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For the Inventor, By the Inventor

Belmont, MA, United States of America

Sonia Kosow Guterman

USPTO Granted Patents = 12

Average Co-Inventor Count = 5.5

ph-index = 12

Forward Citations = 4,955(Granted Patents)


Company Filing History:

goldMedal7 out of 173 
 
Dyax Corporation
 patents
silverMedal5 out of 5 
 
Protein Engineering Corporation
 patents

Years Active: 1992-2011

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12 patents (USPTO):Explore Patents
1. 7893007 - Directed evolution of novel binding proteins (2011-02-22),
2. 7413537 - Directed evolution of disulfide-bonded micro-proteins (2008-08-19),
3. 7208293 - Directed evolution of novel binding proteins (2007-04-24),
4. 7118879 - Method of recovering a nucleic acid encoding a proteinaceous binding domain which binds a target material (2006-10-10),
5. 7078383 - ITI-D1 Kunitz domain mutants as HNE inhibitors (2006-07-18),
6. 6979538 - Directed evolution of novel binding proteins (2005-12-27),
7. 5663143 - Engineered human-derived kunitz domains that inhibit human neutrophil (1997-09-02),
8. 5571698 - Directed evolution of novel binding proteins (1996-11-05),
9. 5403484 - Viruses expressing chimeric binding proteins (1995-04-04),
10. 5223409 - Directed evolution of novel binding proteins (1993-06-29),
11. 5198346 - Generation and selection of novel DNA-binding proteins and polypeptides (1993-03-30),
12. 5096815 - Generation and selection of novel DNA-binding proteins and polypeptides (1992-03-17),

Title: The Innovative Contributions of Sonia Kosow Guterman

Introduction

Sonia Kosow Guterman is a prominent inventor based in Belmont, MA (US). She has made significant contributions to the field of biotechnology, particularly in the development of novel binding proteins and micro-proteins. With a total of 12 patents to her name, her work has had a substantial impact on protein engineering and molecular biology.

Latest Patents

Among her latest patents is the invention titled "Directed evolution of novel binding proteins." This innovative process involves introducing DNA molecules that encode proteins with potential binding domains into a genetic package. The proteins are expressed and displayed on the surface of bacterial cells or phages. The binding domains that successfully recognize target molecules are isolated and amplified, leading to the design of new families of binding domains with desired affinities. Another notable patent is "Directed evolution of disulfide-bonded micro-proteins," which focuses on a library of chimeric proteins that include mini-proteins with disulfide bonds. This invention aims to identify proteins with specific binding activities against targets through a systematic screening process.

Career Highlights

Sonia has worked with several notable companies in the biotechnology sector, including Dyax Corporation and Protein Engineering Corporation. Her experience in these organizations has allowed her to refine her skills and contribute to groundbreaking research in protein engineering.

Collaborations

Throughout her career, Sonia has collaborated with esteemed colleagues such as Robert Charles Ladner and Arthur Charles Ley. These partnerships have further enhanced her research and innovation in the field.

Conclusion

Sonia Kosow Guterman's contributions to biotechnology through her patents and collaborations highlight her role as a leading inventor in the field. Her innovative work continues to influence advancements in protein engineering and molecular biology.

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