Molecular Mastery: Rational Protein Engineering Driving Substrate and Template Specificity Expansion in DNA Strand Manipulation
Received Date: Jan 01, 2024 / Published Date: Jan 31, 2024
Abstract
Rational protein engineering has emerged as a powerful tool for expanding substrate and template specificities in DNA strand manipulation. This approach involves the rational design or directed evolution of enzymes to enhance their capabilities in recognizing and interacting with diverse DNA sequences. By understanding the molecular mechanisms underlying protein-DNA interactions, researchers can strategically engineer enzymes with tailored specificities, enabling precise manipulation of genetic material. In this abstract, we explore the molecular mastery achieved through rational protein engineering and its pivotal role in e in driving substrate and template specificity expansion in DNA strand manipulation. We discuss the challenges, opportunities, and future directions in this rapidly evolving field, highlighting its potential to revolutionize genetic engineering and biotechnology.
Citation: Floyd BJ (2024) Molecular Mastery: Rational Protein EngineeringDriving Substrate and Template Specificity Expansion in DNA Strand Manipulation.Biochem Physiol 13: 449.
Copyright: © 2024 Floyd BJ. This is an open-access article distributed under theterms of the Creative Commons Attribution License, which permits unrestricteduse, distribution, and reproduction in any medium, provided the original author andsource are credited.
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