Restriction Enzymes in Microbiology, Biotechnology and Biochemistry

Restriction Enzymes in Microbiology, Biotechnology and Biochemistry

Since their discovery in the nineteen-seventies, a collection of simple enzymes termed Type II restriction endonucleases, made by microbes to ward off viral infections, have transformed molecular biology, spawned the multi-billion dollar Biotechnology industry, and yielded fundamental insights into...

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Bibliographic Details
Main Authors: Geoffrey G. Wilson, Hua Wang, Daniel F. Heiter, Keith D. Lunnen
Format: Article
Language:Spanish
Published: Universidad Centroamericana de Managua 2012-12-01
Series:Encuentro
Subjects:
DNA
specificity
recognition
discrimination
restriction
modification
endonuclease
methyltransferase
X-ray crystallography
major groove
minor groove
hydrogen bond
steric clash
electrostatic attraction
repulsion.
Online Access:http://encuentro.uca.edu.ni/images/stories/2013/pdf/93e/Restriction_Enzymes_in_Microbiology.pdf
Description
Summary:Since their discovery in the nineteen-seventies, a collection of simple enzymes termed Type II restriction endonucleases, made by microbes to ward off viral infections, have transformed molecular biology, spawned the multi-billion dollar Biotechnology industry, and yielded fundamental insights into the biochemistry of life, health and disease. In this article we describe how these enzymes were discovered, and we review their properties, organizations and genetics. We summarize current ideas about the mechanism underlying their remarkable ability to recognize and bind to specific base pair sequences in DNA, and we discuss why these ideas might not be correct. We conclude by proposing an alternative explanation for sequence-recognition that resolves certain inconsistencies and provides, in our view, a more satisfactory account of the mechanism.
ISSN:0424-9674
2220-7112

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