The shaping of a molecular linguist: How a career studying DNA energetics revealed the language of molecular communication

The shaping of a molecular linguist: How a career studying DNA energetics revealed the language of molecular communication

My personal and professional journeys have been far from predictable based on my early childhood. Owing to a range of serendipitous influences, I miraculously transitioned from a rebellious, apathetic teenage street urchin who did poorly in school to a highly motivated, disciplined, and ambitious ac...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 296; p. 100522
Main Author: Breslauer, Kenneth J.
Format: Journal Article
Language:English
Published: Elsevier Inc 01-01-2021
American Society for Biochemistry and Molecular Biology
Subjects:
Breslauer
calorimetry
DNA
DNA energetics
energy databases
energy genome
energy recognition/profiling
energy-based design
energy: bridging structure and function
genetic code evolution
metastability
Reflections
rough DNA energy landscapes
energy: bridging structure and function
calorimetry
energy-based design
energy databases
DNA
energy genome
genetic code evolution
metastability
rough DNA energy landscapes
energy recognition/profiling
DNA energetics
Online Access:Get full text
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Summary:My personal and professional journeys have been far from predictable based on my early childhood. Owing to a range of serendipitous influences, I miraculously transitioned from a rebellious, apathetic teenage street urchin who did poorly in school to a highly motivated, disciplined, and ambitious academic honors student. I was the proverbial “late bloomer.” Ultimately, I earned my PhD in biophysical chemistry at Yale, followed by a postdoc fellowship at Berkeley. These two meccas of thermodynamics, coupled with my deep fascination with biology, instilled in me a passion to pursue an academic career focused on mapping the energy landscapes of biological systems. I viewed differential energetics as the language of molecular communication that would dictate and control biological structures, as well as modulate the modes of action associated with biological functions. I wanted to be a “molecular linguist.” For the next 50 years, my group and I used a combination of spectroscopic and calorimetric techniques to characterize the energy profiles of the polymorphic conformational space of DNA molecules, their differential ligand-binding properties, and the energy landscapes associated with mutagenic DNA damage recognition, repair, and replication. As elaborated below, the resultant energy databases have enabled the development of quantitative molecular biology through the rational design of primers, probes, and arrays for diagnostic, therapeutic, and molecular-profiling protocols, which collectively have contributed to a myriad of biomedical assays. Such profiling is further justified by yielding unique energy-based insights that complement and expand elegant, structure-based understandings of biological processes.
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ISSN:0021-9258
1083-351X
DOI:10.1016/j.jbc.2021.100522