Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
about
An epigenetic regulator emerges as microtubule minus-end binding and stabilizing factor in mitosis.Cadherin 23-C Regulates Microtubule Networks by Modifying CAMSAP3's Function.Anaphase BThe microtubule minus-end-binding protein patronin/PTRN-1 is required for axon regeneration in C. elegansUsing Photobleaching to Measure Spindle Microtubule Dynamics in Primary Cultures of Dividing Drosophila Meiotic SpermatocytesBuilding the Microtubule Cytoskeleton Piece by PieceNOCA-1 functions with γ-tubulin and in parallel to Patronin to assemble non-centrosomal microtubule arrays in C. elegansCAMSAP3 orients the apical-to-basal polarity of microtubule arrays in epithelial cells.Interplay between kinesin-1 and cortical dynein during axonal outgrowth and microtubule organization in Drosophila neurons.Patronin/Shot Cortical Foci Assemble the Noncentrosomal Microtubule Array that Specifies the Drosophila Anterior-Posterior Axis.Shot and Patronin polarise microtubules to direct membrane traffic and biogenesis of microvilli in epitheliaA conceptual view at microtubule plus end dynamics in neuronal axons.bicoid mRNA localises to the Drosophila oocyte anterior by random Dynein-mediated transport and anchoring.Control of microtubule organization and dynamics: two ends in the limelight.Is toxicant-induced Sertoli cell injury in vitro a useful model to study molecular mechanisms in spermatogenesis?Regulatory mechanisms and cellular functions of non-centrosomal microtubules.Polarized endosome dynamics by spindle asymmetry during asymmetric cell division.Axon injury triggers EFA-6 mediated destabilization of axonal microtubules via TACC and doublecortin like kinase.Sliding filaments and mitotic spindle organization.NuMA recruits dynein activity to microtubule minus-ends at mitosis.A structural model for microtubule minus-end recognition and protection by CAMSAP proteins.Microtubule nucleation: beyond the template.EB1 and EB3 regulate microtubule minus end organization and Golgi morphology.Microtubule organization, dynamics and functions in differentiated cells.Noncentrosomal microtubules regulate autophagosome transport through CAMSAP2-EB1 cross-talk.Calmodulin Regulated Spectrin Associated Protein 1 mRNA is Directly Regulated by miR-126 in Primary Human Osteoblasts.PTRN-1/CAMSAP promotes CYK-1/formin-dependent actin polymerization during endocytic recycling.The Arabidopsis SPIRAL2 Protein Targets and Stabilizes Microtubule Minus Ends.Transcriptomic analyses reveal rhythmic and CLOCK-driven pathways in human skeletal muscle.Microtubule architecture in vitro and in cells revealed by cryo-electron tomographyDeterminants of Polar versus Nematic Organization in Networks of Dynamic Microtubules and Mitotic MotorsCAMSAP3 maintains neuronal polarity through regulation of microtubule stability
P2860
Q27323953-634C8128-DA5D-484C-AE4F-913D442CA7BEQ27334749-B1DA556A-824D-42A7-88B3-20C85C5F31E0Q28078705-43CCF1F5-9A33-44D1-AD9A-38D1202FD3E9Q34605908-80C6DBF3-8D51-4455-991B-5BBF68A6069EQ35195343-6D1D8EB1-7841-47D6-9C92-C751896AF928Q35837102-F6775EF9-C549-432A-B69B-60279DE2E919Q36168454-1890D2C8-0F23-4789-A733-65CB6B51F80DQ36483157-91090E84-7F67-4917-8FEF-1171F178F344Q36539728-29789B1D-A1A3-48A6-99B4-700285004CEDQ37092368-37E81FC3-3CD3-4D95-9132-97451CD16F7EQ37120402-0CD8F174-C204-4441-8301-6CD3746D0C14Q37385728-81DF40C7-C8B5-44E8-B800-ED02AC153F13Q37446406-9210E8A3-7749-4CE3-ADD9-0A3CAAC7BD41Q38631883-544B8BFB-E1FA-4E2D-92C1-EDA797CEA5C8Q38700907-EB247046-EE01-4E89-94DA-5491AF79FF7AQ39198617-72D61FBB-F8F3-43B3-A60A-54165975B600Q40219692-1166FA89-773E-4623-906E-0B73CA2EFE07Q41165088-C54440FB-0107-4186-AA32-E2A4DFF1A002Q44483999-BAD8744D-18F7-437E-9B56-E273AD369779Q45970921-8FACCA5F-DF15-46AD-9090-3820742E834BQ46576648-42402FB0-0BB1-48F0-A032-7F1828F9020DQ47919072-AB849544-D8BB-4B0B-ADCA-6025571E4019Q47944282-D47EC13A-CD7B-4888-B69D-58FA41256701Q48160358-8EDB66AB-978A-45BE-89F4-820BCEF8ABE6Q50432236-6B021AC9-1EA3-4279-AF00-8A7F39237287Q51014671-D85A2A4D-35ED-4A27-B83B-79BFB14DDB32Q52641938-720339A2-0866-4A6C-A765-27EA5A1BCD2EQ52662009-E4243196-2775-48E5-B5B8-58F8762BFD09Q52691282-6D757A46-CAD0-4296-8200-172664B4B44BQ57274926-0424AF6D-F7C9-467D-B1A7-0868AA5C0B42Q58593984-D1B7BC26-3428-44A2-9F4C-241DDFB56327Q58760755-EF32AE17-696B-4BCA-893F-486405320AAD
P2860
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 March 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@en
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@nl
type
label
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@en
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@nl
prefLabel
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@en
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@nl
P2860
P921
P356
P1476
Regulation of microtubule minus-end dynamics by CAMSAPs and Patronin.
@en
P2093
Melissa C Hendershott
Ronald D Vale
P2860
P304
P356
10.1073/PNAS.1404133111
P407
P577
2014-03-26T00:00:00Z