Global Synthetic Biology Market 2025 – 2034

Reports Description

Global Synthetic Biology Market size is calculated at USD 28.23 Billion in 2025 and is expected to reach around USD 150.93 Billion by 2034, growing at a CAGR of 25% over the forecast period 2025 – 2034.

Gene Synthetic Biology Market: Overview

Technological advancements and the increasing demand for sustainable solutions are expected to drive substantial growth in the synthetic biology market in the years ahead. The rapid advancement of synthetic gene synthesis and Cas9 and CRISPR gene editing technologies facilitates synthetic biology’s cost-effectiveness and feasibility.

Additionally, environmental concerns and the increasing demand for sustainability are contributing to the growing interest in synthetic biology to create sustainable and ecological solutions, such as biodegradable materials, biofuels, and green compounds.

Nevertheless, ethical and regulatory concerns have a detrimental effect on the market. Ethical concerns and stringent regulations concerning environmental impact, genetic modifications, and biosafety may impede commercialization and research endeavors.

However, the advancement of personalized medicines and advanced therapies presents a significant opportunity to revolutionize healthcare and address previously recognized intractable illnesses.

The application of engineering principles to biology is the primary objective of synthetic biology, a scientific discipline. It is an interdisciplinary field encompassing various methodologies from various disciplines, such as systems biology, chemical and biological engineering, biomaterials, electrical and computer engineering, and evolutionary biology. Synthetic biology entails the modification of microorganisms to serve practical purposes.

Synthetic biology’s primary objectives include identifying and cataloging standardized genomic components to construct innovative biological systems and the expansion of the repertoire of natural proteins to facilitate novel processes.

Synthetic biology aims to develop and construct straightforward genomes for natural microorganisms. A diverse array of synthetic biology applications exists. It is employed in developing novel diagnostics and therapeutics through the use of NGS and antibody discovery. Additionally, it is employed in microbial engineering to improve crop yields, remediate soil, and decontaminate effluent.

Additionally, synthetic biology is making substantial progress in selecting wheat phenotypes that improve tolerance to environmental stresses and increase yield. The increasing demand for renewable energy sources is one of the primary factors propelling the synthetic biology market sales.

Gene Synthetic Biology Market: Growth Factors

• Increasing investments: The field of synthetic biology has experienced a significant amount of investment in recent years, which is a sign of the significant influence that this discipline is anticipated to have on the world.

• DNA sequencing technologies: Synthetic biology is now feasible due to substantial advancements in DNA sequencing and synthesis technology and insights extracted from systems biology. Synthetic biology has applications in healthcare, such as developing novel pharmaceuticals and improved illness diagnostics. A critical aspect of the development of novel drugs is the development of medications that have fewer adverse effects.

• Environmental improvement: It examines innovative methods to reduce pollution, ensure the sustainability of chemical synthesis industrial processes, and eliminate the necessity for harmful agricultural methods by developing superior fertilizers. Synthetic biology has the potential to revolutionize the way of life and aid in preserving the planet’s future.

Gene Synthetic Biology Market: Restrictions

High Initial Cost and Technical Complexity

The scalability and accessibility of synthetic biology technologies are significantly impacted or impeded by the high initial costs required for their development. Complexities in the engineering, design, and integration of these systems could pose significant obstacles, potentially compromising the reliability and efficacy of these technologies.

Lack of Standardization

The absence of standardized techniques and protocols in synthetic biology may lead to intricacies and inconsistencies in the replication and validation of the results. Additionally, regulatory and scrutiny challenges may arise due to concerns regarding potential unintended consequences, such as biosafety hazards or ecological impacts of synthetic organisms.

Gene Synthetic Biology Market: Drivers

The emergence of novel therapies, diagnostics, and vaccines is being enhanced by synthetic biology, which significantly impacts the burgeoning use of these products in the pharmaceutical and healthcare sectors. Additionally, the technology above is employed to create genetically designed crops that are more resistant to pests and diseases, thereby enhancing the productivity of agriculture and ensuring food security. The synthetic biology market is experiencing remarkable growth due to these factors.

Increasing Biotech R&D and Rising Investments

Significant public and private investments have significantly facilitated the commercialization, research, and development of synthetic biology technologies. Furthermore, the synthetic biology market is experiencing development due to the expanding range of synthetic organisms and customized medicine for research purposes.

Gene Synthetic Biology Market: Recent Development

• Sherlock Biosciences announced the acquisition of Sense Biodetection in February 2023. This acquisition expedites the introduction of Sherlock’s products to the market by incorporating Sense’s Veros™ manufacturing capabilities and instrument-free rapid molecular test platform. This enables the vision of affordable and accurate diagnostics to be utilized at any time and in any location.

• Ginkgo Bioworks and Sojitz Corporation announced their partnership in May 2024, intending to foster connections with significant Japanese organizations and promote the use of synthetic biology to establish ecological production processes.

• Codexis enhanced an enzymatic RNA synthesis tool in September 2023 to reduce the sustainability, scalability, and economic concerns associated with conventional phosphoramidite-enabled chemical RNA synthesis.

Gene Synthetic Biology Market: Segmentation Analysis

By Tool

Due to its foundational role and technological advancements, the oligonucleotides and synthetic DNA segment maintains the majority market share. Synthetic DNA and oligonucleotides are the fundamental building elements of synthetic biology.

They serve as the foundation for various applications, including the synthesis of genes, the development of synthetic genomes, and genetic engineering. Furthermore, the costs of synthetic DNA production have been significantly reduced, and its production’s accuracy and speed have significantly increased following the development of DNA synthesis technologies.

These factors facilitate the segment’s expansion. In contrast, the enzymes segment is expected to experience the most rapid growth among the others due to its critical function in biotechnology. Broader applications like protein engineering, DNA manipulation, and biosynthesis depend highly on enzymes. They are essential biological catalysts that power the majority of biochemical processes. Due to these factors, the enzyme segment is expected to experience substantial growth in the years ahead.

By Technology

The gene synthesis segment has maintained a majority market share in recent years. It will continue to do so during the forecast period due to the increasing demand for customized genes based on technology. In recent years, there has been a rise in the demand for personalized DNA sequences to facilitate the development of therapeutics, research, and diagnostics.

Gene synthesis provides the precise and appropriately customized gene constructs necessary for these applications. Consequently, the substantial increase in demand for gene synthesis has significantly influenced the overall market growth in recent years. Nevertheless, the genome engineering segment is anticipated to experience rapid growth due to its broad range of applications.

The agricultural industry and medicine are among the numerous applications of genome engineering. It enables the development of gene therapies, personalized medication, enhanced crop varieties, and GMOs, among other things, thereby influencing segmental growth.

Report Scope

Gene Synthetic Biology Market: Regional Analysis

The synthetic biology market is the most prominent in North America due to various factors, including a robust research and development architecture. The United States and Canada are the primary countries with a robust infrastructure for research and development. This is a collection of world-class universities, research institutes, and biotech companies responsible for developing synthetic biology.

Furthermore, the region’s research and technological development is greatly facilitated by substantial investments and increasing funding in synthetic biology and biotechnology from both the public and private sectors. Thermo Fisher Scientific, Agilent Technologies, Ginkgo Bioworks, and Amyris, Inc. are among the most prominent vendors in North America.

The Asia-Pacific region is experiencing rapid development due to the rapid expansion of R&D capabilities and economic growth. At present, Asia-Pacific is making significant investments in enhancing its research capabilities and expanding its research and development competencies.

Modern laboratories and research capabilities are being developed by nations such as South Korea, Japan, and China, contributing to synthetic biology advancements. Additionally, the market is expanding due to government initiatives and funding. The government supports market growth through subsidies, funding programs, and other initiatives. The market in the region is experiencing substantial growth due to these factors.

Gene Synthetic Biology Market: Recent Development

• Sherlock Biosciences announced the acquisition of Sense Biodetection in February 2023. This acquisition expedites the introduction of Sherlock’s products to the market by incorporating Sense’s Veros™ manufacturing capabilities and instrument-free rapid molecular test platform. This enables the vision of affordable and accurate diagnostics to be utilized at any time and in any location.

• Ginkgo Bioworks and Sojitz Corporation announced their partnership in May 2024 to foster connections with significant Japanese organizations and promote the use of synthetic biology to establish ecological production processes.

• Codexis enhanced an enzymatic RNA synthesis tool in September 2023 to reduce the sustainability, scalability, and economic concerns associated with conventional phosphoramidite-enabled chemical RNA synthesis.

List of the prominent players in the Synthetic Biology Market:

• Genentech Inc. (U.S.)
• Sorenson Genomics LLC (U.S.)
• Abbott Molecular (U.S.)
• Bayer Diagnostics (U.S.)
• Genomic Health (U.S.)
• Thermo Fisher Scientific Inc. (US)
• Merck KGaA (Germany)
• Agilent Technologies (US)
• Novozymes (Denmark)
• Ginkgo Bioworks (US)
• Amyris (US)
• Precigen Inc. (US)
• GenScript (China)
• Twist Bioscience (US)
• Synthetic Genomics (US)
• Codexis Inc. (US)
• Synthego (US)
• Creative Enzymes (US)
• Eurofins Scientific (Luxembourg)
• Bota Biosciences Inc. (China)
• Creative Biogene (US)
• Enbiotix Inc. (US)
• Illumina Inc. (US)
• New England Biolabs (US)
• Pareto Bio Inc. (US)
• Others

The Synthetic Biology Market is segmented as follows:

By Tool

• Oligonucleotides and Synthetic DNA
• Enzymes
• Cloning Technologies Kits
• Synthetic Cells
• Chassis Organisms
• Xeno-Nucleic Acids

By Application

• Medical Application
• Pharmaceuticals
• Drug Discovery and Therapeutics
• Artificial Tissue and Tissue Regeneration
• Industrial Applications
• Food & Agriculture
• Environmental Applications

By Technology

• Gene Synthesis
• Genome Engineering
• Sequencing
• Bioinformatics
• Site-directed Mutagenesis
• Cloning
• Measurement and Modelling
• Microfluidics
• Nanotechnology

Regional Coverage:

North America

• U.S.
• Canada
• Mexico
• Rest of North America

Europe

• Germany
• France
• U.K.
• Russia
• Italy
• Spain
• Netherlands
• Rest of Europe

Asia Pacific

• China
• Japan
• India
• New Zealand
• Australia
• South Korea
• Taiwan
• Rest of Asia Pacific

The Middle East & Africa

• Saudi Arabia
• UAE
• Egypt
• Kuwait
• South Africa
• Rest of the Middle East & Africa

Latin America

• Brazil
• Argentina
• Rest of Latin America