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The Protein Reviews series serves as a publication vehicle for reviews that focus on crucial contemporary and vital aspects of protein structure, function, evolution and genetics. Volumes are published online first, prior to publication in a printed book. Chapters are selected according to their importance to the understanding of biological systems, relevance to the unravelling of issues associated with health and disease, or impact on scientific or technological advances and developments. Volume 23 presents four review chapters authored by experts in related fields.
The first chapter covers the structure and function of SNM1 family nucleases. Chapter two examines the molecular details of DNA integration by CRISPR-associated (Cas) proteins during adaptation in bacteria and archaea. The third chapter reviews the ordered motions in the nitric-oxide dioxygenase (NOD) mechanism of flavohemoglobin and assorted globins with tightly coupled reductases. Chapterfour reviews structural analyses of the multicopper site of CopG support a role as a redox enzyme. This volume is intended for research scientists, clinicians, physicians and graduate students in the fields of biochemistry, cell biology, molecular biology, immunology and genetics.
Provides an up-to-date review of current topics in protein science Review articles focus on current and fundamental aspects of protein structure, function, evolution, and genetics Serves as a useful guide for research scientists, clinicians, physicians, and students across broad fields of study
Auteur
M. Zouhair Atassi is the emeritus Robert A. Welch chair of chemistry, professor of biochemistry and molecular biology, and professor of pathology and immunology at Baylor College of Medicine, Houston, Texas. Previously, he was professor of biochemistry and immunology at Mayo Medical School and Mayo Clinic, Rochester, Minnesota. He was president of the International Symposium of the Immunobiology of Proteins and the Institute of Immunology; founding editor and editor-in-chief of Critical Reviews in Immunology, Protein Journal, and Protein Reviews; and served on the editorial boards of nine other peer-reviewed journals. Professor Atassi is the editor or co-editor of 37 books; author or co-author of over 500 articles in peer-reviewed journals on protein structure, biological function, and molecular and cellular immune recognition; and has received several distinguished awards, medals, and prizes in these fields.
Texte du rabat
The Protein Reviews series serves as a publication vehicle for reviews that focus on crucial contemporary and vital aspects of protein structure, function, evolution and genetics. Volumes are published online first, prior to publication in a printed book. Chapters are selected according to their importance to the understanding of biological systems, relevance to the unravelling of issues associated with health and disease, or impact on scientific or technological advances and developments. Volume 23 presents four review chapters authored by experts in related fields. The first chapter covers the structure and function of SNM1 family nucleases. Chapter two examines the molecular details of DNA integration by CRISPR-associated (Cas) proteins during adaptation in bacteria and archaea. The third chapter reviews the ordered motions in the nitric-oxide dioxygenase (NOD) mechanism of flavohemoglobin and assorted globins with tightly coupled reductases. Chapterfour reviews structural analyses of the multicopper site of CopG support a role as a redox enzyme. This volume is intended for research scientists, clinicians, physicians and graduate students in the fields of biochemistry, cell biology, molecular biology, immunology and genetics.
Contenu
Structure and Function of SNM1 Family Nucleases.- Molecular Details of DNA Integration by CRISPR-Associated Proteins During Adaptation in Bacteria and Archaea.- Ordered Motions in the Nitric-Oxide Dioxygenase Mechanism of Flavohemoglobin and Assorted Globins with Tightly Coupled Reductases.- Structural Analyses of the Multicopper Site of CopG Support a Role as a Redox Enzyme.