Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest. - Test2 - elhamkhani - TriplyDB

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

http://www.wikidata.org/entity/Q34547899

about

Single-strand DNA-binding protein SSB1 facilitates TERT recruitment to telomeres and maintains telomere G-overhangs Deficient expression of aldehyde dehydrogenase 1A1 is consistent with increased sensitivity of Gorlin syndrome patients to radiation carcinogenesis Mouse models of the fragile X premutation and fragile X-associated tremor/ataxia syndrome Role of lamin b1 in chromatin instability β2-spectrin depletion impairs DNA damage repair Role of the Exocyst Complex Component Sec6/8 in Genomic Stability MCL-1 Depletion Impairs DNA Double-Strand Break Repair and Reinitiation of Stalled DNA Replication Forks.Progerin-Induced Replication Stress Facilitates Premature Senescence in Hutchinson-Gilford Progeria Syndrome.ATM and KAT5 safeguard replicating chromatin against formaldehyde damage.Torin2 Suppresses Ionizing Radiation-Induced DNA Damage Repair Detecting ATM-dependent chromatin modification in DNA damage response.Deregulation of focal adhesion formation and cytoskeletal tension due to loss of A-type lamins.Comparative proteomics analysis of global cellular stress responses to hydroxyurea-induced DNA damage in HeLa cells.miR-15a/miR-16 down-regulates BMI1, impacting Ub-H2A mediated DNA repair and breast cancer cell sensitivity to doxorubicin Disruption of PCNA-lamins A/C interactions by prelamin A induces DNA replication fork stalling.The Nucleoskeleton.Causes and consequences of nuclear envelope alterations in tumour progression.MOF phosphorylation by ATM regulates 53BP1-mediated double-strand break repair pathway choice.Relocalization of DNA lesions to the nuclear pore complex.Quantitative analysis of nuclear shape in oral squamous cell carcinoma is useful for predicting the chemotherapeutic response.CNOT1 cooperates with LMNA to aggravate osteosarcoma tumorigenesis through the Hedgehog signaling pathway.HOXC10 Expression Supports the Development of Chemotherapy Resistance by Fine Tuning DNA Repair in Breast Cancer Cells.CIZ1, a p21Cip1/Waf1-interacting protein, functions as a tumor suppressor in vivo.MOF suppresses replication stress and contribute to resolution of stalled replication forks.Differentiation of Human Induced Pluripotent or Embryonic Stem Cells Decreases the DNA Damage Repair by Homologous Recombination.Smurf2 regulates stability and the autophagic-lysosomal turnover of lamin A and its disease-associated form progerin.A Cell-Intrinsic Interferon-like Response Links Replication Stress to Cellular Aging Caused by Progerin.Causes and consequences of genomic instability in laminopathies: replication stress and interferon response.A Lamin-Binding Ligand Inhibits Homologous Recombination Repair of DNA Double-Strand Breaks Inhibition of Metalloproteinase Activity in FANCA Is Linked to Altered Oxygen Metabolism Nuclear lamina dysfunction triggers a germline stem cell checkpoint

P2860

Q28115535-8CD72CE4-3964-4874-B3A8-60EBE0961CBD Q28389106-438901A1-8619-4195-9682-B2A613C77196 Q34055453-DFE2CB8C-562F-4D97-BFBF-C3750E5F3521 Q35069570-AA209453-6D35-4F08-8326-3FFD6D26EAF5 Q36036084-D246D4E9-BBD1-4540-BCD6-D8B211E78A8C Q36109385-CF490A53-9C5E-4278-980C-16E935AF6417 Q36184998-78BB69FD-1181-403C-9C3A-C11678090C91 Q36366471-3173F9EF-428D-452D-8AAE-A0E834CD0FE6 Q36443372-ED8BB70A-ED6A-48E2-88C8-12B025C1C219 Q37041046-86C9F89A-085E-44E6-8AD4-093CEF3473CB Q38398034-F1B290D6-5139-4738-B19E-83222D189F3A Q38441084-C9B0CC6E-48DB-423F-93CE-A343D6C5AAC5 Q38468915-5B13A64F-BB09-46C8-A14C-ACC4C5966295 Q38706087-7CB5B590-40CA-47B5-B42F-418683A889A6 Q38743495-AFA4B918-E191-44A2-9055-FBD380F4889E Q38763221-9225264D-0F43-4260-8D18-8299A0B80CA5 Q38891711-7CC61097-89FD-4CC8-932B-29BF54D742B2 Q38982264-52BF89E7-9755-460D-B84A-15B8F691C6AD Q38995558-3460ED29-7A79-4086-90E9-46E8F718BDD8 Q40320022-48B3B1D2-8DE8-4871-A354-13D31A5FBC72 Q41128016-540AA3F7-637C-4F05-AE9E-708037CF080A Q42385396-5553E0A4-C082-4020-AD9C-D0757BAF38A5 Q45715060-7302C142-ECF7-4802-AB8B-8F06017269EB Q47234520-5A2C1F8E-6075-4FA7-9A7C-FD9A45C27A71 Q50149415-168E8F10-85A1-4477-AC58-05CBF4293F89 Q50188862-030E4C5A-8F61-4F2E-A7B5-B2791B9DE3AA Q50422448-AD5D3B9C-76B4-439D-BE0B-5DFDF7873105 Q52720096-D4B99E89-0455-424A-B82A-12613639BF83 Q57068930-DF842E20-494E-4722-9FD9-26C6F282F98B Q57590763-DDC919EE-FC48-4F99-8CA3-F7D8FB5A9CE4 Q59129238-EBED5182-F90F-43F7-B012-63A163FBE1D9

P2860

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

http://www.wikidata.org/entity/Q34547899

description

2013 nî lūn-bûn

@nan

2013 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2013 թվականի հունվարին հրատարակված գիտական հոդված

@hy

2013年の論文

@ja

2013年論文

@yue

2013年論文

@zh-hant

2013年論文

@zh-hk

2013年論文

@zh-mo

2013年論文

@zh-tw

2013年论文

@wuu

name

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@ast

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@en

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@nl

type

label

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@ast

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@en

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@nl

prefLabel

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@ast

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@en

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@nl

P1433

Q34547899-B90A7BE4-09A2-4B44-ADE9-CDF25161F591

P1476

Q34547899-48021AF6-086E-43D0-9E42-7F777207D2C4

P2093

Q34547899-1463C281-4427-4DFF-AAD0-619F4177DC8A

Q34547899-2E81D93D-5009-46EC-8201-CA3599E5F3F9

Q34547899-3091BFB9-28B9-4484-BB0D-7D5F82B16DB5

Q34547899-33618344-8B37-4255-83E5-6C542BD335B9

Q34547899-44396363-55CC-4138-B293-EDF5BF800040

Q34547899-4CFBE073-7991-4D73-9247-6592F5F2B435

Q34547899-612DFFDF-79D1-4849-AFB4-D787591EF24F

Q34547899-625A32D6-A5FA-4C6B-8CCF-884F87EF1EDD

Q34547899-71A6274C-278D-4530-8416-BCF2290643C6

Q34547899-820924B9-12BF-48C1-906F-43115269E597

P2860

Q34547899-01C3EAA6-02B7-44B8-BF29-174F69D3C3E0

Q34547899-0C8BB5DF-3E18-4301-8383-7BDF4BDAF247

Q34547899-0F01B23F-8C12-4B42-B627-3AE5BB45FAAA

Q34547899-134B7D6D-2AEA-4353-AA92-6EB0A65731C4

Q34547899-15E58CD1-90BB-4588-AD64-978C56A0A710

Q34547899-1A1727E3-73DD-4956-B513-A2A68D855AB6

Q34547899-2A4E5CA1-8ECC-4B81-8364-021B4C8D76D2

Q34547899-3513D2CF-5787-499A-8414-7C90F7761F48

Q34547899-3A2B7A1D-4DC3-489F-9770-2F9088B42D40

Q34547899-43CF9227-4C65-41C3-B186-0F6A1FD72A58

P304

Q34547899-46B3A48A-129A-4FB3-9F79-C7449160444A

P31

Q34547899-682A5705-D0E7-45FF-87BA-2AC5BC309991

P356

Q34547899-ECEA61C5-7E8B-4CF2-89AF-EA14170AEE26

P407

Q34547899-EBCFF97C-CF02-42DE-A2FC-94AC7D32BA90

P433

Q34547899-EE88E205-CC89-4353-9BDA-977D8D4B9D3E

P478

Q34547899-63457B4C-AE6C-4B42-929A-BB5E4F93C68B

P577

Q34547899-8F24087F-15AE-47B7-927C-4A677C700B7C

P698

Q34547899-C20A8833-59BF-4AAB-807D-245CE073C343

P921

Q34547899-66482868-D08D-4B4F-834D-0349209790B1

P932

Q34547899-5FBC9E93-489D-4C75-BA13-A0A54D4138ED

P356

P1433

Molecular and Cellular Biology

P1476

Lamin A/C depletion enhances DNA damage-induced stalled replication fork arrest.

@en

P2093

Arun Gupta

http://www.w3.org/2001/XMLSchema#string

Benjamin P C Chen

http://www.w3.org/2001/XMLSchema#string

Chin-Rang Yang

http://www.w3.org/2001/XMLSchema#string

Clayton R Hunt

http://www.w3.org/2001/XMLSchema#string

Dorothee Deckbar

http://www.w3.org/2001/XMLSchema#string

Howard J Worman

http://www.w3.org/2001/XMLSchema#string

Jerry W Shay

http://www.w3.org/2001/XMLSchema#string

Jessie Jeffery

http://www.w3.org/2001/XMLSchema#string

Kum Kum Khanna

http://www.w3.org/2001/XMLSchema#string

Markus Löbrich

http://www.w3.org/2001/XMLSchema#string

P2860

Nuclear lamins A and B1: different pathways of assembly during nuclear envelope formation in living cells

Involvement of human MOF in ATM function

Human heterochromatin protein 1 isoforms HP1(Hsalpha) and HP1(Hsbeta) interfere with hTERT-telomere interactions and correlate with changes in cell growth and response to ionizing radiation

Loss of A-type lamin expression compromises nuclear envelope integrity leading to muscular dystrophy

Mouse models of laminopathies

Structural basis for the suppression of skin cancers by DNA polymerase η

Structure and mechanism of human DNA polymerase η

Life at the edge: the nuclear envelope and human disease

Lamin A and ZMPSTE24 (FACE-1) defects cause nuclear disorganization and identify restrictive dermopathy as a lethal neonatal laminopathy

Dysfunction of lamin A triggers a DNA damage response and cellular senescence

P304

1210-1222

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1128/MCB.01676-12

http://www.w3.org/2001/XMLSchema#string

P407

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

33

http://www.w3.org/2001/XMLSchema#string

P577

2013-01-14T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

23319047

http://www.w3.org/2001/XMLSchema#string

P921

P932

3592031

http://www.w3.org/2001/XMLSchema#string