Dissection of Functional Domains of the Human DNA Replication Protein Complex Replication Protein A

Replication protein A (RPA) is a mammalian single-stranded DNA binding factor essential for DNA replication, repair, and recombination. It is composed of three subunits of 70, 34, and 13 kDa (Rpa1, Rpa2, and Rpa3, respectively). Deletion mapping of the Rpa2 subunit identified the domain required for...

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Veröffentlicht in:	The Journal of biological chemistry 1996-07, Vol.271 (29), p.17190-17198
Hauptverfasser:	Lin, Yi-Ling, Chen, Clark, Keshav, Kylie F., Winchester, Ellen, Dutta, Anindya
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Base Sequence beta-Galactosidase - biosynthesis Chromatography, Affinity DNA Helicases - chemistry DNA Helicases - metabolism DNA Primers DNA Replication DNA-Binding Proteins - biosynthesis DNA-Binding Proteins - chemistry DNA-Binding Proteins - metabolism Genotype Humans Macromolecular Substances Molecular Sequence Data Mutagenesis, Site-Directed Phosphorylation Plasmids Polymerase Chain Reaction Protein Biosynthesis Rabbits Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry Recombinant Proteins - metabolism Replication Protein A Restriction Mapping Reticulocytes - metabolism S Phase Transcription, Genetic
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container_end_page	17198
container_issue	29
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container_title	The Journal of biological chemistry
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creator	Lin, Yi-Ling Chen, Clark Keshav, Kylie F. Winchester, Ellen Dutta, Anindya
description	Replication protein A (RPA) is a mammalian single-stranded DNA binding factor essential for DNA replication, repair, and recombination. It is composed of three subunits of 70, 34, and 13 kDa (Rpa1, Rpa2, and Rpa3, respectively). Deletion mapping of the Rpa2 subunit identified the domain required for interaction with Rpa1 and Rpa3 which does not include the N-terminal domain that is phosphorylated during S phase. Deletion mapping of Rpa1 defined three domains. The C-terminal third of the Rpa1 polypeptide binds Rpa2 which itself forms a bridge between Rpa1 and Rpa3. The N-terminal third of Rpa1 bound single-stranded DNA under low stringency conditions only (0.1 M NaCl), while a central domain binds to single-stranded DNA under both low and high stringency conditions (0.5 M NaCl). Binding to p53 requires the N-terminal third of Rpa1 with some contribution from the C-terminal third. The evolutionarily conserved putative zinc finger near the C terminus of Rpa1 was not required for binding to single-stranded DNA, Rpa2, or p53. However, all three subdomains of Rpa1 and the zinc finger were essential for supporting DNA replication in vitro. These experiments are a first step toward defining peptide components responsible for the many functions of the RPA protein complex.
doi_str_mv	10.1074/jbc.271.29.17190
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It is composed of three subunits of 70, 34, and 13 kDa (Rpa1, Rpa2, and Rpa3, respectively). Deletion mapping of the Rpa2 subunit identified the domain required for interaction with Rpa1 and Rpa3 which does not include the N-terminal domain that is phosphorylated during S phase. Deletion mapping of Rpa1 defined three domains. The C-terminal third of the Rpa1 polypeptide binds Rpa2 which itself forms a bridge between Rpa1 and Rpa3. The N-terminal third of Rpa1 bound single-stranded DNA under low stringency conditions only (0.1 M NaCl), while a central domain binds to single-stranded DNA under both low and high stringency conditions (0.5 M NaCl). Binding to p53 requires the N-terminal third of Rpa1 with some contribution from the C-terminal third. The evolutionarily conserved putative zinc finger near the C terminus of Rpa1 was not required for binding to single-stranded DNA, Rpa2, or p53. However, all three subdomains of Rpa1 and the zinc finger were essential for supporting DNA replication in vitro. These experiments are a first step toward defining peptide components responsible for the many functions of the RPA protein complex.</description><identifier>ISSN: 0021-9258</identifier><identifier>EISSN: 1083-351X</identifier><identifier>DOI: 10.1074/jbc.271.29.17190</identifier><identifier>PMID: 8663296</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Animals ; Base Sequence ; beta-Galactosidase - biosynthesis ; Chromatography, Affinity ; DNA Helicases - chemistry ; DNA Helicases - metabolism ; DNA Primers ; DNA Replication ; DNA-Binding Proteins - biosynthesis ; DNA-Binding Proteins - chemistry ; DNA-Binding Proteins - metabolism ; Genotype ; Humans ; Macromolecular Substances ; Molecular Sequence Data ; Mutagenesis, Site-Directed ; Phosphorylation ; Plasmids ; Polymerase Chain Reaction ; Protein Biosynthesis ; Rabbits ; Recombinant Proteins - biosynthesis ; Recombinant Proteins - chemistry ; Recombinant Proteins - metabolism ; Replication Protein A ; Restriction Mapping ; Reticulocytes - metabolism ; S Phase ; Transcription, Genetic</subject><ispartof>The Journal of biological chemistry, 1996-07, Vol.271 (29), p.17190-17198</ispartof><rights>1996 © 1996 ASBMB. 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It is composed of three subunits of 70, 34, and 13 kDa (Rpa1, Rpa2, and Rpa3, respectively). Deletion mapping of the Rpa2 subunit identified the domain required for interaction with Rpa1 and Rpa3 which does not include the N-terminal domain that is phosphorylated during S phase. Deletion mapping of Rpa1 defined three domains. The C-terminal third of the Rpa1 polypeptide binds Rpa2 which itself forms a bridge between Rpa1 and Rpa3. The N-terminal third of Rpa1 bound single-stranded DNA under low stringency conditions only (0.1 M NaCl), while a central domain binds to single-stranded DNA under both low and high stringency conditions (0.5 M NaCl). Binding to p53 requires the N-terminal third of Rpa1 with some contribution from the C-terminal third. The evolutionarily conserved putative zinc finger near the C terminus of Rpa1 was not required for binding to single-stranded DNA, Rpa2, or p53. However, all three subdomains of Rpa1 and the zinc finger were essential for supporting DNA replication in vitro. These experiments are a first step toward defining peptide components responsible for the many functions of the RPA protein complex.</description><subject>Animals</subject><subject>Base Sequence</subject><subject>beta-Galactosidase - biosynthesis</subject><subject>Chromatography, Affinity</subject><subject>DNA Helicases - chemistry</subject><subject>DNA Helicases - metabolism</subject><subject>DNA Primers</subject><subject>DNA Replication</subject><subject>DNA-Binding Proteins - biosynthesis</subject><subject>DNA-Binding Proteins - chemistry</subject><subject>DNA-Binding Proteins - metabolism</subject><subject>Genotype</subject><subject>Humans</subject><subject>Macromolecular Substances</subject><subject>Molecular Sequence Data</subject><subject>Mutagenesis, Site-Directed</subject><subject>Phosphorylation</subject><subject>Plasmids</subject><subject>Polymerase Chain Reaction</subject><subject>Protein Biosynthesis</subject><subject>Rabbits</subject><subject>Recombinant Proteins - biosynthesis</subject><subject>Recombinant Proteins - chemistry</subject><subject>Recombinant Proteins - metabolism</subject><subject>Replication Protein A</subject><subject>Restriction Mapping</subject><subject>Reticulocytes - metabolism</subject><subject>S Phase</subject><subject>Transcription, Genetic</subject><issn>0021-9258</issn><issn>1083-351X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1996</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kDtPwzAQxy0EKqWwsyBlQGwptpM4MVvVUopUAUId2CzHuRBXSRzihMe3x32IAcEtd_L_IeuH0DnBY4Lj8HqdqjGNyZjyMYkJxwdoSHAS-EFEXg7REGNKfE6j5BidWLvGbkJOBmiQMBZQzoZIzbS1oDptas_k3ryvt7csvZmppK7t5rUrwFv0lay92cPEe4am1EpuI0-t6UDX3tRUTQmff2qTU3SUy9LC2X6P0Gp-u5ou_OXj3f10svRVRILOz1MmMc_COAzTCMdpFDBK3MGoZHmSxCpUDKcskxwohYwRHhNGE8ozKSFRwQhd7Wqb1rz1YDtRaaugLGUNpreCRIwyHGBnxDujao21LeSiaXUl2y9BsNhgFQ6rcFgF5WKL1UUu9t19WkH2E9hzdPrlTi_0a_GhWxCpNqqA6nfNzc4GDsO7hlZYpaFWkLmI6kRm9P9_-Ab_T5JI</recordid><startdate>19960719</startdate><enddate>19960719</enddate><creator>Lin, Yi-Ling</creator><creator>Chen, Clark</creator><creator>Keshav, Kylie F.</creator><creator>Winchester, Ellen</creator><creator>Dutta, Anindya</creator><general>Elsevier Inc</general><general>American Society for Biochemistry and Molecular Biology</general><scope>6I.</scope><scope>AAFTH</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TM</scope></search><sort><creationdate>19960719</creationdate><title>Dissection of Functional Domains of the Human DNA Replication Protein Complex Replication Protein A</title><author>Lin, Yi-Ling ; Chen, Clark ; Keshav, Kylie F. ; Winchester, Ellen ; Dutta, Anindya</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c513t-fb6a09d4744b507b5362150762a6f887c4c60b6da9e22ed6197162829daae8c3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1996</creationdate><topic>Animals</topic><topic>Base Sequence</topic><topic>beta-Galactosidase - biosynthesis</topic><topic>Chromatography, Affinity</topic><topic>DNA Helicases - chemistry</topic><topic>DNA Helicases - metabolism</topic><topic>DNA Primers</topic><topic>DNA Replication</topic><topic>DNA-Binding Proteins - biosynthesis</topic><topic>DNA-Binding Proteins - chemistry</topic><topic>DNA-Binding Proteins - metabolism</topic><topic>Genotype</topic><topic>Humans</topic><topic>Macromolecular Substances</topic><topic>Molecular Sequence Data</topic><topic>Mutagenesis, Site-Directed</topic><topic>Phosphorylation</topic><topic>Plasmids</topic><topic>Polymerase Chain Reaction</topic><topic>Protein Biosynthesis</topic><topic>Rabbits</topic><topic>Recombinant Proteins - biosynthesis</topic><topic>Recombinant Proteins - chemistry</topic><topic>Recombinant Proteins - metabolism</topic><topic>Replication Protein A</topic><topic>Restriction Mapping</topic><topic>Reticulocytes - metabolism</topic><topic>S Phase</topic><topic>Transcription, Genetic</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Lin, Yi-Ling</creatorcontrib><creatorcontrib>Chen, Clark</creatorcontrib><creatorcontrib>Keshav, Kylie F.</creatorcontrib><creatorcontrib>Winchester, Ellen</creatorcontrib><creatorcontrib>Dutta, Anindya</creatorcontrib><collection>ScienceDirect Open Access Titles</collection><collection>Elsevier:ScienceDirect:Open Access</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Nucleic Acids Abstracts</collection><jtitle>The Journal of biological chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Lin, Yi-Ling</au><au>Chen, Clark</au><au>Keshav, Kylie F.</au><au>Winchester, Ellen</au><au>Dutta, Anindya</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Dissection of Functional Domains of the Human DNA Replication Protein Complex Replication Protein A</atitle><jtitle>The Journal of biological chemistry</jtitle><addtitle>J Biol Chem</addtitle><date>1996-07-19</date><risdate>1996</risdate><volume>271</volume><issue>29</issue><spage>17190</spage><epage>17198</epage><pages>17190-17198</pages><issn>0021-9258</issn><eissn>1083-351X</eissn><abstract>Replication protein A (RPA) is a mammalian single-stranded DNA binding factor essential for DNA replication, repair, and recombination. It is composed of three subunits of 70, 34, and 13 kDa (Rpa1, Rpa2, and Rpa3, respectively). Deletion mapping of the Rpa2 subunit identified the domain required for interaction with Rpa1 and Rpa3 which does not include the N-terminal domain that is phosphorylated during S phase. Deletion mapping of Rpa1 defined three domains. The C-terminal third of the Rpa1 polypeptide binds Rpa2 which itself forms a bridge between Rpa1 and Rpa3. The N-terminal third of Rpa1 bound single-stranded DNA under low stringency conditions only (0.1 M NaCl), while a central domain binds to single-stranded DNA under both low and high stringency conditions (0.5 M NaCl). Binding to p53 requires the N-terminal third of Rpa1 with some contribution from the C-terminal third. The evolutionarily conserved putative zinc finger near the C terminus of Rpa1 was not required for binding to single-stranded DNA, Rpa2, or p53. 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subjects	Animals Base Sequence beta-Galactosidase - biosynthesis Chromatography, Affinity DNA Helicases - chemistry DNA Helicases - metabolism DNA Primers DNA Replication DNA-Binding Proteins - biosynthesis DNA-Binding Proteins - chemistry DNA-Binding Proteins - metabolism Genotype Humans Macromolecular Substances Molecular Sequence Data Mutagenesis, Site-Directed Phosphorylation Plasmids Polymerase Chain Reaction Protein Biosynthesis Rabbits Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry Recombinant Proteins - metabolism Replication Protein A Restriction Mapping Reticulocytes - metabolism S Phase Transcription, Genetic
title	Dissection of Functional Domains of the Human DNA Replication Protein Complex Replication Protein A
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