Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell. - Wikidata - awgldk - TriplyDB

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

http://www.wikidata.org/entity/Q35590135

about

New approaches for understanding the nuclear force balance in living, adherent cells Probing cytoskeletal pre-stress and nuclear mechanics in endothelial cells with spatiotemporally controlled (de-)adhesion kinetics on micropatterned substrates.Cell Microharpooning to Study Nucleo-Cytoskeletal Coupling.Vertical uniformity of cells and nuclei in epithelial monolayers.Nesprin-2G, a Component of the Nuclear LINC Complex, Is Subject to Myosin-Dependent Tension.Nuclear envelope rupture and repair during cancer cell migration.Ultradonut topology of the nuclear envelope.The mammalian LINC complex regulates genome transcriptional responses to substrate rigidity Cofilin Regulates Nuclear Architecture through a Myosin-II Dependent Mechanotransduction Module.Dynamic, mechanical integration between nucleus and cell- where physics meets biology The nucleus is a conserved mechanosensation and mechanoresponse organelle.An unresolved LINC in the nuclear envelope.The Nuclear Option: Evidence Implicating the Cell Nucleus in Mechanotransduction.Mechanosensing by the nucleus: From pathways to scaling relationships.The assembly and function of perinuclear actin cap in migrating cells.Bursting the Bubble - Nuclear Envelope Rupture as a Path to Genomic Instability?Nuclear envelope: a new frontier in plant mechanosensing?Cancer cell migration in 3D tissue: negotiating space by proteolysis and nuclear deformability.A Perspective on the Experimental Techniques for Studying Lamins.Role of the Nucleus as a Sensor of Cell Environment Topography.Separate roles for chromatin and lamins in nuclear mechanics.Chromatin histone modifications and rigidity affect nuclear morphology independent of lamins.Mechanics and Buckling of Biopolymeric Shells and Cell Nuclei.Rupture Dynamics and Chromatin Herniation in Deformed Nuclei.The nucleus is irreversibly shaped by motion of cell boundaries in cancer and non-cancer cells.Centrifugal Displacement of Nuclei Reveals Multiple LINC Complex Mechanisms for Homeostatic Nuclear Positioning.Ari-1 Regulates Myonuclear Organization Together with Parkin and Is Associated with Aortic Aneurysms.

P2860

Q28082302-BE5AC110-7B61-4F3F-9E56-95AF62D7CEB6 Q30838562-8FDE6DB2-268D-4CD7-8DED-84C08FB1C646 Q36008889-3C9E143E-B6A4-4D86-BF77-8A34EBD2A331 Q36500563-33C682EA-71FA-42A1-9F07-F18098E54EE5 Q36724244-8888F7B7-A3AD-4122-B33A-81BE358100D0 Q36803458-5356E206-399A-4186-B63F-48F275D5693E Q37323220-8B5E202F-F78E-4B52-AD1F-B2A20EE5A3BD Q37460088-9212D2EC-84DF-4C3B-9E5E-373EC5C0B30B Q37593385-B8D60906-C6FF-446D-A3F4-E5DA21A4783F Q38580523-F8BD58DC-BCFF-4142-8CAB-293EFC3E4F49 Q38724224-A4C22F8D-1DA2-43CE-A63D-CE6E7C1278BB Q38872804-A02872E4-D6FF-44E6-9323-7CA49F354776 Q39029494-C3823383-BC7D-4035-A3B1-15762CF001B9 Q39043810-ECF1FC3E-657E-4253-A9BB-EA10CCAA421B Q39094458-9E433E2F-E1B0-43EF-9DDC-4FB8780C8EE4 Q39174882-D82C8A0D-55B9-45C0-9976-08F0DBAAAA38 Q41579479-D8D47E98-2990-49BE-86D7-680AE3826F36 Q42250953-3AFFACFD-10DF-4F56-A29E-400CE53ACAAA Q47162408-33A838A9-BBD3-4FE0-A83D-F14E83C9ABF2 Q47214734-C2BB33A7-C41E-46F2-B6F6-B402C6AA751C Q47262393-FD14E689-E122-44DB-A67D-2DE1663D562F Q47344586-4B8FF358-786E-4CB5-986D-88061EA93C29 Q47632869-22054FB8-063D-4CBC-87D2-9FB4AD375470 Q47698056-E764F5BA-7E6E-472E-A84D-E14658D11C71 Q48060921-B5CA8CFD-D760-465D-87A5-412894522BF7 Q49497261-46E47A11-599A-482E-AE90-3F70C15D93EC Q52311011-4E9F7A1B-B8CA-47D3-B990-EDEED93F3BF9

P2860

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

http://www.wikidata.org/entity/Q35590135

description

2015 nî lūn-bûn

@nan

2015年の論文

@ja

2015年論文

@yue

2015年論文

@zh-hant

2015年論文

@zh-hk

2015年論文

@zh-mo

2015年論文

@zh-tw

2015年论文

@wuu

2015年论文

@zh

2015年论文

@zh-cn

name

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@ast

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@en

type

label

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@ast

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@en

prefLabel

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@ast

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell.

@en

P1433

Q35590135-CBD84C6D-3E2C-43FF-A3C5-2E8FF0DED1F7

P1476

Q35590135-6CB892EE-07C3-4571-91C8-9B1C3CEFD286

P2093

Q35590135-012BF2CC-8F0D-47A8-AB3D-48033DA2F1BA

Q35590135-550BAA61-EAA8-48E4-91E9-85B1B2DB307A

Q35590135-A368212A-4B3C-42A4-85AE-FAB787A3E415

Q35590135-DD8229CF-B5BD-4DCB-9DAB-C92A0C098F93

Q35590135-FCE585CD-1245-434C-A45C-196E92D4FD51

P2860

Q35590135-0753A384-110C-4328-96B3-0EEE2F6991D3

Q35590135-0AE96782-9597-4D32-99ED-2AC00D3835C3

Q35590135-0E0BE363-D4AB-4101-BA8B-68221232B9FE

Q35590135-20E320C5-F252-4D5B-9671-D803B0A97172

Q35590135-2BF9160D-DB93-477C-8BB0-2689D984DB3D

Q35590135-43338350-A3F5-4BF9-9438-148CB7325E0F

Q35590135-44473FD9-47D7-4E13-A7E4-AE86B4D3BA2E

Q35590135-45A1DA5A-D22E-4CE8-99DA-D150BDB4B20C

Q35590135-46439858-58FA-4C4B-9BC9-9C50DF07AC59

Q35590135-47779161-F65B-4481-A3C2-E2BD810EE929

P304

Q35590135-4A109D95-9583-4905-AE3A-7984C61526FC

P31

Q35590135-F0FBA02B-4BFE-44D9-8C39-96CDD4675828

P356

Q35590135-47092A6E-6342-4478-AE9B-725CE3629238

P407

Q35590135-096E3DA6-A80B-47AC-8660-F6A7A6AE215D

P433

Q35590135-ADDCE92E-EB3C-41BF-B230-E945C718E24C

P478

Q35590135-70AE636E-94F2-45AB-A319-FEE93291298F

P50

Q35590135-6F58BC71-8963-4655-9E7F-F708B3F3C4B8

Q35590135-98F380B8-9D17-467B-9810-2F93E56E9C96

P577

Q35590135-693CB42E-C32F-4821-AB4D-952A99D655F4

P698

Q35590135-A2170B61-9AE6-4176-A560-954951E09338

P932

Q35590135-BCDB988C-97D9-42DA-8E76-9853A6914B1E

P356

PNAS.1502111112

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Direct force probe reveals the mechanics of nuclear homeostasis in the mammalian cell

@en

P2093

Jeffrey A Nickerson

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

Richard B Dickinson

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

Srujana Neelam

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

T J Chancellor

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

Tanmay P Lele

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

P2860

Linear arrays of nuclear envelope proteins harness retrograde actin flow for nuclear movement.

Coupling of the nucleus and cytoplasm: role of the LINC complex

Nesprin 4 is an outer nuclear membrane protein that can induce kinesin-mediated cell polarization

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

FHOD1 interaction with nesprin-2G mediates TAN line formation and nuclear movement.

Nuclear movement regulated by Cdc42, MRCK, myosin, and actin flow establishes MTOC polarization in migrating cells

Anisotropy of cell adhesive microenvironment governs cell internal organization and orientation of polarity

Dynein drives nuclear rotation during forward progression of motile fibroblasts.

The interaction between nesprins and sun proteins at the nuclear envelope is critical for force transmission between the nucleus and cytoskeleton.

Opposing microtubule motors drive robust nuclear dynamics in developing muscle cells.

P304

5720-5725

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

P31

scholarly article

P356

10.1073/PNAS.1502111112

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

P407

P433

18

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

P478

112

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

P50

P577

2015-04-21T00:00:00Z

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

P698

25901323

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

P932

4426403

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