Protein Design and Engineering Market to Reach USD 14.69 Billion with a CAGR of 13.39% from 2024 to 2031

Global “Protein Design and Engineering Market” in terms of revenue was estimated to be worth $5.47 Bn in 2023 and is poised to reach $14.69 Bn by 2031, growing at a CAGR of 13.39% from 2024 to 2031 according to a new report by InsightAce Analytic.

Market Analysis:

The high demand for tailored medications, technological improvements, and the growing incidence of infectious, chronic, and protein-deficient disorders are some of the drivers propelling the global market for protein design and engineering. Moreover, the expansion of the global industry can also be attributed to the government’s increased support for protein engineering R&D, the availability of reliable healthcare infrastructures, and advancements in bioinformatics databases and tools.

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Latest Drivers Restraint and Opportunities Market Snapshot:

Key Factors Influencing The Protein Design And Engineering Market Are:

• Increased frequency of protein-deficient illnesses
• Increased use of protein medicines over non-protein medications
• Increased utilization of personalized medication

The Following Are The Primary Obstacles To The Protein Design And Engineering Market’s Expansion:

• Rising expense to produce therapeutic proteins
• Lack of qualified personnel
• Process of creating, producing, and testing proteins with specific properties is complex

Future Expansion Opportunities For The Protein Design And Engineering Market Include:

• Increasing R&D activities in the pharmaceutical industry
• Increased funding opportunities for protein design and engineering
• Advancement in synthetic biology and gene editing

Key Industry Insights & Findings from the Report:

• The protein design and engineering market is expanding mainly because of factors like rapid technological breakthroughs, increased government initiatives, and financing for the development of protein designing systems, and these factors.
• The market is anticipated to increase due to the high prevalence of protein-deficient disorders and the biopharmaceutical businesses’ increasing demand for protein design and engineering technologies.
• North America dominated the market and accounted for a global revenue share in 2023.
• The increasing need for cutting-edge medication and therapy treatments to treat chronic illnesses is expected to propel cancer research institutes to a large market share in the upcoming years.

List of Prominent Players in the Protein Design and Engineering Market:

• ATUM (US)
• Creative BioMart (US)
• Creative Biostructure (US)
• Creative Enzymes (US)
• Absolute Antibody (UK)
• EUCODIS Bioscience (Austria)
• Fusion Antibodies (UK)
• Innovagen (Sweden)
• ZYMVOL (Spain)
• Averring Biotech
• EnzymeWorks (China)
• GeNext Genomics (India)
• Quantumzyme (India)
• Other Prominent Players

Recent Developments:

• July 2022: Amgen and Generate Biomedicines worked together to identify and create protein treatments across a range of therapeutic regions and methods for five clinical targets. Under the terms of the deal, Amgen will pay USD 50 million upfront for the first five trials, with future royalties potentially worth over USD 1.9 billion. The organization was able to provide a competitive edge in the industry owing to this strategic endeavor.

• August 2021: The Leap-In Transposase platform, an inventive transposon-based tool for genome engineering developed by ATUM (US), is now more comprehensive due to patents 11,060,098, 11,060,109, and 11,060,086 that the USPTO has issued. ATUM (US) is a leader in bioengineering solutions.

• January 2021: Leading the way in generative protein design technologies, Biomatter Designs (Lithuania) obtained €500k in seed funding led by Practica Capital to further the company’s protein design technology and product pipeline.

Protein Design and Engineering Market Dynamics:

Market Drivers: Advancements in Genetic Engineering Techniques

The global protein design and engineering market has advanced due in large part to advancements in genetic engineering techniques. Scientists now have amazing tools at their disposal for designing and producing novel proteins with enhanced features and capabilities thanks to directed evolution and recombinant DNA technologies.

Consider the creation of insulin analogs, such as insulin glargine. Because of the extended duration of action of insulin glargine, insulin can be released steadily and continuously over time. This was achieved by employing recombinant DNA technology to change the amino acid sequence of human insulin, which led to a prolonged therapeutic effect and a slower rate of absorption.

Challenges: Lack of Skilled Personnel

Protein design and engineering are extremely difficult topics that require a high level of skill to achieve the intended outcomes. Protein engineering procedures require accurate result interpretation, and researchers also need to be able to evaluate experimental findings and compare them to the hypothesis of the experiment. Furthermore, the proteins generated via engineering have particular uses, including vaccine development, gene therapy, medication administration, antibody engineering, and enzyme modification. The complex sequences of DNA and amino acids must be changed in order to create proteins that perform the desired function. As a result, there is a great need in this industry for highly skilled workers and researchers. Nonetheless, the protein design and engineering market’s expansion is hampered by the absence of such knowledge.

North America is Expected to Grow with the Highest CAGR During the Forecast Period

In North America, the protein design and engineering market is likely to register a significant revenue share and develop at a rapid CAGR over the forecast period because chronic disease rates are rising and protein-containing medications are being used more often than non-protein-containing ones.

The use of monoclonal bodies in the treatment of diseases has expanded dramatically as a result of the rising cases of chronic illnesses like cancer and other autoimmune diseases. Additionally, the region’s top market competitors are concentrated on developing protein-engineered pharmaceuticals and vaccines, launching new products, and expanding the number of product approvals. These efforts are offering better treatment options, which is anticipated to increase market demand.

Segmentation of Protein Design and Engineering Market-

By Type of Protein Engineering Approach Used,

• Rational Designing
• Directed Evolution
• Semi-Rational Designing

By Protein Types

• Antibodies
• Peptides
• Enzymes
• Vaccines
• Others

By Type of Application

• Therapeutics
• Diagnostics

By End-Users

• Pharma / Biotech Firms
• CROs and Research
• Academic Institutes

By Region-

North America-

• The US
• Canada
• Mexico

Europe-

• Germany
• The UK
• France
• Italy
• Spain
• Rest of Europe

Asia-Pacific-

• China
• Japan
• India
• South Korea
• Southeast Asia
• Rest of Asia Pacific

Latin America-

• Brazil
• Argentina
• Rest of Latin America

Middle East & Africa-

• GCC Countries
• South Africa
• Rest of Middle East and Africa

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