Proteomics

Dataset Information

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Immunoprecipitation of p97 from X.laevis S-phase chromatin


ABSTRACT: Complex cellular processes are driven by the regulated assembly and disassembly of large multi-protein complexes. In eukaryotic DNA replication, whilst we are beginning to understand the molecular mechanism for assembly of the replication machinery (replisome), we still know little about the regulation of its disassembly at replication termination. Over recent years, the first elements of this process emerged: the replicative helicase at the heart of the replisome is polyubiquitylated prior to unloading and that this unloading requires p97 segregase activity. Two different E3 ubiquitin ligases are now known to ubiquitylate the helicase under different conditions: Cul2Lrr1 and TRAIP. To understand how p97 is targeted to the terminated replisome, we immunoprecipitated p97 from chromatin replicating in Xenopus laevis egg extract. We have found a p97 cofactor, Ubxn7, which can interact with active Cul2Lrr1 and with p97, facilitating efficient recognition and processing of terminated helicases ubiquitylated by Cul2.

INSTRUMENT(S): Q Exactive

ORGANISM(S): Xenopus Laevis (african Clawed Frog)

TISSUE(S): Egg

SUBMITTER: Aga Gambus  

LAB HEAD: Aga Gambus

PROVIDER: PXD029705 | Pride | 2022-10-14

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
MSB35889Band_01.raw Raw
MSB35889Band_01__F147070_.mzid.gz Mzid
MSB35889Band_01__F147070_.mzid_MSB35889Band_01__F147070_.MGF Mzid
MSB35889Band_02.raw Raw
MSB35889Band_02__F147071_.mzid.gz Mzid
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Publications

The p97 segregase cofactor Ubxn7 facilitates replisome disassembly during S-phase.

Tarcan Zeynep Z   Poovathumkadavil Divyasree D   Skagia Aggeliki A   Gambus Agnieszka A  

The Journal of biological chemistry 20220704 8


Complex cellular processes are driven by the regulated assembly and disassembly of large multiprotein complexes. While we are beginning to understand the molecular mechanism for assembly of the eukaryotic DNA replication machinery (replisome), we still know relatively little about the regulation of its disassembly at replication termination. Recently, the first elements of this process have emerged, revealing that the replicative helicase, at the heart of the replisome, is polyubiquitylated prio  ...[more]

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