DUBLIN--(BUSINESS WIRE)--The "DNA-Encoded Libraries: Platforms and Services Market" report has been added to ResearchAndMarkets.com's offering.
Given the complexities involved in the drug discovery process, the overall research and development (R&D) expenditure in the pharmaceutical/biotechnology sector has steadily increased over time.
Specifically, in 2019, the R&D spending was estimated to be around USD 182 billion; over 16,000 drug molecules were reportedly evaluated during the year. The industry is presently under tremendous pressure not only to identify ways to mitigate the risks of failure of drug discovery programs but also to meet the expectations of a growing patient population.
The process of drug development, beginning from the discovery of a molecule to its commercial launch, takes around 10-15 years and capital investments worth USD 4-10 billion. It is a well-known fact that only a small proportion of molecules, which are selected for further investigation during the initial stages of research, are actually translated into product candidates.
DNA-encoded libraries (also known as DELs), owing to their advantages (such as library size, cost, and equipment needs) over high-throughput screening, have demonstrated to be a sophisticated combinatorial drug discovery tool for synthesis and screening of large collections of small molecule compounds.
Interestingly, DNA-encoded libraries encompassing as high as 40 trillion different molecules have been developed, enabling screening, hit identification and discovery of pharmacological leads (including macrocycles, natural products, and small molecules) against undruggable and unique targets using a single library and accelerating the process of drug development.
Moreover, the introduction of automated screening of small organic ligands using DNA-encoded chemical libraries has enabled the identification of potential lead molecules within a time duration of 10 days.
Several mid-sized to large companies have undertaken initiatives towards building in-house DNA-encoded library technology. In addition, players have forged strategic alliances with service providers for accessing the latter's DNA-encoded libraries for the purpose of drug discovery.
The growing number of drug discovery projects, coupled to the rapid progression of molecules through various stages of drug discovery, is expected to continue to increase demand for such advanced drug discovery tools.
Scope of the Report
The report features an extensive study of the current landscape and the untapped opportunities these DNA-encoded likely to bring in the field of drug discovery. In addition to other elements, the report includes:
- An overview of the current market landscape of DNA-encoded libraries, featuring details on the type of pharmacological lead (macrocycles, natural products, peptides, and small molecules), library size, method of library synthesis, type of therapeutic target and type of therapeutic area.
- An overview of the landscape of DNA-encoded library developers and analysis based on parameters, such as year of establishment, company size, type of service offered (screening service / hit identification, hit optimization/validation, custom library design/synthesis, in-house drug development, and DNA-encoded library service kits) and geographical location.
- A detailed analysis of the partnerships related to DNA-encoded libraries, which have been established in the recent past, covering research collaborations, research, and development agreements, licensing agreements, acquisitions, distribution agreements, service alliances, and other relevant agreements.
- Elaborate profiles of the prominent service providers engaged in this domain. Each profile features a brief overview of the company, information on its service portfolio, DNA-encoded library portfolio, recent developments, and an informed future outlook.
- A brief overview of the initiatives taken by big pharma companies (such as Amgen, AstraZeneca, GSK, Novartis, Pfizer, and Roche) involved in this domain, highlighting the key focus areas of these players along with information on the recent deals inked with the DNA-encoded library providers (if available). It also features company snapshots for each of the above-mentioned companies
The research, analysis, and insights presented in this report are backed by a deep understanding of key insights gathered from both secondary and primary research. 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.
Key Topics Covered:
1.1. Scope of the Report
1.2. Research Methodology
1.3. Chapter Outlines
2. EXECUTIVE SUMMARY
3.1. Chapter Overview
3.2. Overview of Drug Development
3.3. Drug Discovery Process
3.3.1. Target Identification
3.3.2. Target Validation
3.3.3. Hit Generation
184.108.40.206. High-Throughput Screening
220.127.116.11. Fragment Based Screening
18.104.22.168. Virtual Screening
22.214.171.124. DNA-Encoded Library-based Screening
3.3.5. Lead Optimization
3.4. Overview of DNA-Encoded Libraries
3.4.1. Historical Evolution
3.4.2. Encoding Strategies for Library Construction
3.4.3. Comparison of Traditional Libraries and DNA-Encoded Libraries
3.4.4. Key Advantages
3.4.5. Challenges and Limitations
3.5. Future Perspectives and Opportunity Areas
4. CURRENT MARKET LANDSCAPE
4.1. Chapter Overview
4.2. DNA-Encoded Libraries: Overall Market Landscape
4.2.1. Analysis by Library Size
4.2.2. Analysis by Type of Pharmacological Lead
4.2.3. Analysis by Method of Library Synthesis
4.2.4. Analysis by Therapeutic Target
4.2.5. Analysis by Therapeutic Area
4.3. DNA-Encoded Libraries: Developer Landscape
4.3.1. Analysis by Year of Establishment
4.3.2. Analysis by Company Size
4.3.3. Analysis by Geographical Location
4.3.4. Analysis by Type of Service Offered
4.4. DNA-Encoded Libraries: Supporting Companies
5. PARTNERSHIPS AND COLLABORATIONS
5.1. Chapter Overview
5.2. Partnership Models
5.3. DNA-Encoded Libraries: Recent Partnerships and Collaborations
5.3.1. Analysis by Year of Partnership
5.3.2. Analysis by Type of Partnership
5.3.3. Analysis by Year of Partnership and Type of Partner
5.3.4. Most Active Players: Analysis by Number of Partnerships
5.3.5. Most Popular DNA-Encoded Libraries: Analysis by Number of Partnerships
5.3.6. Regional Analysis
126.96.36.199. Most Active Players: Analysis by Local and International Agreements
188.8.131.52. Intercontinental and Intracontinental Agreements
6. COMPANY PROFILES
6.1. Chapter Overview
6.2.1. Company Overview
6.2.2. Service Portfolio
184.108.40.206. HitGen's DNA-Encoded Libraries
6.2.3. Recent Developments and Future Outlook
7. CASE STUDY: LIKELY BIOLOGICAL TARGETS FOR DRUG DISCOVERY USING DNA-ENCODED LIBRARIES
7.1. Chapter Overview
7.2. Undruggable Cancer Targets
7.2.1. G protein-coupled receptors (GPCRs)
7.2.2. GPCRs Targeting Drugs: List of Clinical / Preclinical Molecules
7.3. DNA Repair Targets
7.3.1. poly ADP ribose polymerase (PARP) Inhibitors: Overview
7.3.2. PARP Inhibitors: List of Clinical / Preclinical Molecules
7.4. Other Targets
8. BIG PHARMA INITIATIVES: DNA-ENCODED LIBRARIES
8.1. Chapter Overview
8.2. Top Pharmaceutical Companies
9. DNA-ENCODED LIBRARY MARKET: OPPORTUNITY ANALYSIS
9.1. Chapter Overview
9.2. Key Assumptions and Input Data
9.3. Forecast Methodology
9.4. DNA-Encoded Libraries Licensing Market: Upfront and Milestone Payments, 2020, 2025 And 2030
9.5. DNA-Encoded Libraries Market: Additional Opportunity
10. CONCLUDING REMARKS
10.1. Chapter Overview
10.2. Key Takeaways
11. EXECUTIVE INSIGHTS
12. APPENDIX 1: TABULATED DATA
13. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS
- Abilita Bio
- Actelion Pharmaceuticals
- Aduro Biotech
- Alexion Pharmaceuticals
- Astellas Pharma
- Biokine Therapeutics
- Bristol-Myers Squibb
- BOC Sciences
- Boehringer Ingelheim
- Broad Institute
- California Institute for Biomedical Research (Calibr)
- Cancer Research Technology
- Cantex Pharmaceuticals
- Central European Institute of Technology (CEITEC)
- Charles River Laboratories
- Checkpoint Therapeutics
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