DNA Synthesis in Vitro
Published in January 1974
Book
Hardback
476 pages
978-0-85200-067-0 (ISBN)
Description
This book contains the papers presented at the Second Annual Harry Steenbock Symposium. The Symposium, and this book, have been entitled DNA Synthesis in Vitro. Knowledge gained in recent years has led to an ill-defined division between in vitro and in vivo studies as applied to DNA replication. Consequently the reader, depending on his particular point of view, will find new and useful information on many aspects of this most interesting subject. We have divided the subject matter into five parts, and these correspond to the sessions of the Symposium. Following many of the papers we have inserted any discussion which might be of use to the reader. The Symposium was supported by funds derived from the Harry Steenbock Symposium Trust Fund of the Department of Biochemistry, University of Wisconsin, made available by Mrs. Harry Steenbock from the Wisconsin Alumni Research Foundation. Professor Harry Steenbock was a distinguished professor of biochemistry from 1916 to 1956 and is world renowned for his pioneering work in the discovery of various vitamins.
Of particular note is his discovery that irradiation of foods with ultraviolet light induces vitamin D activity, a discovery responsible for the elimination of rickets as a major medical problem. The proceedings from the first Steenbock Symposium have been published: H. F. DeLuca and J. W. Suttie (eds.), The Fat-Soluble Vitamins, The University of Wisconsin Press, Madison, Wisconsin, 1969.
This book contains the papers presented at the Second Annual Harry Steenbock Symposium. The Symposium, and this book, have been entitled DNA Synthesis in Vitro. Knowledge gained in recent years has led to an ill-defined division between in vitro and in vivo studies as applied to DNA replication. Consequently the reader, depending on his particular point of view, will find new and useful information on many aspects of this most interesting subject. We have divided the subject matter into five parts, and these correspond to the sessions of the Symposium. Following many of the papers we have inserted any discussion which might be of use to the reader. The Symposium was supported by funds derived from the Harry Steenbock Symposium Trust Fund of the Department of Biochemistry, University of Wisconsin, made available by Mrs. Harry Steenbock from the Wisconsin Alumni Research Foundation. Professor Harry Steenbock was a distinguished professor of biochemistry from 1916 to 1956 and is world renowned for his pioneering work in the discovery of various vitamins.
Of particular note is his discovery that irradiation of foods with ultraviolet light induces vitamin D activity, a discovery responsible for the elimination of rickets as a major medical problem. The proceedings from the first Steenbock Symposium have been published: H. F. DeLuca and J. W. Suttie (eds.), The Fat-Soluble Vitamins, The University of Wisconsin Press, Madison, Wisconsin, 1969.
Of particular note is his discovery that irradiation of foods with ultraviolet light induces vitamin D activity, a discovery responsible for the elimination of rickets as a major medical problem. The proceedings from the first Steenbock Symposium have been published: H. F. DeLuca and J. W. Suttie (eds.), The Fat-Soluble Vitamins, The University of Wisconsin Press, Madison, Wisconsin, 1969.
This book contains the papers presented at the Second Annual Harry Steenbock Symposium. The Symposium, and this book, have been entitled DNA Synthesis in Vitro. Knowledge gained in recent years has led to an ill-defined division between in vitro and in vivo studies as applied to DNA replication. Consequently the reader, depending on his particular point of view, will find new and useful information on many aspects of this most interesting subject. We have divided the subject matter into five parts, and these correspond to the sessions of the Symposium. Following many of the papers we have inserted any discussion which might be of use to the reader. The Symposium was supported by funds derived from the Harry Steenbock Symposium Trust Fund of the Department of Biochemistry, University of Wisconsin, made available by Mrs. Harry Steenbock from the Wisconsin Alumni Research Foundation. Professor Harry Steenbock was a distinguished professor of biochemistry from 1916 to 1956 and is world renowned for his pioneering work in the discovery of various vitamins.
Of particular note is his discovery that irradiation of foods with ultraviolet light induces vitamin D activity, a discovery responsible for the elimination of rickets as a major medical problem. The proceedings from the first Steenbock Symposium have been published: H. F. DeLuca and J. W. Suttie (eds.), The Fat-Soluble Vitamins, The University of Wisconsin Press, Madison, Wisconsin, 1969.
More details
Language
English
Place of publication
Dordrecht
Netherlands
Publishing group
Kluwer Academic Publishers Group
Target group
Professional and scholarly
Research
Illustrations
biography
Dimensions
Height: 1 mm
Width: 1 mm
Weight
980 gr
ISBN-13
978-0-85200-067-0 (9780852000670)
DOI
10.1007/978-94-011-6132-9
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Robert Wells | R. B. Inman
DNA Synthesis in Vitro
Book
05/2013
Springer
€85.55
The article will not be published
Content
Bacterial and Phage-Induced DNA Polymerases.- DNA Polymerase I Activity in Polymerase I Mutants of Escherichia coli.- Concerted Effect of Pancreatic DNase and the Large Fragment of DNA Polymerase I.- Mechanisms of Excision-Repair.- Nucleotide Sequencing of 3' Termini of Duplex DNA with the T4 DNA Polymerase.- Exonuclease Activity of Wild Type and Mutant T4 DNA Polymerases: Hydrolysis during DNA Synthesis in Vitro.- Bacterial DNA Synthesis.- DNA Polymerases of Escherichia coli.- Studies on DNA Polymerases II and III of Escherichia coli.- The Discontinuous Replication of DNA.- Genetics and Physiology of DNA Ligase Mutants of Escherichia coli.- Two DNase-related ATPases of Escherichia coli.- Involvement of DNA Gene Products in the Conversion of ?x-174 and fd DNA to Replicative Forms by Extracts of Escherichia coli.- Factors for DNA Synthesis.- V Factors Stabilizing DNA Folding in Bacterial Chromosomes.- Protein ?: A DNA Swivelase from Escherichia coli?.- Initiation of DNA Synthesis.- In Vitro Studies on Escherichia coli DNA Replication Factors and on the Initiation of Phage ? DNA Replication.- Proteins of the T4 Bacteriophage Replication Apparatus.- Discontinuous DNA Synthesis in Vitro: A Method for Defining the Role of Factors in Replication.- Self-association of Gene 32 Protein.- RNA Tumor Virus DNA Polymerase.- The DNA Polymerases of RNA Tumor Viruses and Their Relationship to Cellular DNA Polymerases Howard.- RNA-directed and -primed DNA Polymerase Activities in Tumor Viruses and Human Lymphocytes.- RNA-dependent DNA Polymerase Activity of RNA Tumor Viruses. IV. Characterization of AMV Stimulatory Protein and RNase H-associated Activity.- RNA-DNA Bonds Formed by DNA Polymerases from Bacteria and RNA Tumor Viruses.- Avian Myeloblastosis Virus DNA Polymerase: Initiation of DNA Synthesis and an Associated Ribonuclease.- Characteristics of the Transcription of RNA by the DNA Polymerase of Rous Sarcoma Virus.- DNA Polymerase in Association with Intracisternal A-type Particles.- Inhibition of Leukemia Virus Replication by Vinyl Analogs of Polynucleotides.- In Vivo/ in Vitro DNA Synthesizing Systems.- Complementation Analysis of Mutations at the dnaB, dnaC, and dnaD Loci.- In Vivo and in Vitro Chromosome Replication in Bacillus subtilis.- In Vitro DNA Synthesis and Function of DNA Polymerases in Bacillus subtilis.- D-Loops in Intracellular ? DNA.- Some Biochemical Elements in Bacteriophage T7 DNA Replication in Vitro.- Autoradiographic Demonstration of Bidirectional Replication in Escherichia coli.