Coordinated leading- and lagging-strand synthesis at the Escherichia coli DNA replication fork. II. Frequency of primer synthesis and efficiency of primer utilization control Okazaki fragment size

To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in vitro during rolling-circle DNA replication catalyzed by the DNA polymerase III holoenzyme, the single-stranded DNA binding protein, and the pr...

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Published inThe Journal of biological chemistry Vol. 267; no. 6; pp. 4045 - 4053
Main Authors Zechner, E L, Wu, C A, Marians, K J
Format Journal Article
LanguageEnglish
Published United States American Society for Biochemistry and Molecular Biology 25.02.1992
Subjects
Autoradiography
Catalysis
Deoxyribonucleosides - metabolism
DNA - metabolism
DNA Polymerase III - metabolism
DNA Primase
DNA Replication
DNA, Bacterial - biosynthesis
DNA, Bacterial - metabolism
Electrophoresis, Agar Gel
Electrophoresis, Polyacrylamide Gel
Escherichia coli
Escherichia coli - genetics
Ribonucleosides - metabolism
RNA Nucleotidyltransferases - metabolism
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Abstract To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in vitro during rolling-circle DNA replication catalyzed by the DNA polymerase III holoenzyme, the single-stranded DNA binding protein, and the primosome on a tailed form II DNA template were isolated and characterized. The abundance of oligoribonucleotide primers and the incidence of covalent DNA chain extension of the primer population was measured under different reaction conditions known to affect the size of the products of lagging-strand DNA synthesis. These analyses demonstrated that the factors affecting Okazaki fragment length could be distinguished by either their effect on the frequency of primer synthesis or by their influence on the efficiency of initiation of DNA synthesis from primer termini. Primase and the ribonucleoside triphosphates were found to stimulate primer synthesis. The observed trend toward smaller fragment size as the concentration of these effectors was raised was apparently a direct consequence of the increased frequency of primer synthesis. The beta subunit of the DNA polymerase III holoenzyme and the deoxyribonucleoside triphosphates did not alter the priming frequency; instead, the concentration of these factors influenced the ability of the lagging-strand DNA polymerase to efficiently utilize primers to initiate DNA synthesis. Maximum utilization of the available primers correlated with the lowest mean value of Okazaki fragment length. These data were used to draw general conclusions concerning the temporal order of enzymatic steps that operate during a cycle of Okazaki fragment synthesis on the lagging-strand DNA template.
AbstractList To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in vitro during rolling-circle DNA replication catalyzed by the DNA polymerase III holoenzyme, the single-stranded DNA binding protein, and the primosome on a tailed form II DNA template were isolated and characterized. The data were used to draw general conclusions concerning the temporal order of enzymatic steps that operate during a cycle of Okazaki fragment synthesis on the lagging-strand DNA template.
To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in vitro during rolling-circle DNA replication catalyzed by the DNA polymerase III holoenzyme, the single-stranded DNA binding protein, and the primosome on a tailed form II DNA template were isolated and characterized. The abundance of oligoribonucleotide primers and the incidence of covalent DNA chain extension of the primer population was measured under different reaction conditions known to affect the size of the products of lagging-strand DNA synthesis. These analyses demonstrated that the factors affecting Okazaki fragment length could be distinguished by either their effect on the frequency of primer synthesis or by their influence on the efficiency of initiation of DNA synthesis from primer termini. Primase and the ribonucleoside triphosphates were found to stimulate primer synthesis. The observed trend toward smaller fragment size as the concentration of these effectors was raised was apparently a direct consequence of the increased frequency of primer synthesis. The beta subunit of the DNA polymerase III holoenzyme and the deoxyribonucleoside triphosphates did not alter the priming frequency; instead, the concentration of these factors influenced the ability of the lagging-strand DNA polymerase to efficiently utilize primers to initiate DNA synthesis. Maximum utilization of the available primers correlated with the lowest mean value of Okazaki fragment length. These data were used to draw general conclusions concerning the temporal order of enzymatic steps that operate during a cycle of Okazaki fragment synthesis on the lagging-strand DNA template.
To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in vitro during rolling-circle DNA replication catalyzed by the DNA polymerase III holoenzyme, the single-stranded DNA binding protein, and the primosome on a tailed form II DNA template were isolated and characterized. The abundance of oligoribonucleotide primers and the incidence of covalent DNA chain extension of the primer population was measured under different reaction conditions known to affect the size of the products of lagging-strand DNA synthesis. These analyses demonstrated that the factors affecting Okazaki fragment length could be distinguished by either their effect on the frequency of primer synthesis or by their influence on the efficiency of initiation of DNA synthesis from primer termini. Primase and the ribonucleoside triphosphates were found to stimulate primer synthesis. The observed trend toward smaller fragment size as the concentration of these effectors was raised was apparently a direct consequence of the increased frequency of primer synthesis. The beta subunit of the DNA polymerase III holoenzyme and the deoxyribonucleoside triphosphates did not alter the priming frequency; instead, the concentration of these factors influenced the ability of the lagging-strand DNA polymerase to efficiently utilize primers to initiate DNA synthesis. Maximum utilization of the available primers correlated with the lowest mean value of Okazaki fragment length. These data were used to draw general conclusions concerning the temporal order of enzymatic steps that operate during a cycle of Okazaki fragment synthesis on the lagging-strand DNA template.
Author K J Marians
E L Zechner
C A Wu
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Snippet To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in...
To investigate the role of the priming apparatus at the replication fork in determining Okazaki fragment size, the products of primer synthesis generated in...
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StartPage 4045
SubjectTerms Autoradiography
Catalysis
Deoxyribonucleosides - metabolism
DNA - metabolism
DNA Polymerase III - metabolism
DNA Primase
DNA Replication
DNA, Bacterial - biosynthesis
DNA, Bacterial - metabolism
Electrophoresis, Agar Gel
Electrophoresis, Polyacrylamide Gel
Escherichia coli
Escherichia coli - genetics
Ribonucleosides - metabolism
RNA Nucleotidyltransferases - metabolism
Title Coordinated leading- and lagging-strand synthesis at the Escherichia coli DNA replication fork. II. Frequency of primer synthesis and efficiency of primer utilization control Okazaki fragment size
URI http://www.jbc.org/content/267/6/4045.abstract
https://www.ncbi.nlm.nih.gov/pubmed/1740452
https://search.proquest.com/docview/16197379
https://search.proquest.com/docview/72805988
Volume 267
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