Motor proteins at the microtubule plus-end

Trends in Cell Biology

Volumn 16, Issue 3, 2006, Pages 135-143

  Wu, Xufeng ^a   Xiang, Xin ^b   Hammer III, John A ^a  

^a NATIONAL HEART LUNG AND BLOOD INSTITUTE   (United States)

^b UNIFORMED SERVICES UNIVERSITY OF THE HEALTH SCIENCES   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ACTIN; APC PROTEIN; DYNACTIN; DYNEIN ADENOSINE TRIPHOSPHATASE; KINESIN; MICROTUBULE PROTEIN; MOLECULAR MOTOR; MYOSIN; MYOSIN II; MYOSIN VA; PROTEIN ATK5; PROTEIN KAR3; PROTEIN KIPA; PROTEIN KLP10A; PROTEIN KLP59C; PROTEIN MCAK; PROTEIN P57; PROTEIN TEA2; UNCLASSIFIED DRUG;

ACTIN POLYMERIZATION; CELL POLARITY; CELL TRANSPORT; CYTOPLASM; CYTOSKELETON; MICROTUBULE; MICROTUBULE ASSEMBLY; NONHUMAN; PRIORITY JOURNAL; PROTEIN ASSEMBLY; REVIEW; SIGNAL TRANSDUCTION;

ANIMALS; ARABIDOPSIS PROTEINS; CELL MOVEMENT; CYCLIN-DEPENDENT KINASE INHIBITOR P57; DROSOPHILA PROTEINS; DYNEIN ATPASE; KINESIN; MICROTUBULE PROTEINS; MICROTUBULE-ASSOCIATED PROTEINS; MODELS, BIOLOGICAL; MODELS, MOLECULAR; MOLECULAR MOTOR PROTEINS; MYOSIN TYPE V; SACCHAROMYCES CEREVISIAE PROTEINS; SCHIZOSACCHAROMYCES POMBE PROTEINS; XENOPUS PROTEINS;

EID: 33644525528     PISSN: 09628924     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.tcb.2006.01.004     Document Type: Review

References (78)

1. P. Carvalho Surfing on microtubule ends Trends Cell Biol. 13 2003 229 237
2. F. Perez CLIP-170 highlights growing microtubule ends in vivo Cell 96 1999 517 527
3. Y. Mimori-Kiyosue Adenomatous polyposis coli (APC) protein moves along microtubules and concentrates at their growing ends in epithelial cells J. Cell Biol. 148 2000 505 518
4. Y. Mimori-Kiyosue The dynamic behavior of the APC-binding protein EB1 on the distal ends of microtubules Curr. Biol. 10 2000 865 868
5. A. Akhmanova, and C.C. Hoogenraad Microtubule plus-end-tracking proteins: mechanisms and functions Curr. Opin. Cell Biol. 17 2005 47 54
6. N. Galjart, and F. Perez A plus-end raft to control microtubule dynamics and function Curr. Opin. Cell Biol. 15 2003 48 53
7. G.G. Gundersen Cortical control of microtubule stability and polarization Curr. Opin. Cell Biol. 16 2004 106 112
8. Y. Mimori-Kiyosue, and S. Tsukita "Search-and-capture" of microtubules through plus-end-binding proteins (+TIPs) J. Biochem. (Tokyo) 134 2003 321 326
9. K.T. Vaughan Surfing, regulating and capturing: are all microtubule-tip-tracking proteins created equal? Trends Cell Biol. 14 2004 491 496
10. N. Galjart CLIPs and CLASPs and cellular dynamics Nat. Rev. Mol. Cell Biol. 6 2005 487 498
11. P. Carvalho Cell cycle control of kinesin-mediated transport of Bik1 (CLIP-170) regulates microtubule stability and dynein activation Dev. Cell 6 2004 815 829
12. G. Han The Aspergillus cytoplasmic dynein heavy chain and NUDF localize to microtubule ends and affect microtubule dynamics Curr. Biol. 11 2001 719 724
13. W.L. Lee The offloading model for dynein function: differential function of motor subunits J. Cell Biol. 168 2005 201 207
14. W.L. Lee The role of the lissencephaly protein Pac1 during nuclear migration in budding yeast J. Cell Biol. 160 2003 355 364
15. B. Sheeman Determinants of S. cerevisiae dynein localization and activation: implications for the mechanism of spindle positioning Curr. Biol. 13 2003 364 372
16. X. Xiang Dynamics of cytoplasmic dynein in living cells and the effect of a mutation in the dynactin complex actin-related protein Arp1 Curr. Biol. 10 2000 603 606
17. J. Zhang Cytoplasmic dynein intermediate chain and heavy chain are dependent upon each other for microtubule end localization in Aspergillus nidulans Mol. Microbiol. 44 2002 381 392
18. J. Zhang Accumulation of cytoplasmic dynein and dynactin at microtubule plus ends in Aspergillus nidulans is kinesin dependent Mol. Biol. Cell 14 2003 1479 1488
19. D.L. Dujardin A role for cytoplasmic dynein and LIS1 in directed cell movement J. Cell Biol. 163 2003 1205 1211
20. K.T. Vaughan Colocalization of cytoplasmic dynein with dynactin and CLIP-170 at microtubule distal ends J. Cell Sci. 112 1999 1437 1447
21. P.S. Vaughan A role for regulated binding of p150(Glued) to microtubule plus ends in organelle transport J. Cell Biol. 158 2002 305 319
22. J. Li NudEL targets dynein to microtubule ends through LIS1 Nat. Cell Biol. 7 2005 686 690
23. V.P. Efimov Roles of NUDE and NUDF proteins of Aspergillus nidulans: insights from intracellular localization and overexpression effects Mol. Biol. Cell 14 2003 871 888
24. T.A. Schroer Dynactin Annu. Rev. Cell Dev. Biol. 20 2004 759 779
25. C. Valetti Role of dynactin in endocytic traffic: effects of dynamitin overexpression and colocalization with CLIP-170 Mol. Biol. Cell 10 1999 4107 4120
26. G. Lansbergen Conformational changes in CLIP-170 regulate its binding to microtubules and dynactin localization J. Cell Biol. 166 2004 1003 1014
27. J. Kusch Spindle asymmetry: a compass for the cell Trends Cell Biol. 13 2003 562 569
28. C.G. Pearson, and K. Bloom Dynamic microtubules lead the way for spindle positioning Nat. Rev. Mol. Cell Biol. 5 2004 481 492
29. N.R. Adames, and J.A. Cooper Microtubule interactions with the cell cortex causing nuclear movements in Saccharomyces cerevisiae J. Cell Biol. 149 2000 863 874
30. M. Farkasovsky, and H. Kuntzel Cortical Num1p interacts with the dynein intermediate chain Pac11p and cytoplasmic microtubules in budding yeast J. Cell Biol. 152 2001 251 262
31. R.A. Heil-Chapdelaine The cortical protein Num1p is essential for dynein-dependent interactions of microtubules with the cortex J. Cell Biol. 151 2000 1337 1344
32. M. Kirschner, and T. Mitchison Beyond self-assembly: from microtubules to morphogenesis Cell 45 1986 329 342
33. S.J. King, and T.A. Schroer Dynactin increases the processivity of the cytoplasmic dynein motor Nat. Cell Biol. 2 2000 20 24
34. F.R. Cottingham, and M.A. Hoyt Mitotic spindle positioning in Saccharomyces cerevisiae is accomplished by antagonistically acting microtubule motor proteins J. Cell Biol. 138 1997 1041 1053
35. H. Maekawa Yeast Cdk1 translocates to the plus end of cytoplasmic microtubules to regulate bud cortex interactions EMBO J. 22 2003 438 449
36. D. Liakopoulos Asymmetric loading of Kar9 onto spindle poles and microtubules ensures proper spindle alignment Cell 112 2003 561 574
37. S. Konzack The role of the kinesin motor KipA in microtubule organization and polarized growth of Aspergillus nidulans Mol. Biol. Cell 16 2005 497 506
38. D. Brunner, and P. Nurse CLIP170-like tip1p spatially organizes microtubular dynamics in fission yeast Cell 102 2000 695 704
39. K.E. Busch, and D. Brunner The microtubule plus end-tracking proteins mal3p and tip1p cooperate for cell-end targeting of interphase microtubules Curr. Biol. 14 2004 548 559
40. K.E. Busch Tea2p kinesin is involved in spatial microtubule organization by transporting tip1p on microtubules Dev. Cell 6 2004 831 843
41. H. Browning Targeted movement of cell end factors in fission yeast Nat. Cell Biol. 5 2003 812 818
42. Y.A. Komarova Cytoplasmic linker proteins promote microtubule rescue in vivo J. Cell Biol. 159 2002 589 599
43. H. Browning, and D.D. Hackney The EB1 homolog Mal3 stimulates the ATPase of the Kinesin Tea2 by recruiting it to the microtubule J. Biol. Chem. 280 2005 12299 12304
44. S.G. Martin Tea4p links microtubule plus ends with the formin for3p in the establishment of cell polarity Dev. Cell 8 2005 479 491
45. D.L. Beach The role of the proteins Kar9 and Myo2 in orienting the mitotic spindle of budding yeast Curr. Biol. 10 2000 1497 1506
46. H. Yin Myosin V orientates the mitotic spindle in yeast Nature 406 2000 1013 1015
47. E. Hwang Spindle orientation in Saccharomyces cerevisiae depends on the transport of microtubule ends along polarized actin cables J. Cell Biol. 161 2003 483 488
48. M. Fukuda, and T.S. Kuroda Slac2-c (synaptotagmin-like protein homolog lacking C2 domains-c), a novel linker protein that interacts with Rab27, myosin Va/VIIa, and actin J. Biol. Chem. 277 2002 43096 43103
49. M. Strom A family of Rab27-binding proteins. Melanophilin links Rab27a and myosin Va function in melanosome transport J. Biol. Chem. 277 2002 25423 25430
50. X.S. Wu Identification of an organelle receptor for myosin-Va Nat. Cell Biol. 4 2002 271 278
51. Wu, X.S. et al. Melanophilin and Myosin Va Track the Microtubule Plus End on EB1. J. Cell Biol. (in press)
52. L. Wordeman Microtubule-depolymerizing kinesins Curr. Opin. Cell Biol. 17 2005 82 88
53. G.C. Rogers Spindle microtubules in flux J. Cell Sci. 118 2005 1105 1116
54. V. Mennella Functionally distinct kinesin-13 family members cooperate to regulate microtubule dynamics during interphase Nat. Cell Biol. 7 2005 235 245
55. A.T. Moore MCAK associates with the tips of polymerizing microtubules J. Cell Biol. 169 2005 391 397
56. P.S. Maddox The minus end-directed motor Kar3 is required for coupling dynamic microtubule plus ends to the cortical shmoo tip in budding yeast Curr. Biol. 13 2003 1423 1428
57. L.R. Sproul Cik1 targets the minus-end Kinesin depolymerase kar3 to microtubule plus ends Curr. Biol. 15 2005 1420 1427
58. J.C. Ambrose A minus-end-directed Kinesin with plus-end tracking protein activity is involved in spindle morphogenesis Mol. Biol. Cell 16 2005 1584 1592
59. I.S. Nathke The adenomatous polyposis coli protein: the Achilles heel of the gut epithelium Annu. Rev. Cell Dev. Biol. 20 2004 337 366
60. T. Jimbo Identification of a link between the tumour suppressor APC and the kinesin superfamily Nat. Cell Biol. 4 2002 323 327
61. T. Nishimura Role of the PAR-3-KIF3 complex in the establishment of neuronal polarity Nat. Cell Biol. 6 2004 328 334
62. S.H. Shi APC and GSK-3beta are involved in mPar3 targeting to the nascent axon and establishment of neuronal polarity Curr. Biol. 14 2004 2025 2032
63. M. Fukata Rac1 and Cdc42 capture microtubules through IQGAP1 and CLIP-170 Cell 109 2002 873 885
64. T. Watanabe Interaction with IQGAP1 links APC to Rac1, Cdc42, and actin filaments during cell polarization and migration Dev. Cell 7 2004 871 883
65. Y. Wen EB1 and APC bind to mDia to stabilize microtubules downstream of Rho and promote cell migration Nat. Cell Biol. 6 2004 820 830
66. H. Maekawa, and E. Schiebel Cdk1-Clb4 controls the interaction of astral microtubule plus ends with subdomains of the daughter cell cortex Genes Dev. 18 2004 1709 1724
67. Y. Kawasaki Mutated APC and Asef are involved in the migration of colorectal tumour cells Nat. Cell Biol. 5 2003 211 215
68. S.L. Rogers Drosophila RhoGEF2 associates with microtubule plus-ends in an EB1-dependent manner Curr. Biol. 14 2004 1827 1833
69. I. Arnal CLIP-170/tubulin-curved oligomers coassemble at microtubule ends and promote rescues Curr. Biol. 14 2004 2086 2095
70. X. Xiang, and M. Plamann Cytoskeleton and motor proteins in filamentous fungi Curr. Opin. Microbiol. 6 2003 628 633
71. J.S. Tirnauer Yeast Bim1p promotes the G1-specific dynamics of microtubules J. Cell Biol. 145 1999 993 1007
72. S.L. Rogers Drosophila EB1 is important for proper assembly, dynamics, and positioning of the mitotic spindle J. Cell Biol. 158 2002 873 884
73. L.A. Ligon The microtubule plus-end proteins EB1 and dynactin have differential effects on microtubule polymerization Mol. Biol. Cell 14 2003 1405 1417
74. J.S. Tirnauer EB1-microtubule interactions in Xenopus egg extracts: role of EB1 in microtubule stabilization and mechanisms of targeting to microtubules Mol. Biol. Cell 13 2002 3614 3626
75. J.L. Carminati, and T. Stearns Microtubules orient the mitotic spindle in yeast through dynein-dependent interactions with the cell cortex J. Cell Biol. 138 1997 629 641
76. H. Lee The microtubule plus end tracking protein Orbit/MAST/CLASP acts downstream of the tyrosine kinase Abl in mediating axon guidance Neuron 42 2004 913 926
77. F.Q. Zhou NGF-induced axon growth is mediated by localized inactivation of GSK-3β and functions of the microtubule plus end binding protein APC Neuron 42 2004 897 912
78. J.N. Molk Nuclear congression is driven by cytoplasmic microtubule plus end interactions in S. cerevisiae J. Cell Biol. 172 2006 27 39