The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure

The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure

The origin recognition complex (ORC) cooperates with CDC6, MCM2-7, and CDT1 to form pre-RC complexes at origins of DNA replication. Here, using tiling-sgRNA CRISPR screens, we report that each subunit of ORC and CDC6 is essential in human cells. Using an auxin-inducible degradation system, we create...

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Main Authors: Hsiang-Chen Chou, Kuhulika Bhalla, Osama EL Demerdesh, Olaf Klingbeil, Kaarina Hanington, Sergey Aganezov, Peter Andrews, Habeeb Alsudani, Kenneth Chang, Christopher R Vakoc, Michael C Schatz, W Richard McCombie, Bruce Stillman
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2021-02-01
Series:eLife
Subjects:
initiation of DNA replication
origin recognition complex
CDC6
pre-replicative complex
mitosis
CRISPR-Cas9 gene editing
Online Access:https://elifesciences.org/articles/61797
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spelling doaj-01a18fadd1c345cea6fbc2d110d2747d2021-05-05T22:44:22ZengeLife Sciences Publications LtdeLife2050-084X2021-02-011010.7554/eLife.61797The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structureHsiang-Chen Chou0Kuhulika Bhalla1Osama EL Demerdesh2Olaf Klingbeil3Kaarina Hanington4Sergey Aganezov5Peter Andrews6Habeeb Alsudani7Kenneth Chang8Christopher R Vakoc9https://orcid.org/0000-0002-1158-7180Michael C Schatz10W Richard McCombie11Bruce Stillman12https://orcid.org/0000-0002-9453-4091Cold Spring Harbor Laboratory, Cold Spring Harbor, United States; Graduate Program in Molecular and Cellular Biology, Stony Brook University, Stony Brook, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesDepartment of Computer Science, Whiting School of Engineering, Johns Hopkins University, Baltimore, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesDepartment of Computer Science, Whiting School of Engineering, Johns Hopkins University, Baltimore, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesCold Spring Harbor Laboratory, Cold Spring Harbor, United StatesThe origin recognition complex (ORC) cooperates with CDC6, MCM2-7, and CDT1 to form pre-RC complexes at origins of DNA replication. Here, using tiling-sgRNA CRISPR screens, we report that each subunit of ORC and CDC6 is essential in human cells. Using an auxin-inducible degradation system, we created stable cell lines capable of ablating ORC2 rapidly, revealing multiple cell division cycle phenotypes. The primary defects in the absence of ORC2 were cells encountering difficulty in initiating DNA replication or progressing through the cell division cycle due to reduced MCM2-7 loading onto chromatin in G1 phase. The nuclei of ORC2-deficient cells were also large, with decompacted heterochromatin. Some ORC2-deficient cells that completed DNA replication entered into, but never exited mitosis. ORC1 knockout cells also demonstrated extremely slow cell proliferation and abnormal cell and nuclear morphology. Thus, ORC proteins and CDC6 are indispensable for normal cellular proliferation and contribute to nuclear organization.https://elifesciences.org/articles/61797initiation of DNA replicationorigin recognition complexCDC6pre-replicative complexmitosisCRISPR-Cas9 gene editing
collection DOAJ
language English
format Article
sources DOAJ
author Hsiang-Chen Chou
Kuhulika Bhalla
Osama EL Demerdesh
Olaf Klingbeil
Kaarina Hanington
Sergey Aganezov
Peter Andrews
Habeeb Alsudani
Kenneth Chang
Christopher R Vakoc
Michael C Schatz
W Richard McCombie
Bruce Stillman
spellingShingle Hsiang-Chen Chou
Kuhulika Bhalla
Osama EL Demerdesh
Olaf Klingbeil
Kaarina Hanington
Sergey Aganezov
Peter Andrews
Habeeb Alsudani
Kenneth Chang
Christopher R Vakoc
Michael C Schatz
W Richard McCombie
Bruce Stillman
The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
eLife
initiation of DNA replication
origin recognition complex
CDC6
pre-replicative complex
mitosis
CRISPR-Cas9 gene editing
author_facet Hsiang-Chen Chou
Kuhulika Bhalla
Osama EL Demerdesh
Olaf Klingbeil
Kaarina Hanington
Sergey Aganezov
Peter Andrews
Habeeb Alsudani
Kenneth Chang
Christopher R Vakoc
Michael C Schatz
W Richard McCombie
Bruce Stillman
author_sort Hsiang-Chen Chou
title The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
title_short The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
title_full The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
title_fullStr The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
title_full_unstemmed The human origin recognition complex is essential for pre-RC assembly, mitosis, and maintenance of nuclear structure
title_sort human origin recognition complex is essential for pre-rc assembly, mitosis, and maintenance of nuclear structure
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2021-02-01
description The origin recognition complex (ORC) cooperates with CDC6, MCM2-7, and CDT1 to form pre-RC complexes at origins of DNA replication. Here, using tiling-sgRNA CRISPR screens, we report that each subunit of ORC and CDC6 is essential in human cells. Using an auxin-inducible degradation system, we created stable cell lines capable of ablating ORC2 rapidly, revealing multiple cell division cycle phenotypes. The primary defects in the absence of ORC2 were cells encountering difficulty in initiating DNA replication or progressing through the cell division cycle due to reduced MCM2-7 loading onto chromatin in G1 phase. The nuclei of ORC2-deficient cells were also large, with decompacted heterochromatin. Some ORC2-deficient cells that completed DNA replication entered into, but never exited mitosis. ORC1 knockout cells also demonstrated extremely slow cell proliferation and abnormal cell and nuclear morphology. Thus, ORC proteins and CDC6 are indispensable for normal cellular proliferation and contribute to nuclear organization.
topic initiation of DNA replication
origin recognition complex
CDC6
pre-replicative complex
mitosis
CRISPR-Cas9 gene editing
url https://elifesciences.org/articles/61797
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