Age, Biography and Wiki
Peter Dervan was born on 28 June, 1945 in Boston, Massachusetts, U.S., is an American chemist (born 1945). Discover Peter Dervan's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 78 years old?
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78 years old |
Zodiac Sign |
Cancer |
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28 June, 1945 |
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28 June |
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Boston, Massachusetts, U.S. |
Nationality |
United States
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We recommend you to check the complete list of Famous People born on 28 June.
He is a member of famous with the age 78 years old group.
Peter Dervan Height, Weight & Measurements
At 78 years old, Peter Dervan height not available right now. We will update Peter Dervan's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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Who Is Peter Dervan's Wife?
His wife is Jacqueline Barton
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Jacqueline Barton |
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Peter Dervan Net Worth
His net worth has been growing significantly in 2023-2024. So, how much is Peter Dervan worth at the age of 78 years old? Peter Dervan’s income source is mostly from being a successful . He is from United States. We have estimated Peter Dervan's net worth, money, salary, income, and assets.
Net Worth in 2024 |
$1 Million - $5 Million |
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Under Review |
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Pending |
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Under Review |
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Timeline
Peter B. Dervan (born June 28, 1945) is the Bren Professor of Chemistry at the California Institute of Technology.
The primary focus of his research is the development and study of small organic molecules that can sequence-specifically recognize DNA, a field in which he is an internationally recognized authority.
The most important of these small molecules are pyrrole–imidazole polyamides.
Dervan is credited with influencing "the course of research in organic chemistry through his studies at the interface of chemistry and biology" as a result of his work on "the chemical principles involved in sequence-specific recognition of double helical DNA".
Peter B. Dervan was born on June 28, 1945, in Boston, Massachusetts, in an Irish immigrant family.
He grew up in a family of six in Dorchester, a working-class suburb of Boston.
Dervan attended Boston College High School and received his B.S. degree from Boston College in 1967, where professor Francis Bennett sparked his interest in organic chemistry.
He began graduate studies at the University of Wisconsin then moved with Jerome A. Berson's research group to Yale University where he completed his graduate research in physical organic chemistry, studying ways in which chemical bonds are created and broken apart.
He received his Ph.D. degree from Yale University in 1972, for The Stereochemistry of the Thermal Rearrangements of Trans-1,2-Dialkenylcyclobutanes and Cis-1,2-Dialkenylcyclobutanes.
Dervan became an assistant professor of chemistry at Caltech in 1973, joining John D. Roberts, Robert G. Bergman and Robert Ellsworth Ireland in the organic chemistry group.
He became an associate professor in 1979, and professor in 1982.
Dervan is a member of the National Academy of Sciences (1986),
the American Academy of Arts and Sciences (1987), and
Dervan is a co-founder and founding member of the Scientific Advisory Board for Gilead Sciences (1987).
He was appointed as the first Bren Professor of Chemistry in 1988.
He served as Chair of Caltech's Division of Chemistry and Chemical Engineering from 1994 to 1999.
Dervan has published more than 360 papers and taught hundreds of students.
He served on the Board of Directors for Beckman Coulter beginning in 1997.
He is an elected member of the French Academy of Sciences (2000)
the American Philosophical Society (2002).
and the Deutsche Akademie der Naturforscher Leopoldina (2004- ).
He is the recipient of many awards, including the National Medal of Science (2006).
He served as a Trustee of Yale University (2008-2017).
He served as a member of the Board of Scientific Governors of The Scripps Research Institute.
In 2014, he presented the ACS Chemical Biology Lecture.
he became chair of the scientific advisory board of the Robert A. Welch Foundation.
While teaching a class at Caltech in Advanced Organic Chemistry, Dervan came to a realization that would guide his future career: rather than working to "close" a classic problem that had been previously defined, he would seek to define and "open" a new research area that could be studied for many years.
The problem he chose was molecular recognition in biological systems.
At the time, DNA sequencing was in its infancy and the human genome project was undreamt of.
Dervan chose to apply ideas from synthetic chemistry to biology and the study of DNA, creating novel binding molecules to be used for DNA recognition.
""I would study weak noncovalent bonds in the most challenging of solvents, water.
Therefore, the ‘synthetic objective’ would be the three-dimensional assembly of multiple specific noncovalent bonds in aqueous media.
Biological molecules, such as proteins or nucleic acids, would be my target and small molecule synthesis combined with physical characterization and the methods of biology would provide the experimental foundation.
I would move from the gas phase world of hydrocarbon rearrangements to the aqueous world of nucleic acids and molecular recognition.""
By studying weak intermolecular interactions and creating novel synthetic molecules specific to particular DNA sequences, Dervan has been able to explore the complex biological systems underlying DNA's structure and function.
A human cell contains approximately 20,000 genes, whose expression is controlled by the binding of protein transcription factors in the promoter region of each gene.
Through pioneering work in DNA recognition, Dervan has determined many of the chemical principles underlying sequence-specific recognition of DNA, and enabled researchers to better understand the mechanism of action of many anti-tumor, anti-viral and anti-biotic drugs.
Dervan determined that small molecules could be synthesized and used to selectively bind DNA at the transcription factor/DNA interface, effectively rewriting the biological codes controlling transcription by acting on the promoters of selected genes.
The creation of synthetic small molecules with affinities and sequence specificities for predetermined DNA sequences makes it possible to design cell-permeable molecules for the regulation of gene expression.