about
Pathway of incorporation of microinjected lamin A into the nuclear envelopeThe inner nuclear membrane protein LAP1 forms a native complex with B-type lamins and partitions with spindle-associated mitotic vesicles.Detergent-salt resistance of LAP2alpha in interphase nuclei and phosphorylation-dependent association with chromosomes early in nuclear assembly implies functions in nuclear structure dynamics.Vaccinia virus DNA replication occurs in endoplasmic reticulum-enclosed cytoplasmic mini-nucleiIntegral membrane proteins of the nuclear envelope are dispersed throughout the endoplasmic reticulum during mitosisThe major nuclear envelope targeting domain of LAP2 coincides with its lamin binding region but is distinct from its chromatin interaction domainCloning of a cDNA for lamina-associated polypeptide 2 (LAP2) and identification of regions that specify targeting to the nuclear envelopecDNA cloning and characterization of lamina-associated polypeptide 1C (LAP1C), an integral protein of the inner nuclear membraneThe equine herpesvirus 1 IR6 protein that colocalizes with nuclear lamins is involved in nucleocapsid egress and migrates from cell to cell independently of virus infection.Fate of the inner nuclear membrane protein lamin B receptor and nuclear lamins in herpes simplex virus type 1 infection.Functional dissection of YA, an essential, developmentally regulated nuclear lamina protein in Drosophila melanogaster.Inhibiting MAP kinase activity prevents calcium transients and mitosis entry in early sea urchin embryosPhosphorylation on protein kinase C sites inhibits nuclear import of lamin B2.Intermediate filaments and disease: mutations that cripple cell strength.A chromatin binding site in the tail domain of nuclear lamins that interacts with core histones.Insertional mutation of the Drosophila nuclear lamin Dm0 gene results in defective nuclear envelopes, clustering of nuclear pore complexes, and accumulation of annulate lamellaeLamin-binding fragment of LAP2 inhibits increase in nuclear volume during the cell cycle and progression into S phaseDynamic properties of nuclear lamins: lamin B is associated with sites of DNA replication.The highly conserved nuclear lamin Ig-fold binds to PCNA: its role in DNA replication.Nuclear lamina at the crossroads of the cytoplasm and nucleus.Tyrosine kinase-dependent release of an adenovirus preterminal protein complex from the nuclear matrixBaculovirus infection induces disruption of the nuclear lamina.Varicella-zoster virus infection of human foreskin fibroblast cells results in atypical cyclin expression and cyclin-dependent kinase activity.Type B lamins remain associated with the integral nuclear envelope protein p58 during mitosis: implications for nuclear reassembly.Remodelling of the nuclear periphery during muscle cell differentiation in vitro.The inner nuclear membrane protein p58 associates in vivo with a p58 kinase and the nuclear lamins.A mechanism of AP-1 suppression through interaction of c-Fos with lamin A/C.Nuclear A-type lamins are differentially expressed in human lung cancer subtypesNuMA is required for the organization of microtubules into aster-like mitotic arrays.Phosphorylation of vimentin head domain inhibits interaction with the carboxyl-terminal end of alpha-helical rod domain studied by surface plasmon resonance measurements.Nuclear envelope breakdown in starfish oocytes proceeds by partial NPC disassembly followed by a rapidly spreading fenestration of nuclear membranes.Lamin B distribution and association with peripheral chromatin revealed by optical sectioning and electron microscopy tomography.Identification and molecular cloning of germinal vesicle lamin B3 in goldfish (Carassius auratus) oocytes.Dynamics of lamin A/C in porcine embryos produced by nuclear transfer.
P2860
Q22066158-5394FD16-9397-4CF7-B1DD-86773839A546Q24532613-62C2381F-F2D9-4708-9EA4-C924E5686A4BQ24533299-F01A2541-7DD6-4CD6-941B-35F009B223FEQ24555699-F1504426-DDA2-42E5-8CCE-86104AFC915EQ24683793-F1D033C4-6942-4BBD-A6FC-AB5518ACDDB4Q28261465-1A5FBF52-CD31-45E9-AE00-6CF0E44207E8Q28564158-A8D3DFA1-9427-44D0-8E28-1501DB3AF5BBQ28582051-7E12E641-3521-416C-86E5-2A65C927B798Q31976760-21208317-697B-4BE8-B945-CED7CCC5A9CDQ33854789-3B08C4AB-87A5-40D3-886E-FB5C7B11E80BQ33996207-723E087A-C8D9-4BE3-BD47-834FCD511F37Q35799739-8C6D45A7-B71E-4D0D-9C0C-058FCB0B7FABQ36233167-82FA1008-BE93-49F7-9FD8-221BAC873169Q36233886-DDB6DD4D-7C81-407B-B6D8-D85AB14F1A82Q36236111-FF2A7F0E-2520-4398-9550-C899E37F0721Q36262090-C4531B2B-EEBC-4F36-9BF8-B799DF4E222EQ36275039-88929876-A886-413C-B948-6F5C23563661Q36534855-588B9063-ADCD-42CB-8AE9-F070C26A4ACAQ36562914-1A36C655-9DCC-47FD-BB91-E88ABC2639AEQ37962667-FC814EE6-808B-4EDB-BE6F-79AB13AAF1F3Q38358550-6BD0E002-648C-4CA6-AAE1-172CAC90BD83Q38629738-D0704A50-AC50-47BA-B019-6AC03412D0D0Q40280118-5A77646A-8F50-4D1D-9301-E32473E3DF36Q40791584-B4A04463-26A7-458D-8742-700032EAF2ECQ41186626-33C019F8-2E0C-4C7A-830F-1BC5D746B8AFQ41539774-067110AA-0F3B-491F-AB10-C25F671258A3Q41850916-1DB394CF-2459-4726-ACE6-C0F09706AF8BQ42754932-83B61FB2-4330-4D8B-BB10-FDCF50280CDAQ42771645-61635B30-E772-4B2C-8C40-C3A9B7D206A7Q42832228-6AE091F0-0686-4A46-B421-DE2C963A4896Q42916693-5364B538-9C87-417A-986B-C445E7C70295Q43109900-5BD1D3D7-CE58-48AC-B929-66E1D94057B7Q48381045-665DD89A-5361-47D2-9749-B663F0C7E9FBQ48801997-9A04289D-F4AA-47BB-89F1-A2B793C610E7
P2860
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Assembly-disassembly of the nuclear lamina.
@ast
Assembly-disassembly of the nuclear lamina.
@en
type
label
Assembly-disassembly of the nuclear lamina.
@ast
Assembly-disassembly of the nuclear lamina.
@en
prefLabel
Assembly-disassembly of the nuclear lamina.
@ast
Assembly-disassembly of the nuclear lamina.
@en
P1476
Assembly-disassembly of the nuclear lamina.
@en
P2093
P304
P356
10.1016/0955-0674(92)90066-L
P577
1992-02-01T00:00:00Z