Global Single-cell Sequencing Services and Technologies Market Report 2020-2030 Featuring Patent Analysis and Profiles of Service Providers & Technology Providers

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Dec 30, 2020, 10:45 ET

DUBLIN, Dec. 30, 2020 /PRNewswire/ -- The "Single-cell Sequencing Services and Technologies Market, 2020-2030" report has been added to ResearchAndMarkets.com's offering.

The 'Single-cell Sequencing Services and Technologies Market, 2020-2030' report features an extensive study of the current landscape and the future opportunities associated with single-cell sequencing services/technologies.

One of the key objectives of the report was to understand the primary growth drivers and estimate the future opportunity within the market. Based on several parameters, such as number of single-cell samples sequenced annually, average cost of sequencing, and growth trends across various geographies, we have provided an informed estimate of the likely evolution of the market, in the mid to long term, for the period 2020-2030.

Single-cell sequencing techniques offer many advantages over traditional genomic analyses, enabling the detection of complex and rare cell populations, and elucidating development trajectories of distinct cell lineages. Despite the potential to be used across diverse segments in biotechnology and medical research, this technique is still limited to early-stage research activities. This is primarily attributed to certain challenges associated with data processing and quality control. Further, the lack of versatile in silico tools is also considered among the major roadblocks to meaningful analysis and interpretation of single cell sequencing data.

Additionally, the high cost of process execution and affiliated labor intensive protocols are other barriers to the adoption of since-cell sequencing technology. However, the introduction of the RNA-QC-Chain tool in 2018 (an effort to address the data processing and quality control related challenges) and the Human Cell Atlas project (responsible for developing the first whole transcriptome map of human cells), are considered prominent milestones in the field of single cell genomics. Presently, experts believe that the single-cell genomics market in North America, may reach USD 5 billion by 2025.

Given, the potential of single-cell RNA sequencing (scRNA-seq) technologies to probe into previously unelucidated cellular mechanisms, and identify novel biomarkers/therapeutic targets, they are likely to witness significant adoption in biomedical research over the next decade.

Key Questions Answered

Who are the leading single-cell sequencing service and technology providers?
What are the recent developments in the single-cell sequencing domain?
Which organizations have filed the maximum number of patents in this field?
Which institutions have received the maximum grant funding?
What factors are likely to influence the evolution of this upcoming market?
How is the current and future opportunity likely to be distributed across key market segments?

Key Topics Covered:

1. Preface

2. Executive Summary

3. Introduction

4. Market Landscape: Single-Cell Sequencing Service Providers

5. Market Landscape: Single-Cell Sequencing Technology Providers

6. Single-Cell Sequencing Technologies: Competitiveness Analysis

7. Company Profiles: Single-Cell Sequencing Service Providers

8. Company Profiles: Single Cell Sequencing Technology Providers

9. Patent Analysis

10. Academic Grant Analysis

11. Recent Developments: Single-Cell Sequencing Market

12. Market Sizing And Opportunity Analysis

13. Conclusion

14. Executive Insights

Companies Mentioned

10x Genomics
1CellBio
Active Motif
Admera Health
Aelian Biotechnology
Agency for Science Technology and Research
Agilent Technologies
Albert Einstein College of Medicine
Annoroad Gene Technology
Australian Genome Research Facility
Becton Dickinson
BGI Genomics
Bigelow Single Cell Genomics Centre
Bioinformatics and Expression Analysis Core Facility (Karolinska Institutet)
BioLegend
Immudex
Biomedical Research Core Facilities (University of Michigan Medical School)
Biopolymers Facility (Harvard Medical School)
Bio-Rad Laboratories
Biotech Research and Innovation Centre (University of Copenhagen)
Biotechnology Center (University of Wisconsin-Madison)
Broad Institute
Bucher Biotec
California Institute of Technology
Cancer Genomics Center (University of Texas)
Cancer Research UK Cambridge Institute (University of Cambridge)
CARTANA
CD Genomics
Cedars-Sinai Genomics Core
Cell Biologics
Cell Microsystems
Cellarity
CellChorus
Celldom
CellTool
Cellular Research
Celsee
Celsius Therapeutics
Center for Gastrointestinal Biology and Disease (University of North Carolina School of Medicine)
Center for Genetic Medicine (Northwestern University)
Center for Translational Genomics (Lund University)
Centre for Genome-Enabled Biology and Medicine (University of Aberdeen)
Centre for Health Genomics and Informatics (University of Calgary)
Centro Nacional de Analisis Genomico
Clearbridge BioMedics
Cleveland Clinic
Cold Spring Harbor Laboratory
Columbia Genome Center (Columbia University)
Core Facility Genomics (Amsterdam UMC)
Core Immunology Lab (University of California)
Covance
Cytena
Cytomos
Cytosurge
DNA Core Facility (University of Missouri)
DNA Technologies Core (University of California Davis)
Dolomite Bio
Droplet Genomics
Duke Molecular Physiology Institute
Earlham Institute
Eldan
Enigma Life Sciences
Epigenomics and DNA Sequencing Core Facility (NIH)
Epinomics
Exosomeplus
FlowJo
Fluidigm
Fulgent Genetics
Functional Genomics Center Zurich (University of Zurich)
GenapSys
Genentech
Genetic Resources Core Facility (Johns Hopkins University)
GENEWIZ
Genome Quebec
Genome Sequencing Service Center (Stanford University)
Genome Technology Access Center (Washington University)
GenomeScan
Genomics Core Facility (European Molecular Biology Laboratory)
Genomics Core Facility (Lewis-Sigler Institute for Integrative Genomics)
Genomics Facility (University of Chicago)
Genuity Science
Gladstone Genomics Core
Hangzhou Chengyuan Genomics
Harvard College
Harvard University
Huntsman Cancer Institute (University of Utah)
Illumina
Imperial BRC Genomics Facility (Imperial College London)
Imperial Life Sciences
InCellDx
Indiana University School of Medicine (Indiana University)
Institute for Genome Sciences (University of Maryland School of Medicine)
Institute for Molecular Bioscience (University of Queensland)
Intermountain Healthcare
Iowa Institute of Human Genetics (University of Iowa)
IsoPlexis
Johnson & Johnson
Katholieke Universiteit Leuven
Kinghorn Medical Center (Garvan-Weizmann Medical Center)
LC Sciences
LMU University Hospital
LumaCyte
Massachusetts General Hospital
Massachusetts Institute of Technology
University of Texas MD Anderson Cancer Center
MedGenome
MGI
MilliporeSigma
Minos Biosciences
Mission Bio
Monash Health Translation Product Medical Genomics Facility
NanoString Technologies
Nashville Biosciences
Natera
NeuroInDx
nference
Novogene
Nucleome Informatics
NXTGNT (Ghent University)
OICR Genomics and Bioinformatics
Onconova Therapeutics
Ottawa Hospital Research Institute
Oxford Genetics (University of Edinburgh)
Oxford Genomics Centre (University of Oxford)
Oxford Nanopore Technologies
Pacific Biosciences
Partek
Peak Analysis and Automation
Perelman School of Medicine (University of Pennsylvania)
PerkinElmer
Petri
Pittsburgh Liver Research Centre (University of Pittsburgh)
Princess Margaret Genomics Centre
Proteona
Psomagen
QB3 Genomics (University of California, Berkeley)
QIAGEN
Quick Biology
Ramaciotti Centre for Genomics
ReadCoor
Rockefeller University
RootPath
S2 Genomics
Saban Research Institute
Salk Institute of Biological Sciences
Sanford Burnham Prebys Medical Discovery Institute
Scailyte
SciLifeLab
Scipio Bioscience
Semel Institute for Neuroscience and Behavior (University of California)
SeqLL
SeqMatic
Sequencing Core Facility (Max Planck Institute for Molecular Genetics)
seqWell
Singleron Biotechnologies
Single Cell Analysis Facility (NCI Frederick Accessioning)
Single Cell Discoveries
Single Cell Genomics Core (Baylor College of Medicine)
Single Cell Genomics Core (Brigham and Women's Hospital)
Single Cell Sequencing Core - Department of Medicine (Boston University)
Singlera Genomics
SingulOmics
Spanish National Center for Cardiovascular Research
Spatial Transcriptomics
Sphere Fluidics
Split Bioscience
St. Jude Children's Research Hospital
Stanford University
Sylvester Comprehensive Cancer Center (University of Miami)
Takara Bio
Technology Center for Genetics and Bioinformatics (University of California)
Turku Bioscience (University of Turku)
University of Auckland
University of Buffalo Genomics and Bioinformatics Core
University of California
University of Helsinki
University of Kansas Medical Center
University of Oxford
University of Texas
UT Southwestern Medical Center (University of Texas)
Vanderbilt Technologies for Advanced Genomics
VIB Nucleomics Core (VIB)
VyCAP
WaferGen Bio-systems
Wellcome Sanger Institute
Wexner Medical Center (Ohio State University)
Wistar Institute
X Gen
Yale Center for Genome Analysis (Yale School of Medicine)
Yerkes National Primate Research Center (Emory University)
Zephyrus Biosciences
Zomedica Pharmaceuticals

For more information about this report visit https://www.researchandmarkets.com/r/98mzhp

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