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DNA Data Storage Market by Steps Involved in DNA Data Storage Process, DNA storage and retrieval and DNA reading and Key Geographical Regions: Industry Trends and Global Forecasts, 2021-2035

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    Report

  • 250 Pages
  • January 2022
  • Region: Global
  • Roots Analysis
  • ID: 5701132

The ongoing technological advancements, rising popularity of social media, use of virtual platforms in the ongoing COVID-19 pandemic and digitalization of the various aspects in the modern world have led to the generation of colossal amount of digital data. In fact, the amount of digital data being produced has grown exponentially over the last few years and is likely to witness significant rise in the future as well. The reliable and secure storage and accessibility of such voluminous data require the solutions that are cost effective and have high storage capacity. Currently, various silicon-based technologies and solutions are being used to store the data, which is already outpacing the world’s available storage capacity. In order to deal with the capacity crunch, scientific community came up with the idea of leveraging the potential of genetic material, DNA for digital information storage. DNA, which consists of long chains of nucleotides can act as a stable medium of storing massive data. Owing to its high density and extended biological life, a number of companies are exploring the potential of DNA as a sustainable option for digital data storage. In fact, in October 2020, several computing and biotech firms came together to form a coalition, called DNA Data Storage Alliance, with an aim to create and promote an interoperable storage ecosystem with manufactured DNA as a data storage medium.

DNA offers a reliable data storage solution with abundant capacity, which is way higher than other existing storage mediums. Notably, it is claimed that all of the world’s data today could theoretically be stored in 1 kg of DNA. Moreover, DNA offers compelling advantages over silicon-based technologies, which facilitate the commercial usage of DNA as an effective data storage medium, especially when DNA synthesizing technology becomes cost-effective. Presently, close to 30 companies / organizations claim to be actively providing technologies and services for DNA based data storage. In the recent past, various stakeholders in this domain have forged strategic alliances and / or acquired other players. Given the advantages of employing DNA as a data storage medium and the ongoing advancements in DNA synthesis methods, we are led to believe that DNA data storge will usher in a new paradigm for computing with little to no limitations on the volume of data that we can produce, store, and access.

Scope of the Report

The “DNA Data Storage Market by Steps Involved in DNA Data Storage Process (coding and DNA writing (DNA synthesis), DNA storage and retrieval and DNA reading (DNA sequencing) and Key Geographical Regions (North America, Europe, Asia-Pacific, Latin America, MENA (Middle East and North Africa) and rest of the world): Industry Trends and Global Forecasts, 2021-2035” report features an extensive study on the current market landscape and the likely evolution of this industry over the next fifteen years. The study presents an in-depth analysis of the technology and service providers that assist in DNA based data storage. Amongst other elements, the report includes:

  • A review of the DNA data storage technology / service providers, featuring a detailed analysis of the players, based on several relevant parameters, such as year of establishment, company size, location of headquarters, type of offering (technology / service), steps involved in DNA data storage process (coding and DNA writing (DNA synthesis), DNA storage and retrieval and DNA reading (DNA sequencing)), method of DNA synthesis (chemical synthesis and enzymatic synthesis) and method of DNA sequencing (next-generation sequencing, nanopore sequencing and other sequencing). 
  • Elaborate profiles of the key players engaged in offering technologies and services related to DNA based data storage. Each profile includes a brief overview of the company, its financial information (if available), information on technology / service portfolio, recent developments and an informed future outlook.
  • An insightful competitiveness analysis, highlighting the capabilities of DNA data storage technology / service providers, based on supplier strength (considering a company’s overall experience in the industry), and portfolio strength (which takes into account the DNA data storage steps, type of offering, method of DNA synthesis, method of DNA sequencing, subject specific agreements and funding instances).
  • An in-depth analysis of the grants that have been awarded to various research institutes for projects related to DNA data storage, between 2016-2021, based on several relevant parameters, such as year of grant award, amount awarded, administering institute, support period, type of grant application, purpose of grant award, activity code, study section involved, type of recipient organization and emerging focus areas. In addition, it highlights the popular NIH departments, prominent program officers, and popular recipient organizations (in terms of number of grants awarded). 
  • An in-depth analysis of the patents that have been filed / granted for DNA as a data storage medium, since 2001. The chapter highlights the key trends associated with these patents, across various parameters, such as patent publication year, geographical location / patent jurisdiction, CPC symbols, emerging focus areas, type of organization, leading patent assignees and the leading players (in terms of number of patents filed / granted). In addition, it includes a patent benchmarking analysis and a detailed valuation analysis.
  • An analysis of the recent collaborations that have been established in this domain, since 2016, covering acquisition, distribution, manufacturing, platform utilization, process development, product integration, research, product development and commercialization, technology licensing, service alliance and other relevant types of agreements.
  • An analysis of the key investments made in this domain, between 2015 and 2021 (till September), including seed financing, venture capital financing, debt financing, grants, capital raised from IPOs and subsequent offerings, by companies engaged in the field of DNA data storage. 

One of the key objectives of the report was to estimate the current opportunity and the future growth potential of the DNA data storage market, over the next fifteen years. We have provided an informed estimate on the likely evolution of the market in the short to mid-term and long term, for the period 2021-2035. The report features the likely distribution of the current and forecasted opportunity across [A] steps involved in DNA data storage process (coding and DNA writing (DNA synthesis), DNA storage and retrieval and DNA reading (DNA sequencing) and [B] key geographical regions (North America, Europe, Asia-Pacific, Latin America, MENA (Middle East and North Africa) and rest of the world). In order to account for future uncertainties and to add robustness to our model, we have provided three market forecast scenarios, namely conservative, base and optimistic scenarios, representing different tracks of the anticipated industry’s growth. The opinions and insights presented in the report were also influenced by discussions held with senior stakeholders in the industry.

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 Questions Answered

  • Who are the leading industry players involved in offering services or technologies related to DNA data storage?
  • Which are the leading funding organizations providing grants for DNA data storage?
  • How has the intellectual property landscape of DNA data storage evolved over the years?
  • Which partnership models are commonly adopted by industry stakeholders offering services or technologies related to DNA data storage? 
  • What is the trend for capital investments in the DNA data storage market?
  • How is the current and future market opportunity likely to be distributed across key market segments?

Please note: This report can be updated on request. Please contact our Customer Experience team using the Ask a Question widget on our website.

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. History of DNA Data Storage
3.3. Overview of DNA Data Storage
3.3.1. Coding and DNA Writing (DNA Synthesis)
3.3.1.1. Chemical Method of DNA Synthesis
3.3.1.2. Enzymatic Method of DNA Synthesis
3.3.2. DNA Storage
3.3.3. Retrieval and DNA Reading (DNA Sequencing)
3.3.3.1. Next-Generation Sequencing
3.3.3.2. Nanopore Sequencing
3.4. Advantages of DNA Data Storage over Conventional Storage Mediums
3.5. Future Perspectives

4. MARKET OVERVIEW
4.1. Chapter Overview
4.2. DNA Data Storage Technology / Service Providers: Developer 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 Offering (Technology / Service)
4.2.5. Analysis by Steps Involved in DNA Data Storage Process
4.2.6. Grid Representation: Analysis by Company Size, Location of Headquarters and DNA Data Storage Steps
4.2.7. Analysis by Method of DNA Synthesis
4.2.8. Analysis by Method of DNA Sequencing

5. COMPANY PROFILES
5.1. Chapter Overview
5.2. DNA Data Storage Technology / Service Providers
5.2.1. Agilent Technologies
5.2.1.1. Company Overview
5.2.1.2. Financial Information
5.2.1.3. Technology / Service Portfolio
5.2.1.4. Recent Developments and Future Outlooks
5.2.2. ATUM
5.2.2.1. Company Overview
5.2.2.2. Technology / Service Portfolio
5.2.2.3. Recent Developments and Future Outlooks
5.2.3. Codex DNA
5.2.3.1. Company Overview
5.2.3.2. Financial Information
5.2.3.3. Technology / Service Portfolio
5.2.3.4. Recent Developments and Future Outlooks
5.2.4. Gattaca Technologies
5.2.4.1. Company Overview
5.2.4.2. Technology / Service Portfolio
5.2.4.3. Recent Developments and Future Outlooks
5.2.5. GenScript
5.2.5.1. Company Overview
5.2.5.2. Financial Information
5.2.5.3. Technology / Service Portfolio
5.2.5.4. Recent Developments and Future Outlooks
5.2.6. Illumina
5.2.6.1. Company Overview
5.2.6.2. Financial Information
5.2.6.3. Technology / Service Portfolio
5.2.6.4. Recent Developments and Future Outlooks
5.2.7. Imagene
5.2.7.1. Company Overview
5.2.7.2. Technology / Service Portfolio
5.2.7.3. Recent Developments and Future Outlooks
5.2.8. Oxford Nanopore Technologies
5.2.8.1. Company Overview
5.2.8.2. Technology / Service Portfolio
5.2.8.3. Recent Developments and Future Outlooks
5.2.9. Synbio Technologies
5.2.9.1. Company Overview
5.2.9.2. Technology / Service Portfolio
5.2.9.3. Recent Developments and Future Outlooks

6. COMPANY COMPETITIVENESS ANALYSIS
6.1. Chapter Overview
6.2. Methodology
6.3. Key Parameters
6.4. Company Competitiveness Analysis: DNA Data Storage Technology / Service Providers
6.4.1. Company Competitiveness Analysis: Large Companies
6.4.2. Company Competitiveness Analysis: Mid-sized Companies
6.4.3. Company Competitiveness Analysis: Small Companies

7. ACADEMIC GRANTS ANALYSIS
7.1. Chapter Overview
7.2. Scope and Methodology
7.3. DNA Data Storage: Analysis of Academic Grants
7.3.1. Analysis by Year of Grant Award
7.3.2. Analysis by Amount Awarded
7.3.3. Analysis by Administering Institute Center
7.3.4. Analysis by Support Period
7.3.5. Analysis by Administering Institute Center and Support Period
7.3.6. Analysis by Type of Grant Application
7.3.7. Analysis by Purpose of Grant Award
7.3.8. Analysis by Activity Code
7.3.9. Analysis by Study Section Involved
7.3.10. Analysis by Type of Recipient Organization
7.3.11. Word Cloud Analysis: Emerging Focus Areas
7.3.12. Geographical Distribution of Recipient Organization
7.3.13. Popular NIH Departments: Analysis by Number of Grants
7.3.14. Prominent Program Officers: Analysis by Number of Grants
7.3.15. Popular Recipient Organization: Analysis by Number of Grants

8. PATENT ANALYSIS
8.1. Chapter Overview
8.2 Scope and Methodology
8.3. DNA Data Storage Technology/ Service Providers: Patent Analysis
8.3.1. Analysis by Publication Year
8.3.2. Analysis by Geographical Location
8.3.3. Analysis by CPC Symbols
8.3.4. Word Cloud Analysis: Emerging Focus Areas
8.3.5. Analysis by Type of Organization
8.3.6. Leading Patent Assignees: Analysis by Number of Patents
8.3.7. Leading Players: Analysis by Number of Patents
8.4. DNA Data Storage: Patent Benchmarking Analysis
8.4.1. Analysis by Patent Characteristics
8.5. DNA Data Storage: Patent Valuation Analysis

9. PARTNERSHIPS AND COLLABORATIONS
9.1. Chapter Overview
9.2. Partnership Models
9.3. DNA Data Storage Technology/ Service Providers: List of Partnerships and Collaborations
9.3.1. Analysis by Year of Partnership
9.3.2. Analysis by Type of Partnership
9.3.3. Analysis by Type of Partnership and DNA Data Storage Steps
9.3.4. Analysis by Year of Partnership and Type of Partner
9.3.5. Analysis by Type of Partnership and Type of Partner
9.3.6. Most Active Players: Analysis by Number of Partnerships
9.3.7. Regional Analysis
9.3.7.1. Intercontinental and Intracontinental Agreements

10. FUNDING AND INVESTMENT ANALYSIS
10.1. Chapter Overview
10.2. Types of Funding
10.3. DNA Data Storage Technology/ Service Providers: Funding and Investment Analysis
10.3.1. Analysis by Year of Investment
10.3.2. Analysis by Amount Invested
10.3.3. Analysis by Type of Funding
10.3.4. Most Active Players: Analysis by Amount Invested
10.3.5. Most Active Investors: Analysis by Number of Funding Instances
13.3.6. Regional Analysis by Amount Invested
10.4. Concluding Remarks

11. MARKET FORECAST
11.1. Chapter Overview
11.2. Forecast Methodology and Key Assumptions
11.3. Global DNA Data Storage Market, 2021-2035
11.4. Global DNA Data Storage Market, 2021-2035: Distribution by Steps Involved in DNA Data Storage
11.4.1. Global DNA Data Storage Market for Coding and DNA Writing (DNA Synthesis), 2021-2035
11.4.2. Global DNA Data Storage Market for DNA Storage, 2021-2035
11.4.3. Global DNA Data Storage Market for Retrieval and DNA Reading (DNA Sequencing), 2021-2035
11.5. Global DNA Data Storage Market, 2021-2035: Distribution by Geography
11.5.1. DNA Data Storage Market in North America, 2021-2035
11.5.2. DNA Data Storage Market in Europe, 2021-2035
11.5.3. DNA Data Storage Market in Asia- Pacific, 2021-2035
11.5.4. DNA Data Storage Market in Middle East, 2021-2035
11.5.5. DNA Data Storage Market in Latin America, 2021-2035

12. CONCLUDING REMARKS
12.1. Chapter Overview

13. EXECUTIVE INSIGHTS
13.1. Chapter Overview
13.2. Kilobaser
13.2.1. Company Snapshot
13.2.2. Interview Transcript: Sabine Sykora, Application Scientist and Business Developer

14. APPENDIX 1: TABULATED DATA15. APPENDIX 2: LIST OF COMPANIES AND ORGANIZATIONS

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • 1087 Systems
  • 3W Partners
  • Agilent Technologies
  • Airbus Ventures
  • Alexandria Venture Investments
  • Allen & Company
  • AME Cloud Ventures
  • Analog Devices
  • Ansa Biotechnologies
  • ARCH Venture Partners
  • Argonautic Ventures
  • ATEM Capital
  • ATUM
  • Avantor
  • baseclick
  • Bay City Capital GF Xinde International Life Sciences USD Fund
  • BioBricks Foundation
  • Biomatics Capital Partners
  • BlueBee
  • BroadOak Capital Partners
  • California Institute of Technology
  • Cambridge Consultants
  • Casdin Capital
  • Catalog
  • Cavindish Impact Capital
  • CCB International
  • Civilization Ventures
  • Codex DNA
  • Codexis
  • Concours d’Innovation program of Bpifrance
  • Cormorant Asset Management
  • Cowen
  • D3 DNA data disk
  • Danaher
  • Day One Ventures
  • DCVC
  • Ditch Plains Capital Management
  • DNA Script
  • Draper Esprit
  • Duke University
  • Durham University
  • Dynamic Combinatorial Chemistry (DCC)
  • E Ink 
  • Eleven Two Capital
  • Enancio
  • EIC
  • Evercore
  • Evonetix 
  • Fidelity Management & Research
  • Fifty Years
  • Firebird Biomolecular Sciences
  • FIS
  • Foresite Capital
  • Gattaca Technologies
  • GE Healthcare
  • General Electric
  • Genetics Research
  • Genomics Investment Syndicate
  • GenScript
  • GenVault
  • Goldman Sachs 
  • Government of Singapore Investment  (GIC)
  • Green Bay Ventures
  • GSL Biotech
  • GT Healthcare Capital Partners
  • Harvard College
  • Helixworks
  • Horizons Ventures
  • Hostplus
  • Humboldt Fund
  • Idinvest Partners
  • Illumina
  • Imagene
  • Imec
  • IndieBio
  • Industry Ventures
  • Innovate UK
  • International Holding Company
  • IP Group
  • Iridia
  • iSelect Fund
  • Jefferies 
  • J.P. Morgan 
  • JSR
  • Kangmei Pharmaceuticals
  • Kern Systems
  • Keshif Ventures
  • KeyBanc Capital Markets 
  • Kilobaser
  • Kurma Partners
  • LifeSci Venture Partners
  • LINE
  • LioniIX International
  • Longley Capital
  • LYFE Capital
  • M&G Investments
  • Massachusetts Institute of Technology
  • Merck
  • Mérieux Développement
  • Microsoft
  • Molecular Assemblies 
  • Morgan Stanley
  • Morningside Group
  • Mubadala
  • New Enterprise Associates
  • Newport Holdings
  • NFT Investments
  • Nikon
  • North Sound Capital
  • Northpond Ventures
  • Nuclera
  • OS Fund
  • Oxford Finance
  • Oxford Nanopore
  • PacBIo
  • Paladin Capital Group
  • Pritzker Vlock Family Office (PVFO)
  • Providence Investments
  • Quantum
  • Railpen Investments
  • Reinet Investments
  • Rising Tide 
  • Baird
  • Roswell Biotechnologies
  • RT Puhua Genomics Investments
  • Silicon Valley Bank
  • Sofinnova Partners
  • SOSV
  • Synbio Technologies
  • Tech Coast Angels
  • Temasek Holdings
  • TeselaGen
  • Bpifrance
  • The Aide au développement de l’innovation
  • Thermo Fisher Scientific
  • Thomson Licensing
  • TSVC (formerly TEEC Angel Fund) 
  • Twist Bioscience
  • University of Arkansas
  • University of California
  • University of Florida
  • University of North Carolina at Chapel Hill
  • University of Pennsylvania
  • University of Tianjin
  • University of Washington
  • VALIDUS
  • Vanderbilt University Medical Center
  • Western Digital
  • Woodford Investment Management
  • WuXi Healthcare Ventures
  • Y Combinator

Methodology

 

 

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