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eBook Molecular Basis of Gene Expression download

by Benjamin Lewin

eBook Molecular Basis of Gene Expression download ISBN: 047153160X
Author: Benjamin Lewin
Publisher: John Wiley & Sons Ltd; 1st US - 1st Printing edition (August 26, 1970)
Language: English
Pages: 458
ePub: 1630 kb
Fb2: 1516 kb
Rating: 4.8
Other formats: txt azw docx rtf
Category: Other

Benjamin Lewin is a molecular biologist who founded the journal Cell and authored the textbook Genes.

Benjamin Lewin is a molecular biologist who founded the journal Cell and authored the textbook Genes. He left to work at the National Institutes of Health and, while working there, developed his ideas for a comprehensive biology journal

Molecular Basis of Gene Expression Hardcover – August 26, 1970. by. Benjamin Lewin (Author). Find all the books, read about the author, and more. Are you an author? Learn about Author Central.

Select Format: Hardcover. ISBN13:9780471531609.

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Read by Benjamin Lewin.

New Biological Books. The Molecular Basis of Gene Expression. Harvey F. Lodish, "The Molecular Basis of Gene Expression.

This book is aimed at advanced students in molecular genetics and molecular biology

This book is aimed at advanced students in molecular genetics and molecular biology. Their expert knowledge has been incorporated throughout the text.

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The molecular basis of gene expression. 1 2 3 4 5. Want to Read. Are you sure you want to remove The molecular basis of gene expression from your list? The molecular basis of gene expression. Published 1970 by Wiley-Interscience in London, New York.

Genes control phenotypic traits by specifying the synthesis of specific proteins; this can be stated as the one gene-one protein hypothesis. The information flow that controls protein synthesis passes from DNA to RNA to the protein synthetic machinery. The genetic code consists of codons, which are groups of 3 nucleotides along the DNA strand. A table of codons can be used to "read" the genetic code. The genetic code is the same for all living organisms on earth. Transcription of mRNA requires a promoter and the action of an RNA polymerase enzyme.