Automated DNA Synthesizers: Introduction
- DNA synthesizers are systems used to build DNA molecules containing a particular sequence of nucleotides. Synthesizers can create specific DNA molecules for use in the treatment of various diseases by replacing a faulty or damaged section of DNA with a repaired section.
- During DNA synthesis, the DNA strands are copied in a cell before cell division or replication. DNA synthesizer uses one strand as a blue print to build DNA molecules. Subsequently, it uses DNA protein synthesis to repair any discrepancies in the strand.
- DNA synthesizer is primarily utilized to analyze DNA samples that are found at a crime scene in order to provide DNA fingerprint of the suspect. These systems can be programmed to handle batch analysis.
Key Drivers and Restraints of Global Automated DNA Synthesizers Market
- The global automated DNA synthesizers market is primarily driven by a rise in the demand for efficient synthesizers in life science laboratories, expansion of life sciences, and increase in importance of DNA synthesis in molecular biology & synthetic biology
- Rise in number of research & development programs for development of new drugs and number prominent players focusing on new product innovations & product portfolio expansion is projected to further boost the global market during the forecast period
- Exponential increase in number of pharmaceutical & life science companies focusing on research studies, rise in their R&D expenditures, and an increase in the demand for new therapeutic options for rare disease conditions are expected to also boost the global market in next few years
Synthetic Biology Segment to Gain Market Share of Global Automated DNA Synthesizers Market
- In terms of application, the global automated DNA synthesizers market can be classified into molecular biology, synthetic biology, forensics, medicine, and others
- The synthetic biology segment is anticipated to dominate the global market during the forecast period, due to significant changes in synthetic biology, advancements in engineering biology, and discovery of new therapeutic methods. DNA synthesis is used in several applications in synthesis biology, right from metabolic pathways to synthetic genomes.
North America to Dominate Global Automated DNA Synthesizers Market
- In terms of region, the global automated DNA synthesizers market can be segmented into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. North America is expected to dominate the global automated DNA synthesizers market, followed by Europe. The market in North America is projected to be driven by exponential increase in funding received by startup companies, DNA synthesis gaining importance in synthetic biology, and technological advancements in DNA synthesis.
Key Players Operating in Global Automated DNA Synthesizers Market
The global automated DNA synthesizers market is highly fragmented, with a large number of domestic players accounting for major market share. Key players operating in the global automated DNA synthesizers market are:
- Danaher (Beckman Coulter)
- General Electric
- Protein Technologies
- BioAutomation Corporation
- Thermo Fisher Scientific, Inc.
- Tekna Plasma Systems
- Preceision System Science
- CSBio
- Briefcase Biotech
- Polygen GmbH
- Genscript Biotech
Global Automated DNA Synthesizers Market: Research Scope
Global Automated DNA Synthesizers Market, by Product Type
- 10-Column DNA Synthesizer
- 12-Column DNA Synthesizer
- 96-Column DNA Synthesizer
- Others
Global Automated DNA Synthesizers Market, by Application
- Medicine
- Synthetic Biology
- Molecular Biology
- Forensics
- Others
Global Automated DNA Synthesizers Market, by Region
- North America
- Europe
- Germany
- France
- U.K.
- Italy
- Spain
- Rest of Europe
- Asia Pacific
- China
- Japan
- India
- Australia & New Zealand
- Rest of Asia Pacific
- Latin America
- Brazil
- Mexico
- Rest of Latin America
- Middle East & Africa
- GCC Countries
- South Africa
- Rest of Middle East & Africa
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