likely Partners
    • 15.3.1.3. Less Likely Partners
    • 15.3.1.4. Least Likely Partners
  • 15.3.2. Opportunities for Adenoviral Vector based Therapy Developers
    • 15.3.2.1. Most Likely Partners
    • 15.3.2.2. Likely Partners
    • 15.3.2.3. Less Likely Partners
    • 15.3.2.4. Least Likely Partners
  • 15.3.3. Opportunities for Lentiviral Vector based Therapy Developers
    • 15.3.3.1. Most Likely Partners
    • 15.3.3.2. Likely Partners
    • 15.3.3.3. Less Likely Partners
    • 15.3.3.4. Least Likely Partners
  • 15.3.4. Opportunities for Retroviral Vector based Therapy Developers
    • 15.3.4.1. Most Likely Partners
    • 15.3.4.2. Likely Partners
    • 15.3.4.3. Less Likely Partners
    • 15.3.4.4. Least Likely Partners
  • 15.3.5. Opportunities for Other Viral Vector based Therapy Developers
    • 15.3.5.1. Most Likely Partners
    • 15.3.5.2. Likely Partners
    • 15.3.5.3. Less Likely Partners
    • 15.3.5.4. Least Likely Partners
• 15.4. Strategic Partner Analysis: Viral Vector based Purification Product Developers
• 15.5. Methodology and Key Parameters
  • 15.5.1. Opportunities for AAV based Purification Product Developers
    • 15.5.1.1. Most Likely Partners
    • 15.5.1.2. Likely Partners
  • 15.5.2. Opportunities for Adenoviral Vector based Purification Product Developers
    • 15.5.2.1. Most Likely Partners
    • 15.5.2.2. Likely Partners
  • 15.5.3. Opportunities for Lentiviral Vector based Purification Product Developers
    • 15.5.3.1. Most Likely Partners
    • 15.5.3.2. Likely Partners
  • 15.5.4. Opportunities for Retroviral Vector based Purification Product Developers
    • 15.5.4.1. Most Likely Partners
    • 15.5.4.2. Likely Partners
  • 15.5.5. Opportunities for Other Viral Vector based Purification Product Developers
    • 15.5.5.1. Most Likely Partners
    • 15.5.5.2. Likely Partners

16. EMERGING VECTORS

• 16.1. Chapter Overview
  • 16.1.1. Alphavirus based Vectors
  • 16.1.2. Anc80 based Vectors
  • 16.1.3. Bifidobacterium longum based Vectors
  • 16.1.4. Cytomegalovirus based Vectors
  • 16.1.5. Listeria monocytogenes based Vectors
  • 16.1.6. Minicircle DNA based Vectors
  • 16.1.7. Myxoma Virus based Vectors
  • 16.1.8. Self-Complementary Vectors
  • 16.1.9. Sendai Virus based Vectors
  • 16.1.10. Sleeping Beauty Transposons
  • 16.1.11. Vaccinia Virus and Modified Vaccinia Ankara based Vectors
  • 16.1.12. Chimeric Viral Vectors

17. KEY INSIGHTS

• 17.1. Chapter Overview
• 17.2. Vector and Gene Therapy Manufacturers: Analysis by Purpose of Manufacturing, Type of Vector Manufactured and Scale of Operation
• 17.3. Vector and Gene Therapy Manufacturers: Analysis by Company Size and Type of Vector Manufactured
• 17.4. Vector and Gene Therapy Manufacturers: Prominent Geographical Hubs by Type of Organization
  • 17.4.1. Contract Manufacturing Organizations
  • 17.4.2. In-House Manufacturers
• 17.5. Vector and Gene Therapy Manufacturers: Analysis by Location of Manufacturing Facilities and Type of Vector Manufactured
  • 17.5.1. AAV Vector Manufacturers
  • 17.5.2. Adenoviral Vector Manufacturers
  • 17.5.3. Lentiviral Vector Manufacturers
  • 17.5.4. Retroviral Vector Manufacturers
  • 17.5.5. Plasmid DNA Manufacturers

18. COST PRICE ANALYSIS

• 18.1. Chapter Overview
• 18.2. Factors Contributing to High Price of Viral Vector and Plasmid DNA based Therapies
• 18.3. Viral Vector and Plasmid DNA based Therapies: Pricing Models
  • 18.3.1. Pricing Models on the Basis of Expert Opinions
  • 18.3.2. Pricing Models on the Basis of Manufacturing Cost
    • 18.3.2.1. Pricing Models on the Basis of Technology Used
    • 18.3.2.2. Pricing Models on the Basis of Scale of Manufacturing
    • 18.3.2.3. Pricing Models on the Basis of Type of Client
  • 18.3.3. Prices of Different Types of Vectors
• 18.4. Concluding Remarks

19. CAPACITY ANALYSIS

• 19.1. Chapter Overview
• 19.2. Methodology and Key Assumptions
• 19.2. Global Installed Viral Vector and Gene Therapy Manufacturing Capacity
• 19.3. Global Installed Viral Vector Manufacturing Capacity
  • 19.3.1. Analysis by Company Size
  • 19.3.2. Analysis by Scale of Operation
  • 19.3.3. Analysis by Location of Manufacturing Facilities
• 19.4. Global Installed Plasmid DNA Manufacturing Capacity
  • 19.4.1. Analysis by Company Size
  • 19.4.2. Analysis by Scale of Operation
  • 19.4.3. Analysis by Location of Manufacturing Facilities
• 19.4. Concluding Remarks

20. DEMAND ANALYSIS

• 20.1. Chapter Overview
• 20.2. Assumptions and Methodology
• 20.3. Global Clinical Demand for Viral Vectors and Plasmid DNA, 2022-2035
  • 20.3.1. Analysis by Type of Vector
  • 20.3.2. Analysis by Type of Therapy
  • 20.3.3. Analysis by Therapeutic Area
  • 20.3.4. Analysis by Geographical Location

• 20.4. Global Commercial Demand for Viral Vectors and Plasmid DNA, 2022-2035
  • 20.4.1. Analysis by Type of Vector
  • 20.4.2. Analysis by Type of Therapy
  • 20.4.3. Analysis by Therapeutic Area
  • 20.4.4. Analysis by Geographical Location
• 20.5. Demand and Supply Analysis
  • 20.5.1. Scenario 1
  • 20.5.2. Scenario 2
  • 20.5.3. Scenario 3

21. MARKET SIZING AND OPPORTUNITY ANALYSIS

• 21.1. Chapter Overview
• 21.2. Scope of the Forecast
• 21.3. Forecast Methodology
• 21.4. Input Tables and Key Assumptions
• 21.5. Global Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035
  • 21.5.1. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Type of Vector Manufactured
    • 21.5.1.1. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Market Attractiveness by Purpose of Manufacturing
  • 21.5.2. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Scale of Operation
  • 21.5.3. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Type of Vector Manufactured
  • 21.5.4. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Therapeutic Area
  • 21.5.5. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Application Area
  • 21.5.6. Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035: Distribution by Key Geographical Regions
• 21.6. Current and Future Market Opportunity for Commercial Products
  • 21.6.1. Viral Vector and Plasmid DNA Manufacturing Market for Commercial Products, 2022-2035: Distribution by Type of Vector Manufactured
    • 21.6.1.1. AAV Vectors
      • 21.6.1.1.1. AAV Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
      • 21.6.1.1.2. AAV Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
      • 21.6.1.1.3. AAV Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
    • 21.6.1.2. Adenoviral Vectors
      • 21.6.1.2.1. Adenoviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
      • 21.6.1.2.2. Adenoviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
      • 21.6.1.2.3. Adenoviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
    • 21.6.1.3. Lentiviral Vectors
      • 21.6.1.3.1. Lentiviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
      • 21.6.1.3.2. Lentiviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
      • 21.6.1.3.3. Lentiviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
    • 21.6.1.4. Retroviral Vectors
      • 21.6.1.4.1. Retroviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
      • 21.6.1.4.2. Retroviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
      • 21.6.1.4.3. Retroviral Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
    • 21.6.1.5. Plasmid DNA
      • 21.6.1.5.1. Plasmid DNA Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
      • 21.6.1.5.2. Plasmid DNA Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
      • 21.6.1.5.3. Plasmid DNA Vector Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
  • 21.6.2. Viral Vector and Plasmid DNA Manufacturing Market for Commercial Products, 2022-2035: Distribution by Therapeutic Area
  • 21.6.3. Viral Vector and Plasmid DNA Manufacturing Market for Commercial Products, 2022-2035: Distribution by Application Area
  • 21.6.4. Viral Vector and Plasmid DNA Manufacturing Market for Commercial Products, 2022-2035: Distribution by Key Geographical Regions
• 21.7. Current and Future Market Opportunity for Clinical Candidates
  • 21.7.1. Viral Vector and Plasmid DNA Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
  • 21.7.2. Viral Vector and Plasmid DNA Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Type of Vector Manufactured
    • 21.7.2.1. AAV Vectors
      • 21.7.2.1.1. AAV Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
      • 21.7.2.1.2. AAV Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
      • 21.7.2.1.3. AAV Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.7.2.2. Adenoviral Vectors
      • 21.7.2.2.1. Adenoviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
      • 21.7.2.2.2. Adenoviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
      • 21.7.2.2.3. Adenoviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.7.2.3. Lentiviral Vectors
      • 21.7.2.3.1. Lentiviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
      • 21.7.2.3.2. Lentiviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
      • 21.7.2.3.3. Lentiviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.7.2.4. Retroviral Vectors
      • 21.7.2.4.1. Retroviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
      • 21.7.2.4.2. Retroviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
      • 21.7.2.4.3. Retroviral Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.7.2.5. Plasmid DNA
      • 21.7.2.5.1. Plasmid DNA Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Phase of Development
      • 21.7.2.5.2. Plasmid DNA Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
      • 21.7.2.5.3. Plasmid DNA Vector Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
  • 21.7.3. Viral Vector and Plasmid DNA Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Application Area
  • 21.7.4. Viral Vector and Plasmid DNA Manufacturing Market for Clinical Candidates, 2022-2035: Distribution by Key Geographical Regions
• 21.8. Current and Future Market Opportunity from Preclinical Candidates
  • 21.8.1. Viral Vector and Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Vector Manufactured
    • 21.8.1.1. AAV Vectors
      • 21.8.1.1.1. AAV Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
      • 21.8.1.1.2. AAV Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
      • 21.8.1.1.3. AAV Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.8.1.2. Adenoviral Vectors
      • 21.8.1.2.1. Adenoviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
      • 21.8.1.2.2. Adenoviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
      • 21.8.1.2.3. Adenoviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.8.1.3. Lentiviral Vectors
      • 21.8.1.3.1. Lentiviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
      • 21.8.1.3.2. Lentiviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
      • 21.8.1.3.3. Lentiviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.8.1.4. Retroviral Vectors
      • 21.8.1.4.1. Retroviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
      • 21.8.1.4.2. Retroviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
      • 21.8.1.4.3. Retroviral Vector Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
    • 21.8.1.5. Plasmid DNA
      • 21.8.1.5.1. Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
      • 21.8.1.5.2. Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
      • 21.8.1.5.3. Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
  • 21.8.2. Viral Vector and Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Type of Animal Model Used
  • 21.8.3. Viral Vector and Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Therapeutic Area
  • 21.8.4. Viral Vector and Plasmid DNA Manufacturing Market for Preclinical Candidates, 2022-2035: Distribution by Application Area
  • 21.8.5. Viral Vector and Plasmid DNA Manufacturing Market for preclinical Candidates, 2022-2035: Distribution by Key Geographical Regions
• 21.9 Current and Future Market opportunity from Vector-Based Vaccines
  • 21.9.1. Viral Vector and Plasmid DNA Manufacturing Market for Vector Based Vaccines, 2022-2035: Distribution by Scale of Operation
  • 21.9.2. Viral Vector and Plasmid DNA Manufacturing Market for Vector Based Vaccines, 2022-2035: Distribution by Type of Vector Manufactured
  • 21.9.3. Viral Vector and Plasmid DNA Manufacturing Market for Vector Based Vaccines, 2022-2035: Distribution by Therapeutic Area
  • 21.9.4. Viral Vector and Plasmid DNA Manufacturing Market for Vector Based Vaccines, 2022-2035: Distribution by Key Geographical Regions

22. PORTER'S FIVE FORCES ANALYSIS

• 22.1 Chapter Overview
• 22.2. Methodology and Assumptions
  • 22.2.1. Key Parameters
  • 22.2.2. Threats of New Entrants
  • 22.2.3. Bargaining Power of Suppliers
  • 22.2.4. Threats of Substitute Products
  • 22.2.5. Rivalry Among Existing Competitors
• 22.3. Concluding Remarks

23. KEY DRIVERS AND CHALLENGES

• 23.1. Chapter Overview
• 23.2. Viral Vector and Plasmid DNA Manufacturing Market: Key Drivers and Challenges
  • 23.2.1. AAV Vectors
  • 23.2.2. Adenoviral Vectors
  • 23.2.3. Lentiviral Vectors
  • 23.2.4. Retroviral Vectors
  • 23.2.5. Plasmid DNA
• 23.3. Concluding Remarks

24. SURVEY ANALYSIS

• 24.1. Chapter Overview
• 24.2. Analysis by Seniority Level of Respondents
• 24.3. Analysis by Type of Manufacturer
• 24.4. Analysis by Scale of Operation
• 24.5. Analysis by Type of Vector Manufactured

25. CONCLUDING REMARKS

26. EXECUTIVE INSIGHTS

• 26.1. Chapter Overview
• 26.2. Batavia Biosciences
  • 26.2.1. Company Snapshot
  • 26.2.2. Interview Transcript: Menzo Havenga, Chief Executive Officer and President
• 26.3. CEVEC Pharmaceuticals
  • 26.3.1. Company Snapshot
  • 26.3.2. Interview Transcript: Nicole Faust, Chief Executive Officer & Chief Scientific Officer
• 26.4. Vigene Biosciences
  • 26.4.1. Company Snapshot
  • 26.4.2. Interview Transcript: Jeffrey Hung, Former Chief Commercial Officer
• 26.5. Delphi Genetics
  • 26.5.1. Company Snapshot
  • 26.5.2. Interview Transcript: Cedric Szpirer, Former Executive and Scientific Director
• 26.6. Clean Cells
  • 26.6.1. Company Snapshot
  • 26.6.2. Interview Transcript: Olivier Boisteau, Strategy Direction and Executive Board Member, Laurent Ciavatti, Former Business Development Manager and Xavier Leclerc, Head of Gene Therapy
• 26.7. Novasep
  • 26.7.1. Company Snapshot
  • 26.7.2. Interview Transcript: Alain Lamproye, Former President of Biopharma Business Unit
• 26.8. Amsterdam BioTherapeutics Unit (AmBTU)
  • 26.8.1. Organization Snapshot
  • 26.8.2. Interview Transcript: Joost van den Berg, Former Director
• 26.9. MGH Viral Vector Development Facility, Massachusetts General Hospital
  • 26.9.1. Organization Snapshot
  • 26.9.2. Interview Transcript: Bakhos Tannous, Director
• 26.10. Translational Vector Core, University of Nantes
  • 26.10.1. Organization Snapshot
  • 26.10.2. Interview Transcript: Eduard Ayuso, DVM, PhD, Scientific Director
• 26.11. CJ PARTNERS
  • 26.11.1. Company Snapshot
  • 26.11.2. Interview Transcript: Colin Lee Novick, Managing Director
• 26.12. ACGT
  • 26.12.1. Company Snapshot
  • 26.12.2. Interview Transcript: Semyon Rubinchik, Scientific Director
• 26.13. Richter-Helm
  • 26.13.1. Company Snapshot
  • 26.13.2. Interview Transcript: Astrid Brammer, Senior Manager Business Development
• 26.14. Plasmid Factory
  • 26.14.1. Company Snapshot
  • 26.14.2. Interview Transcript: Marco Schmeer, Project Manager and Tatjana Buchholz, Former Marketing Manager
• 26.15. Waisman Biomanufacturing
  • 26.15.1. Company Snapshot
  • 26.15.2. Interview Transcript: Brian M Dattilo, Business Development Manager
• 26.16. EFS-West Biotherapy
  • 26.16.1. Company Snapshot
  • 26.16.2. Interview Transcript: Beatrice Araud, ATMP Key Account Manager
• 26.17. GEG Tech
  • 26.17.1. Company Snapshot
  • 26.17.2. Interview Transcript: Nicolas Grandchamp, R&D Leader
• 26.18. Polypus Transfection
  • 26.18.1. Company Snapshot
  • 26.18.2. Interview Transcript: Geraldine Guerin-Peyrou, Director of Marketing and Technical Support
• 26.19. Vive Biotech
  • 26.19.1. Company Snapshot
  • 26.19.2. Interview Transcript: Naiara Tejados, Head of Marketing and Technology Development
• 26.20. Independent Consultant
  • 26.20.1. Interview Transcript: Jeffery Hung

27. APPENDIX I: TABULATED DATA

28. APPENDIX II: LIST OF COMPANIES AND ORGANIZATIONS

LIST OF TABLES

• Table 3.1 Key Features of Viral Vectors
• Table 3.2 Key Features of Small-scale Cell Culture Systems
• Table 4.1 Viral Vector and Gene Therapy Manufacturers: List of Industry Players
• Table 4.2 Viral Vector and Gene Therapy Manufacturers (Industry Players): Information on Location of Viral Vector Manufacturing Facilities, Scale of operation and Type of Manufacturer
• Table 4.3 Heat Map: Information on Location of Headquarters and Scale of operation
• Table 4.4 Viral Vector and Gene Therapy Manufacturers (Industry Players): Information on Type of Viral Vector Manufactured
• Table 4.5 Heat Map: Information on Scale of operation and Type of Viral Vector Manufactured
• Table 4.6. Viral Vector and Gene Therapy Manufacturers (Industry Players): Information on Application Area
• Table 4.7. Viral Vector and Gene Therapy Manufacturers (Industry Players): Information on Production Capacity
• Table 5.1 Plasmid DNA and Gene Therapy Manufacturers: List of Industry Players
• Table 5.2 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Information on Company Size and Location of Headquarters
• Table 5.3 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Information on Location of Plasmid DNA Manufacturing Facilities, Scale of operation and Type of Manufacturer
• Table 5.4 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Information on Application Area
• Table 5.5 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Information on Production Capacity
• Table 6.1 Vector and Gene Therapy Manufacturers: List of Non-Industry Players
• Table 6.2 Vector and Gene Therapy Manufacturers (Non-Industry Players): Information on Scale of operation
• Table 6.3 Vector and Gene Therapy Manufacturers (Non-Industry Players): Information on Type of Vector Manufactured
• Table 6.4 Vector and Gene Therapy Manufacturers (Non-Industry Players): Information on Application Area
• Table 7.1 Vector and Gene Therapy Manufacturing Technologies: List of Technology Platforms
• Table 9.1 Vector and Gene Therapy Production in North America: List of Profiled Companies
• Table 9.2 Advanced BioScience Laboratories: Recent Developments and Future Outlook
• Table 9.3 Aldevron Plasmid DNA: QC Assays
• Table 9.4 Aldevron: Recent Developments and Future Outlook
• Table 9.5 Audentes Therapeutics: Recent Developments and Future Outlook
• Table 9.6 BioReliance / SAFC Commercial (Merck KGaA): Recent Developments and Future Outlook
• Table 9.7 bluebird bio: Recent Developments and Future Outlook
• Table 9.8 Thermo Fisher Scientific: Recent Developments and Future Outlook
• Table 9.9 FUJIFILM Diosynth Biotechnologies: Recent Developments and Future Outlook
• Table 9.10 MeiraGTx: Recent Developments and Future Outlook
• Table 9.11 MassBiologics: Recent Developments and Future Outlook
• Table 9.12 Spark Therapeutics: Recent Developments and Future Outlook
• Table 9.13 Vigene Biosciences: Recent Developments and Future Outlook
• Table 10.1 Vector and Gene Therapy Production in Europe: List of Players Profiled
• Table 10.2 Biovian: Recent Developments and Future Outlook
• Table 10.3 Centre for Process Innovation: Recent Developments and Future Outlook
• Table 10.4 Cobra Biologics: Recent Developments and Future Outlook
• Table 10.5 FinVector: Recent Developments and Future Outlook
• Table 10.6 Kaneka Eurogentec: Recent Developments and Future Outlook
• Table 10.7 Lonza: Recent Developments and Future Outlook
• Table 10.8 MolMed: Recent Developments and Future Outlook
• Table 10.9 Novasep: Manufacturing Experience
• Table 10.10 Novasep: Recent Developments Future Outlook
• Table 10.11 Orchard Therapeutics: Recent Developments Future Outlook
• Table 10.12 Oxford BioMedica: Recent Developments and Future Outlook
• Table 10.13 Richter-Helm: Recent Developments and Future Outlook
• Table 10.14 Sanofi: Recent Developments and Future Outlook
• Table 10.15 uniQure: Recent Developments and Future Outlook
• Table 10.16 Vibalogics: Recent Developments and Future Outlook
• Table 10.17 VIVEbiotech: Recent Developments and Future Outlook
• Table 10.18 Cell and Gene Therapy Catapult: Recent Developments and Future Outlook
• Table 11.1 Wuxi AppTec: Recent Developments and Future Outlook
• Table 11.2 List of Other Key Players Based in Asia Pacific
• Table 13.1 Vector and Gene Therapy Manufacturing: List of Recent Partnerships, 2015-2020 (till September)
• Table 13.2 Vector and Gene Therapy Manufacturing: List of Other Partnerships, 2015-2020 (till September)
• Table 13.1 Vector and Gene Therapy Manufacturing: List of Recent Expansions, 2015-2020 (till September)
• Table 13.2 Vector and Gene Therapy Manufacturing: Information on Scale of operation, Type of Vector Manufactured and Application Area, 2015-2020 (till September)
• Table 13.1 AAV Vector-based Therapy Developers: Most Likely Partners
• Table 15.2 AAV Vector-based Therapy Developers: Likely Partners
• Table 15.3 AAV Vector-based Therapy Developers: Less Likely Partners
• Table 15.4 AAV Vector-based Therapy Developers: Least Likely Partners
• Table 15.5 Adenoviral Vector-based Therapy Developers: Most Likely Partners
• Table 15.6 Adenoviral Vector-based Therapy Developers: Likely Partners
• Table 15.7 Adenoviral Vector-based Therapy Developers: Less Likely Partners
• Table 15.8 Adenoviral Vector-based Therapy Developers: Least Likely Partners
• Table 15.9 Lentiviral Vector-based Therapy Developers: Most Likely Partners
• Table 15.10 Lentiviral Vector-based Therapy Developers: Likely Partners
• Table 15.11 Lentiviral Vector-based Therapy Developers: Less Likely Partners
• Table 15.12 Lentiviral Vector-based Therapy Developers: Least Likely Partners
• Table 15.13 Retroviral Vector-based Therapy Developers: Most Likely Partners
• Table 15.14 Retroviral Vector-based Therapy Developers: Likely Partners
• Table 15.15 Retroviral Vector-based Therapy Developers: Less Likely Partners
• Table 15.16 Retroviral Vector-based Therapy Developers: Least Likely Partners
• Table 15.17 Other Viral Vector-based Therapy Developers: Most Likely Partners
• Table 15.18 Other Viral Vector-based Therapy Developers: Likely Partners
• Table 15.19 Other Viral Vector-based Therapy Developers: Less Likely Partners
• Table 15.20 Other Viral Vector-based Therapy Developers: Least Likely Partners
• Table 15.21 AAV Vector Purification Product Developers: Most Likely Partners
• Table 15.22 AAV Vector Purification Product Developers: Likely Partners
• Table 15.23 Adenoviral Vector Purification Product Developers: Most Likely Partners
• Table 15.24 Adenoviral Vector Purification Product Developers: Likely Partners
• Table 15.25 Lentiviral Vector Purification Product Developers: Most Likely Partners
• Table 15.26 Lentiviral Vector Purification Product Developers: Likely Partners
• Table 15.27 Retroviral Vector Purification Product Developers: Most Likely Partners
• Table 15.28 Retroviral Vector Purification Product Developers: Likely Partners
• Table 15.29 Other Viral Vector Purification Product Developers: Most Likely Partners
• Table 15.30 Other Viral Vector Purification Product Developers: Likely Partners
• Table 18.1 Viral Vector and Plasmid DNA Cost Price Analysis: Expert Opinions / Primary Research
• Table 18.2 Viral Vector and Plasmid DNA: Prices of Vectors
• Table 19.1 Global Installed Viral Vector Manufacturing Capacity: Sample Data Set
• Table 19.2 Global Installed Plasmid DNA Manufacturing Capacity: Sample Data Set
• Table 19.3 Global Installed Viral Vector Manufacturing Capacity: Distribution by Company Size
• Table 19.4 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Company Size
• Table 20.1. Global Viral Vectors Manufacturing Annual Demand, 2022-2035 (1020 vg)
• Table 20.2 Global Viral Vectors Manufacturing Annual Supply (Scenario 1), 2022-2035 (1020 vg)
• Table 20.3 Global Viral Vector Manufacturing: Annual Supply (Scenario 2), 2022-2035 (1020 vg)
• Table 20.4 Global Viral Vector Manufacturing: Annual Supply (Scenario 3), 2022-2035 (1020 vg)
• Table 21.1 Viral Vector and Plasmid DNA: Active Clinical Studies (Vector-Based Cell and Gene Therapies)
• Table 21.2 Viral Vector and Plasmid DNA: Distribution by Patients Enrolled in the Active Clinical Studies (Vector-Based Cell and Gene Therapies)
• Table 21.3 Viral Vector and Plasmid DNA: Number of Active Clinical Trials (Vector-Based Cell and Gene Therapies), 2022-2035
• Table 21.4 Viral Vector and Plasmid DNA: Number of Patients Enrolled in Active Clinical Trials (Vector-Based Cell and Gene Therapies), 2022-2035
• Table 21.5 Viral Vector and Plasmid DNA: Approved / Late-Stage Cell and Gene Therapies
• Table 24.1 Survey Response: Overview of the Participating Companies / Organizations
• Table 24.2 Survey Response: Seniority Level of Respondents
• Table 24.3 Survey Response: Type of Vector
• Table 24.4 Survey Response: Scale of operation
• Table 24.5 Survey Response: Vector Stabilization Technology
• Table 24.6 Survey Response: Type of Manufacturer (In-house Production versus Contract Services)
• Table 26.1 Batavia Biosciences: Key Highlights
• Table 26.2 CEVEC Pharmaceuticals: Key Highlights
• Table 26.3 Vigene Biosciences: Key Highlights
• Table 26.4 Delphi Genetics: Key Highlights
• Table 26.5 Clean Cells: Key Highlights
• Table 26.6 Novasep: Key Highlights
• Table 26.7 Amsterdam BioTherapeutics Unit (AmBTU): Key Highlights
• Table 26.8 MGH Viral Vector Development Facility, Massachusetts General Hospital: Key Highlights
• Table 26.9 Translational Vector Core, University of Nantes: Key Highlights
• Table 26.10 CJ PARTNERS: Key Highlights
• Table 26.11 ACGT: Key Highlights
• Table 26.12 Richter-Helm: Key Highlights
• Table 26.13 Plasmid Factory: Key Highlights
• Table 26.14 Waisman Biomanufacturing: Key Highlights
• Table 26.15 EFS-West Biotherapy: Key Highlights
• Table 26.16 GEG Tech: Key Highlights
• Table 27.1 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Year of Establishment
• Table 27.2 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Company Size
• Table 27.3 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Geographical Location of Headquarters (Continent-wise)
• Table 27.4 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Geographical Location of Headquarters (Country-wise)
• Table 27.5 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Product Manufactured
• Table 27.6 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Viral Vector Manufacturing Facilities (Continent-wise )
• Table 27.7 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Viral Vector Manufacturing Facilities (Country-wise)
• Table 27.8 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Manufacturer and Company Size
• Table 27.9 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Scale of Operation
• Table 27.10 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Vector Manufactured
• Table 27.11 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Application Area
• Table 27.12 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Year of Establishment
• Table 27.13 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Company Size
• Table 27.14 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Headquarters (Continents)
• Table 27.15 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Headquarters (Countries)
• Table 27.16 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Product Manufactured
• Table 27.17 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Plasmid DNA Manufacturing Facilities (Continents)
• Table 27.18 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Plasmid DNA Manufacturing Facilities (Countries)
• Table 27.19 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Manufacturer
• Table 27.20 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Scale of Operation
• Table 27.21 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Application Area
• Table 27.22 Vector and Gene Therapy Manufacturers (Non-Industry Players): Cumulative Trend by Year of Establishment
• Table 27.23 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Location of Vector Manufacturing Facilities (Continents)
• Table 27.24 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Location of Vector Manufacturing Facilities (Countries)
• Table 27.25 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Type of Manufacturer and Location of Vector Manufacturing Facilities
• Table 27.26 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Scale of Operation
• Table 27.27 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Type of Vector Manufactured
• Table 27.28 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Application Area
• Table 27.29 Vector and Gene Therapy Manufacturing Technologies: Distribution by Type of Technology
• Table 27.30 Vector and Gene Therapy Manufacturing Technologies: Distribution by Purpose of Technology
• Table 27.31 Vector and Gene Therapy Manufacturing Technologies: Distribution by Scale of Operation
• Table 27.32 Vector and Gene Therapy Manufacturing Technologies: Distribution by Type of Vector Manufactured
• Table 27.33 Vector and Gene Therapy Manufacturing Technologies: Distribution by Application Area
• Table 27.34 Most Active Players: Distribution by Number of Technology
• Table 27.35 Danaher: Annual Revenues, 2014 - Q1 2022 (USD Billion)
• Table 27.36 Merck KGaA: Annual Revenues, 2014 - Q1 2022 (EUR Billion)
• Table 27.37 bluebird bio: Annual Revenues, 2014 - Q1 2022 (USD Million)
• Table 27.38 Astellas Pharma: Annual Revenues, 2014 - 2021 (JPY Billion)
• Table 27.39 Emergent BioSolutions: Annual Revenues, 2014 - 2021 (USD Million)
• Table 27.40 FUJIFILM Holdings: Annual Revenues, 2013 - H1 FY 2021 (JPY Billion)
• Table 27.41 FUJIFILM Holdings: Revenues by Business Divisions, FY 2020 (JPY Billion)
• Table 27.42 Spark Therapeutics: Annual Revenues, 2014 - 9M 2019 (USD Million)
• Table 27.43 Charles River Laboratories: Annual Revenues, 2017 - Q1 2022 (USD Billion)
• Table 27.44 Lonza: Annual Revenues, 2014 - 2021 (CHF Billion)
• Table 27.45 AGC Biologics: Annual Revenues, 2020 - 2022 (JPY Billion)
• Table 27.46 Oxford BioMedica: Annual Revenues, 2014 - 2021 (GBP Million)
• Table 27.47 Sanofi: Annual Revenues, 2014 - Q1 2022 (EUR Billion)
• Table 27.48 uniQure: Annual Revenues, 2014 - Q1 2022 (USD Million)
• Table 27.49 Wuxi AppTec: Annual Revenues, 2017 - H1 2022 (RMB Million)
• Table 27.50 Thermo Fisher Scientific: Annual Revenues, 2017-Q1 2022 (USD Billion)
• Table 27.51 BioNTech Innovative Manufacturing: Annual Revenues, 2017-Q1 2022 (EUR Billion)
• Table 27.52 Recent Partnerships: Cumulative Year-wise Trend, 2015 - 2022
• Table 27.53 Recent Partnerships: Distribution by Type of Partnership
• Table 27.54 Recent Partnerships: Distribution by Type and Year of Partnership, 2015 - 2022
• Table 27.55 Recent Partnerships: Distribution by Scale of Operation
• Table 27.56 Recent Partnerships: Distribution by Type of Vector(s)
• Table 27.57 Recent Partnerships: Distribution by Therapeutic Area
• Table 27.58 Most Active Players: Distribution by Number of Partnerships
• Table 27.59 Recent Partnerships: Geographical Analysis
• Table 27.60 Recent Partnerships: Intercontinental and Intracontinental Agreements
• Table 27.61 Recent Expansions: Cumulative Year-wise Trend, 2015 - 2022
• Table 27.62 Recent Expansions: Distribution by Type of Expansion, 2015 - 2022
• Table 27.63 Recent Expansions: Distribution by Type and Year of Expansion, 2015 - 2022
• Table 27.64 Recent Expansions: Distribution of Amount Invested by Key Players
• Table 27.65 Recent Expansions: Distribution by Scale of Operation
• Table 27.66 Recent Expansions: Distribution by Type of Vector(s)
• Table 27.67 Recent Expansions: Distribution by Application Area
• Table 27.68 Most Active Players: Distribution by Number of Expansions
• Table 27.69 Recent Expansions: Intercontinental and Intracontinental Expansions
• Table 27.70 Recent Expansions: Distribution by Location of Expansion Project
• Table 27.71 Global Installed Viral Vector and Plasmid DNA Manufacturing Capacity: Distribution by Type of Vector Manufactured (in Liters)
• Table 27.72 Global Installed Viral Vector and Plasmid DNA Manufacturing Capacity: Distribution by Location of Manufacturing Facilities (in Liters)
• Table 27.73 Global Installed Viral Vector Manufacturing Capacity: Distribution by Company Size (Sample Data Set)
• Table 27.74 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Company Size (Sample Data Set)
• Table 27.75 Global Installed Viral Vector Manufacturing Capacity: Distribution by Company Size (in Liters)
• Table 27.76 Global Installed Viral Vector Manufacturing Capacity: Distribution by Range of Installed Capacity (in Liters)
• Table 27.77 Global Installed Viral Vector Manufacturing Capacity: Distribution by Scale of Operation (in Liters)
• Table 27.78 Global Installed Viral Vector Manufacturing Capacity: Distribution by Geographical Location of Viral Vector Manufacturing Facilities (in Liters)
• Table 27.79 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Company Size (in Liters)
• Table 27.80 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Range of Installed Capacity (in Liters)
• Table 27.81 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Scale ofOperation
• Table 27.82 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Location of Plasmid DNA Manufacturing Facilities (in Liters)
• Table 27.83 Global Clinical Demand for Viral Vector and Plasmid DNA, 2022-2035 (Thousand Patients)
• Table 27.84 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Type of Vector Manufactured (Thousand Patients)
• Table 27.85 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Type of Therapy (Thousand Patients)
• Table 27.86 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Therapeutic Area (Thousand Patients)
• Table 27.87 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Geographical Location (Thousand Patients)
• Table 27.88 Global Commercial Demand for Viral Vector and Plasmid DNA (Thousand Patients)
• Table 27.89 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Type of Vector Manufactured (Thousand Patients)
• Table 27.90 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Type of Therapy (Thousand Patients)
• Table 27.91 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Therapeutic Area (Thousand Patients)
• Table 27.92 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Geographical Location (Thousand Patients)
• Table 27.93 Global Viral Vector Manufacturing: Demand and Supply (Scenario 1), 2022-2035
• Table 27.94 Global Viral Vector Manufacturing: Demand and Supply (Scenario 2), 2022-2035
• Table 27.95 Global Viral Vector Manufacturing: Demand and Supply (Scenario 3), 2022-2035
• Table 27.96 Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035 (USD Million)
• Table 27.97 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Table 27.98 Viral Vector and Plasmid DNA Manufacturing Market: Market Attractiveness Analysis by Type of Vector Manufactured, 2022-2035
• Table 27.99 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.100 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Therapeutic Area, 2022, 2028 and 2035 (USD Million)
• Table 27.101 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Scale of Operation, 2022-2035 (USD Million)
• Table 27.102 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Type of Manufacturer, 2022-2035 (USD Million)
• Table 27.103 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.104 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.105 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022, 2028 and 2035 (USD Million)
• Table 27.106 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022, 2028 and 2035 (USD Million)
• Table 27.107 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Type of Vector Manufactured, 2022, 2028 and 2035 (USD Million)
• Table 27.108 AAV Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.109 AAV Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.110 AAV Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.111 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.112 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.113 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.114 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.115 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.116 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.118 Retroviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.119 Retroviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.120 Retroviral Vector Manufacturing Market for Commercial Product: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.121 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.122 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.123 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.124 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.125 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.126 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022, 2028 and 2035 (USD Million)
• Table 27.127 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Table 27.128 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.129 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.130 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.131 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.132 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.133 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.134 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.135 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.136 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.137 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.138 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.139 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.140 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.141 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Table 27.142 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.143 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.144 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Therapeutic Area, 2022, 2025 and 2035 (USD Million)
• Table 27.145 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.146 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022, 2025 and 2035 (USD Million)
• Table 27.147 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Table 27.148 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.149 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.150 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.151 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.152 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.153 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.154 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.155 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.156 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.157 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.158 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.159 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.160 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Table 27.161 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Table 27.162 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.163 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Table 27.164 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Scale of Operation, 2022-2035 (USD Million)
• Table 27.165 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Table 27.166 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Table 27.167 Survey Analysis: Distribution by Seniority Level of Respondents
• Table 27.168 Survey Analysis: Distribution by Scale of operation
• Table 27.169 Survey Analysis: Distribution by Type of Vector Manufactured

LIST OF FIGURES

• Figure 3.1 Viral and Non-Viral Techniques for Gene Transfer
• Figure 3.2 Vector Production: Types of Manufacturers
• Figure 3.3 Viral Vectors: Manufacturing Process
• Figure 4.1 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Year of Establishment
• Figure 4.2 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Company Size
• Figure 4.3 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Geographical Location of Headquarters (Continent-wise)
• Figure 4.4 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Geographical Location of Headquarters (Country-wise)
• Figure 4.5 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Product Manufactured
• Figure 4.6 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Viral Vector Manufacturing Facilities (Continent-wise )
• Figure 4.7 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Viral Vector Manufacturing Facilities (Country-wise)
• Figure 4.8 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Manufacturer and Company Size
• Figure 4.9 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Scale of Operation
• Figure 4.10 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Vector Manufactured
• Figure 4.11 Viral Vector and Gene Therapy Manufacturers (Industry Players): Distribution by Application Area
• Figure 5.1 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Year of Establishment
• Figure 5.2 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Company Size
• Figure 5.3 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Headquarters (Continents)
• Figure 5.4 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Headquarters (Countries)
• Figure 5.5 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Product Manufactured
• Figure 5.6 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Plasmid DNA Manufacturing Facilities (Continents)
• Figure 5.7 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Location of Plasmid DNA Manufacturing Facilities (Countries)
• Figure 5.8 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Type of Manufacturer
• Figure 5.9 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Scale of Operation
• Figure 5.10 Plasmid DNA and Gene Therapy Manufacturers (Industry Players): Distribution by Application Area
• Figure 6.1 Vector and Gene Therapy Manufacturers (Non-Industry Players): Cumulative Trend by Year of Establishment
• Figure 6.2 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Location of Vector Manufacturing Facilities (Continents)
• Figure 6.3 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Location of Vector Manufacturing Facilities (Countries)
• Figure 6.4 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Type of Manufacturer and Location of Vector Manufacturing Facilities
• Figure 6.5 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Scale of Operation
• Figure 6.6 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Type of Vector Manufactured
• Figure 6.7 Logo Landscape: Distribution by Scale of Operation and Type of Vector Manufactured
• Figure 6.8 Vector and Gene Therapy Manufacturers (Non-Industry Players): Distribution by Application Area
• Figure 7.1 Vector and Gene Therapy Manufacturing Technologies: Distribution by Type of Technology
• Figure 7.2 Vector and Gene Therapy Manufacturing Technologies: Distribution by Purpose of Technology
• Figure 7.3 Vector and Gene Therapy Manufacturing Technologies: Distribution by Scale of Operation
• Figure 7.4 Vector and Gene Therapy Manufacturing Technologies: Distribution by Type of Vector Manufactured
• Figure 7.5 Vector and Gene Therapy Manufacturing Technologies: Distribution by Application Area
• Figure 7.6 Most Active Players: Distribution by Number of Technology
• Figure 8.1 Company Competitiveness Analysis: Distribution of Players based in North America (In-House Manufacturers)
• Figure 8.2 Company Competitiveness Analysis: Distribution of Players based in Europe (In-House Manufacturers)
• Figure 8.3 Company Competitiveness Analysis: Distribution of Players based in Asia-Pacific and Rest of the World (In-House Manufacturers)
• Figure 8.4 Company Competitiveness Analysis: Distribution of Players based in North America (Contract Manufacturing Organizations)
• Figure 8.5 Company Competitiveness Analysis: Distribution of Players based in Europe (Contract Manufacturing Organizations)
• Figure 8.6 Company Competitiveness Analysis: Distribution of Players based in Asia-Pacific and Rest of the World (Contract Manufacturing Organizations)
• Figure 8.7 Company Competitiveness Analysis: Distribution of Players based in North America (Both In-House and Contract Manufacturing Organizations)
• Figure 8.8 Company Competitiveness Analysis: Distribution of Players based in Europe (Both In-House and Contract Manufacturing Organizations)
• Figure 8.9 Company Competitiveness Analysis: Distribution of Players based in Asia-Pacific and Rest of the World (Both In-House and Contract Manufacturing Organizations)
• Figure 9.1 Danaher: Annual Revenues, 2014 - Q1 2022 (USD Billion)
• Figure 9.2 Merck KGaA: Annual Revenues, 2014 - Q1 2022 (EUR Billion)
• Figure 9.3 H.A.V.E.: AAV Vector Manufacturing Technology
• Figure 9.4 bluebird bio: Annual Revenues, 2014 - Q1 2022 (USD Million)
• Figure 9.5 Astellas Pharma: Annual Revenues, 2014 - 2021 (JPY Billion)
• Figure 9.6 Emergent BioSolutions: Annual Revenues, 2014 - 2021 (USD Million)
• Figure 9.7 FUJIFILM Holdings: Annual Revenues, 2013 - H1 FY 2021 (JPY Billion)
• Figure 9.8 FUJIFILM Holdings: Revenues by Business Divisions, FY 2020 (JPY Billion)
• Figure 9.8 Spark Therapeutics: Annual Revenues, 2014 - 9M 2019 (USD Million)
• Figure 10.1 Charles River Laboratories: Annual Revenues, 2017 - Q1 2022 (USD Billion)
• Figure 10.2 Lonza: Annual Revenues, 2014 - 2021 (CHF Billion)
• Figure 10.3 AGC Biologics: Annual Revenues, 2020 - 2022 (JPY Billion)
• Figure 10.4 Novasep: Viral Vector Manufacturing Process
• Figure 10.5 Oxford BioMedica: Annual Revenues, 2014 - 2021 (GBP Million)
• Figure 10.6 Sanofi: Annual Revenues, 2014 - Q1 2022 (EUR Billion)
• Figure 10.7 uniQure: Annual Revenues, 2014 - Q1 2022 (USD Million)
• Figure 11.1 Wuxi AppTec: Annual Revenues, 2017 - H1 2022 (RMB Million)
• Figure 12.1 Thermo Fisher Scientific: Annual Revenues, 2017-Q1 2022 (USD Billion)
• Figure 12.2 BioNTech Innovative Manufacturing: Annual Revenues, 2017-Q1 2022 (EUR Billion)
• Figure 13.1 Recent Partnerships: Cumulative Year-wise Trend, 2015 - 2022
• Figure 13.2 Recent Partnerships: Distribution by Type of Partnership
• Figure 13.3 Recent Partnerships: Distribution by Type and Year of Partnership, 2015 - 2022
• Figure 13.4 Recent Partnerships: Distribution by Scale of Operation
• Figure 13.5 Recent Partnerships: Distribution by Type of Vector(s)
• Figure 13.6 Recent Partnerships: Distribution by Therapeutic Area
• Figure 13.7 Most Active Players: Distribution by Number of Partnerships
• Figure 13.8 Recent Partnerships: Geographical Analysis
• Figure 13.9 Recent Partnerships: Intercontinental and Intracontinental Agreements
• Figure 14.1 Recent Expansions: Cumulative Year-wise Trend, 2015 - 2022
• Figure 14.2 Recent Expansions: Distribution by Type of Expansion, 2015 - 2022
• Figure 14.3 Recent Expansions: Distribution by Type and Year of Expansion, 2015 - 2022
• Figure 14.4 Recent Expansions: Distribution of Amount Invested by Key Players
• Figure 14.5 Recent Expansions: Distribution by Scale of Operation
• Figure 14.6 Recent Expansions: Distribution by Type of Vector(s)
• Figure 14.7 Recent Expansions: Distribution by Application Area
• Figure 14.8 Most Active Players: Distribution by Number of Expansions
• Figure 14.9 Recent Expansions: Intercontinental and Intracontinental Expansions
• Figure 14.10 Recent Expansions: Distribution by Location of Expansion Project
• Figure 17.1 Vector and Gene Therapy Manufacturers: Competitive Landscape by Type of Manufacturer, Type of Vector Manufactured and Scale of Operation
• Figure 17.2 Vector and Gene Therapy Manufacturers: Logo Landscape by Company Size and Type of Vector Manufactured
• Figure 17.3 Vector and Gene Therapy Contract Manufacturers: Distribution by Prominent Geographical Hubs
• Figure 17.4 Vector and Gene Therapy In-House Manufacturers: Distribution by Prominent Geographical Hubs
• Figure 17.5 AAV Vector Manufacturers: Distribution by Location of Manufacturing Facilities
• Figure 17.6 Adenoviral Vector Manufacturers: Distribution by Location of Manufacturing Facilities
• Figure 17.7 Lentiviral Vector Manufacturers: Distribution by Location of Manufacturing Facilities
• Figure 17.8 Retroviral Vector Manufacturers: Distribution by Location of Manufacturing Facilities
• Figure 17.9 Plasmid DNA Manufacturers: Distribution by Location of Manufacturing Facilities
• Figure 18.1 Viral Vector and Plasmid DNA Cost Price Analysis: Vector Production Process and Relative Costs Involved
• Figure 19.1 Global Installed Viral Vector and Plasmid DNA Manufacturing Capacity: Distribution by Type of Vector Manufactured (in Liters)
• Figure 19.2 Global Installed Viral Vector and Plasmid DNA Manufacturing Capacity: Distribution by Location of Manufacturing Facilities (in Liters)
• Figure 19.3 Global Installed Viral Vector Manufacturing Capacity: Distribution by Company Size (Sample Data Set)
• Figure 19.4 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Company Size (Sample Data Set)
• Figure 19.5 Global Installed Viral Vector Manufacturing Capacity: Distribution by Company Size (in Liters)
• Figure 19.6 Global Installed Viral Vector Manufacturing Capacity: Distribution by Range of Installed Capacity (in Liters)
• Figure 19.7 Global Installed Viral Vector Manufacturing Capacity: Distribution by Scale of operation (in Liters)
• Figure 19.8 Global Installed Viral Vector Manufacturing Capacity: Distribution by Geographical Location of Viral Vector Manufacturing Facilities (in Liters)
• Figure 19.9 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Company Size (in Liters)
• Figure 19.10 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Range of Installed Capacity (in Liters)
• Figure 19.11 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Scale of operation
• Figure 19.12 Global Installed Plasmid DNA Manufacturing Capacity: Distribution by Location of Plasmid DNA Manufacturing Facilities (in Liters)
• Figure 20.1 Global Clinical Demand for Viral Vector and Plasmid DNA, 2022-2035 (Thousand Patients)
• Figure 20.2 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Type of Vector Manufactured (Thousand Patients)
• Figure 20.3 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Type of Therapy (Thousand Patients)
• Figure 20.4 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Therapeutic Area (Thousand Patients)
• Figure 20.5 Clinical Demand for Viral Vector and Plasmid DNA: Distribution by Geographical Location (Thousand Patients)
• Figure 20.6 Global Commercial Demand for Viral Vector and Plasmid DNA (Thousand Patients)
• Figure 20.7 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Type of Vector Manufactured (Thousand Patients)
• Figure 20.8 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Type of Therapy (Thousand Patients)
• Figure 20.9 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Therapeutic Area (Thousand Patients)
• Figure 20.10 Commercial Demand for Viral Vector and Plasmid DNA: Distribution by Geographical Location (Thousand Patients)
• Figure 20.11 Global Viral Vector Manufacturing: Demand and Supply (Scenario 1), 2022-2035
• Figure 20.12 Global Viral Vector Manufacturing: Demand and Supply (Scenario 2), 2022-2035
• Figure 20.13 Global Viral Vector Manufacturing: Demand and Supply (Scenario 3), 2022-2035
• Figure 21.1 Viral Vector and Plasmid DNA Manufacturing Market, 2022-2035 (USD Million)
• Figure 21.2 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Figure 21.3 Viral Vector and Plasmid DNA Manufacturing Market: Market Attractiveness Analysis by Type of Vector Manufactured, 2022-2035
• Figure 20.4 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 20.5 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Therapeutic Area, 2022, 2028 and 2035 (USD Million)
• Figure 20.6 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Scale of Operation, 2022-2035 (USD Million)
• Figure 20.7 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Type of Manufacturer, 2022-2035 (USD Million)
• Figure 20.8 Viral Vector and Plasmid DNA Manufacturing Market: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 20.9 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 20.10 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022, 2028 and 2035 (USD Million)
• Figure 20.11 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022, 2028 and 2035 (USD Million)
• Figure 20.12 Viral Vectors and Plasmid DNA Manufacturing Market for Commercial Products: Distribution by Type of Vector Manufactured, 2022, 2028 and 2035 (USD Million)
• Figure 20.13 AAV Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 20.14 AAV Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 20.15 AAV Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 20.16 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 20.17 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 20.18 Adenoviral Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 20.19 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 20.20 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 21.21 Lentiviral Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.22 Retroviral Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.23 Retroviral Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 21.24 Retroviral Vector Manufacturing Market for Commercial Product: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.25 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.26 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 21.27 Plasmid DNA Vector Manufacturing Market for Commercial Products: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.28 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.29 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.30 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022, 2028 and 2035 (USD Million)
• Figure 21.31 Viral Vectors and Plasmid DNA Manufacturing Market for Clinical Candidates: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Figure 21.32 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.33 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.34 AAV Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.35 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.36 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.37 Adenoviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.38 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.39 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.40 Lentiviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.41 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.42 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.43 Retroviral Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.44 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.45 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Phase of Development, 2022-2035 (USD Million)
• Figure 21.46 Plasmid DNA Vector Manufacturing Market for Clinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.47 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.48 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Therapeutic Area, 2022, 2025 and 2035 (USD Million)
• Figure 21.49 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Animal Model Used, 2022-2035 (USD Million)
• Figure 21.50 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022, 2025 and 2035 (USD Million)
• Figure 21.51 Viral Vectors and Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Figure 21.52 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.53 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Figure 21.54 AAV Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.55 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.56 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Figure 21.57 Adenoviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.58 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.59 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Figure 21.60 Lentiviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.61 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.62 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Figure 21.63 Retroviral Vector Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.64 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Application Area, 2022-2035 (USD Million)
• Figure 21.65 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Type of Animal Model Used, 2022-2035 (USD Million)
• Figure 21.66 Plasmid DNA Manufacturing Market for Preclinical Candidates: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 21.67 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Type of Vector Manufactured, 2022-2035 (USD Million)
• Figure 21.68 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Scale of Operation, 2022-2035 (USD Million)
• Figure 21.69 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Therapeutic Area, 2022-2035 (USD Million)
• Figure 21.70 Viral Vectors and Plasmid DNA Manufacturing Market for Vector Based Vaccines: Distribution by Key Geographical Regions, 2022-2035 (USD Million)
• Figure 22.1 Porter's Five Forces
• Figure 22.2 Porter's Five Forces: Harvey Ball Analysis
• Figure 23.1 Key Drivers and Challenges: AAV Vectors
• Figure 23.2 Key Drivers and Challenges: Adenoviral Vectors
• Figure 23.3 Key Drivers and Challenges: Lentiviral Vectors
• Figure 23.4 Key Drivers and Challenges: Retroviral Vectors
• Figure 23.5 Key Drivers and Challenges: Plasmid DNA
• Figure 24.1 Survey Analysis: Distribution by Seniority Level of Respondents
• Figure 24.2 Survey Analysis: Distribution by Scale of operation
• Figure 24.3 Survey Analysis: Distribution by Type of Vector Manufactured
• Figure 25.1 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Current Market Landscape of Viral Vectors
• Figure 25.2 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Current Market Landscape of Plasmid DNA
• Figure 25.3 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Current Market Landscape of Non-Industry Players
• Figure 25.4 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Current Market Landscape of Vector and Gene Therapy manufacturing Technologies
• Figure 25.5 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Recent Expansions and Partnerships
• Figure 25.6 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Strategic Partner Analysis
• Figure 25.7 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Capacity Analysis
• Figure 25.8 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Demand Analysis
• Figure 25.9 Viral Vectors, Non-Viral Vectors and Gene Therapy Manufacturing DNA Market: Market Forecast and Opportunity Analysis