Division plane control in plants: new players in the band.
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[1] Buzz Baum,et al. The actin cytoskeleton in spindle assembly and positioning. , 2009, Trends in cell biology.
[2] George Dassow. Concurrent cues for cytokinetic furrow induction in animal cells , 2009 .
[3] K. Misaki,et al. The preprophase band is a localized center of clathrin-mediated endocytosis in late prophase cells of the onion cotyledon epidermis. , 2009, The Plant Journal.
[4] J. C. Ambrose,et al. Spatial organization of plant cortical microtubules: close encounters of the 2D kind. , 2009, Trends in cell biology.
[5] K. Gallagher,et al. discordia1 and alternative discordia1 Function Redundantly at the Cortical Division Site to Promote Preprophase Band Formation and Orient Division Planes in Maize[W][OA] , 2009, The Plant Cell Online.
[6] G. Wasteneys,et al. MOR1, the Arabidopsis thaliana homologue of Xenopus MAP215, promotes rapid growth and shrinkage, and suppresses the pausing of microtubules in vivo , 2008, Journal of Cell Science.
[7] P. Hussey,et al. The C-Terminal Variable Region Specifies the Dynamic Properties of Arabidopsis Microtubule-Associated Protein MAP65 Isotypes[C][W] , 2008, The Plant Cell Online.
[8] I. Meier,et al. RanGAP1 is a continuous marker of the Arabidopsis cell division plane , 2008, Proceedings of the National Academy of Sciences.
[9] J. C. Ambrose,et al. CLASP modulates microtubule-cortex interaction during self-organization of acentrosomal microtubules. , 2008, Molecular biology of the cell.
[10] C. Ebel,et al. Two microtubule-associated proteins of Arabidopsis MAP65s promote antiparallel microtubule bundling. , 2008, Molecular biology of the cell.
[11] C. Camilleri,et al. Arabidopsis TONNEAU1 Proteins Are Essential for Preprophase Band Formation and Interact with Centrin[W] , 2008, The Plant Cell Online.
[12] D. Inzé,et al. Vesicle Trafficking during Somatic Cytokinesis , 2008, Plant Physiology.
[13] P. Wadsworth,et al. Dual role for microtubules in regulating cortical contractility during cytokinesis , 2008, Journal of Cell Science.
[14] E. Panteris. Cortical actin filaments at the division site of mitotic plant cells: a reconsideration of the 'actin-depleted zone'. , 2008, The New phytologist.
[15] T. Pollard. Progress towards understanding the mechanism of cytokinesis in fission yeast. , 2008, Biochemical Society transactions.
[16] M. Tomita,et al. Large-scale phosphorylation mapping reveals the extent of tyrosine phosphorylation in Arabidopsis , 2008, Molecular systems biology.
[17] D. Ehrhardt. Straighten up and fly right: microtubule dynamics and organization of non-centrosomal arrays in higher plants. , 2008, Current opinion in cell biology.
[18] D. Geelen,et al. Demarcation of the cortical division zone in dividing plant cells , 2008, Cell biology international.
[19] Gary J. Brouhard,et al. XMAP215 Is a Processive Microtubule Polymerase , 2008, Cell.
[20] J. Sedbrook,et al. CLASP localizes in two discrete patterns on cortical microtubules and is required for cell morphogenesis and cell division in Arabidopsis , 2007, Journal of Cell Science.
[21] S. Bednarek,et al. Bridging the divide between cytokinesis and cell expansion. , 2007, Current opinion in plant biology.
[22] F. Barr,et al. Cytokinesis: Placing and Making the Final Cut , 2007, Cell.
[23] D. Ehrhardt,et al. Arabidopsis TANGLED Identifies the Division Plane throughout Mitosis and Cytokinesis , 2007, Current Biology.
[24] D. Geelen,et al. Cortical division zone establishment in plant cells. , 2007, Trends in plant science.
[25] X. Deng,et al. The Arabidopsis CLASP Gene Encodes a Microtubule-Associated Protein Involved in Cell Expansion and Division[W] , 2007, The Plant Cell Online.
[26] M. Balasubramanian,et al. Polarity determinants Tea1p, Tea4p, and Pom1p inhibit division-septum assembly at cell ends in fission yeast. , 2007, Developmental cell.
[27] P. Lavia,et al. Spatial control of mitosis by the GTPase Ran , 2007, Cellular and Molecular Life Sciences.
[28] K. Oegema,et al. The C. elegans RSA Complex Localizes Protein Phosphatase 2A to Centrosomes and Regulates Mitotic Spindle Assembly , 2007, Cell.
[29] Sophie G. Martin,et al. The Cell-End Factor Pom1p Inhibits Mid1p in Specification of the Cell Division Plane in Fission Yeast , 2006, Current Biology.
[30] D. Inzé,et al. Somatic Cytokinesis and Pollen Maturation in Arabidopsis Depend on TPLATE, Which Has Domains Similar to Coat Proteins[W] , 2006, The Plant Cell Online.
[31] Y. Machida,et al. MAP65: a bridge linking a MAP kinase to microtubule turnover. , 2006, Current opinion in plant biology.
[32] J. Sibarita,et al. Pom1 kinase links division plane position to cell polarity by regulating Mid1p cortical distribution , 2006, Journal of Cell Science.
[33] L. Sánchez-Pulido,et al. Microtubule-Associated AIR9 Recognizes the Cortical Division Site at Preprophase and Cell-Plate Insertion , 2006, Current Biology.
[34] Liedewij Laan,et al. Assembly dynamics of microtubules at molecular resolution , 2006, Nature.
[35] P. Hussey,et al. Control of the AtMAP65-1 interaction with microtubules through the cell cycle , 2006, Journal of Cell Science.
[36] Timothy J Mitchison,et al. Animal cytokinesis: from parts list to mechanisms. , 2006, Annual review of biochemistry.
[37] C. Camilleri,et al. γ-Tubulin Is Essential for Microtubule Organization and Development in Arabidopsis[W] , 2006, The Plant Cell Online.
[38] Laurie G. Smith,et al. Two Kinesins Are Involved in the Spatial Control of Cytokinesis in Arabidopsis thaliana , 2006, Current Biology.
[39] Yasunori Machida,et al. Phosphorylation of NtMAP65-1 by a MAP kinase down-regulates its activity of microtubule bundling and stimulates progression of cytokinesis of tobacco cells. , 2006, Genes & development.
[40] L. Bögre,et al. γ-Tubulin Is Essential for Acentrosomal Microtubule Nucleation and Coordination of Late Mitotic Events in Arabidopsis[W] , 2006, The Plant Cell Online.
[41] D. Inzé,et al. Cell Cycle-Dependent Targeting of a Kinesin at the Plasma Membrane Demarcates the Division Site in Plant Cells , 2006, Current Biology.
[42] G. Wasteneys,et al. MICROTUBULE ORGANIZATION 1 Regulates Structure and Function of Microtubule Arrays during Mitosis and Cytokinesis in the Arabidopsis Root1[W] , 2005, Plant Physiology.
[43] S. Hasezawa,et al. Appearance of actin microfilament 'twin peaks' in mitosis and their function in cell plate formation, as visualized in tobacco BY-2 cells expressing GFP-fimbrin. , 2005, The Plant journal : for cell and molecular biology.
[44] Manuel Théry,et al. The extracellular matrix guides the orientation of the cell division axis , 2005, Nature Cell Biology.
[45] T. Baskin,et al. Microtubule-dependent microtubule nucleation based on recruitment of γ-tubulin in higher plants , 2005, Nature Cell Biology.
[46] Marisa S Otegui,et al. Midbodies and phragmoplasts: analogous structures involved in cytokinesis. , 2005, Trends in cell biology.
[47] Hisako Igarashi,et al. Dynamic interaction of NtMAP65-1a with microtubules in vivo , 2005, Journal of Cell Science.
[48] J. Doonan,et al. Modulated targeting of GFP-AtMAP65-1 to central spindle microtubules during division. , 2005, The Plant journal : for cell and molecular biology.
[49] C. Waterman-Storer,et al. Spatial regulation of CLASP affinity for microtubules by Rac1 and GSK3β in migrating epithelial cells , 2005, The Journal of cell biology.
[50] G. Calder,et al. Localization of the Microtubule End Binding Protein EB1 Reveals Alternative Pathways of Spindle Development in Arabidopsis Suspension Cellsw⃞ , 2005, The Plant Cell Online.
[51] G. Jürgens,et al. Cytokinesis in higher plants. , 2005 .
[52] S. Hasezawa,et al. Decision of spindle poles and division plane by double preprophase bands in a BY-2 cell line expressing GFP-tubulin. , 2005, Plant & cell physiology.
[53] S. M. Huisman,et al. Cortical capture of microtubules and spindle polarity in budding yeast - where's the catch? , 2005, Journal of Cell Science.
[54] N. Galjart,et al. CLASP1 and CLASP2 bind to EB1 and regulate microtubule plus-end dynamics at the cell cortex , 2005, The Journal of cell biology.
[55] R. Cyr,et al. Encounters between Dynamic Cortical Microtubules Promote Ordering of the Cortical Array through Angle-Dependent Modifications of Microtubule Behaviorw⃞ , 2004, The Plant Cell Online.
[56] E. Bi,et al. Comparative Analysis of Cytokinesis in Budding Yeast, Fission Yeast and Animal Cells , 2004, Current Biology.
[57] T. Shimmen,et al. Characterization of a 200 kDa microtubule-associated protein of tobacco BY-2 cells, a member of the XMAP215/MOR1 family. , 2004, Plant & cell physiology.
[58] P. Hussey,et al. The Arabidopsis Microtubule-Associated Protein AtMAP65-1: Molecular Analysis of Its Microtubule Bundling Activity , 2004, The Plant Cell Online.
[59] I. Mills,et al. COP and clathrin-coated vesicle budding: different pathways, common approaches. , 2004, Current opinion in cell biology.
[60] A. Emons,et al. Microtubules become more dynamic but not shorter during preprophase band formation: a possible "search-and-capture" mechanism for microtubule translocation. , 2004, Cell motility and the cytoskeleton.
[61] Jie Na,et al. First Cleavage of the Mouse Embryo Responds to Change in Egg Shape at Fertilization , 2004, Current Biology.
[62] S. Hasezawa,et al. Roles of actin-depleted zone and preprophase band in determining the division site of higher-plant cells, a tobacco BY-2 cell line expressing GFP-tubulin , 2003, Protoplasma.
[63] J. Doonan,et al. EB1 reveals mobile microtubule nucleation sites in Arabidopsis , 2003, Nature Cell Biology.
[64] Sidney L. Shaw,et al. Sustained Microtubule Treadmilling in Arabidopsis Cortical Arrays , 2003, Science.
[65] T. Gadella,et al. Alteration of Microtubule Dynamic Instability during Preprophase Band Formation Revealed by Yellow Fluorescent Protein–CLIP170 Microtubule Plus-End Labeling Online version contains Web-only data. Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tp , 2003, The Plant Cell Online.
[66] J. Ahringer. Control of cell polarity and mitotic spindle positioning in animal cells. , 2003, Current opinion in cell biology.
[67] H. Yasuhara,et al. TMBP200, a microtubule bundling polypeptide isolated from telophase tobacco BY-2 cells is a MOR1 homologue. , 2002, Plant & cell physiology.
[68] M. Cannon,et al. The Cell Wall Hydroxyproline-Rich Glycoprotein RSH Is Essential for Normal Embryo Development in Arabidopsis Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.010477. , 2002, The Plant Cell Online.
[69] C. Camilleri,et al. The Arabidopsis TONNEAU2 Gene Encodes a Putative Novel Protein Phosphatase 2A Regulatory Subunit Essential for the Control of the Cortical Cytoskeleton Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.010402. , 2002, The Plant Cell Online.
[70] G. Wasteneys,et al. MOR1 is essential for organizing cortical microtubules in plants , 2001, Nature.
[71] K. Bloom. Nuclear migration: Cortical anchors for cytoplasmic dynein , 2001, Current Biology.
[72] Chris I. De Zeeuw,et al. CLASPs Are CLIP-115 and -170 Associating Proteins Involved in the Regional Regulation of Microtubule Dynamics in Motile Fibroblasts , 2001, Cell.
[73] L. Smith,et al. Tangled1: a microtubule binding protein required for the spatial control of cytokinesis in maize. , 2001, The Journal of cell biology.
[74] J. Chan,et al. The 65-kDa carrot microtubule-associated protein forms regularly arranged filamentous cross-bridges between microtubules. , 1999, Proceedings of the National Academy of Sciences of the United States of America.
[75] A. Cleary,et al. The Tangled1 Gene Is Required for Spatial Control of Cytoskeletal Arrays Associated with Cell Division during Maize Leaf Development , 1998, Plant Cell.
[76] A. Valster,et al. Caffeine inhibition of cytokinesis: effect on the phragmoplast cytoskeleton in livingTradescantia stamen hair cells , 1997, Protoplasma.
[77] H. Joshi,et al. γ-Tubulin and microtubule organization in plants , 1996 .
[78] Chang-Jie Jiang,et al. Identification and preliminary characterization of a 65 kDa higher-plant microtubule-associated protein. , 1993, Journal of cell science.
[79] P. Hepler,et al. Microtubule and F-actin dynamics at the division site in living Tradescantia stamen hair cells , 1992 .
[80] T. Murata,et al. Effects of centrifugation on preprophase-band formation in Adiantum protonemata , 1991, Planta.
[81] Y. Mineyuki,et al. A ROLE FOR PREPROPHASE BANDS OF MICROTUBULES IN MATURATION OF NEW CELL WALLS, AND A GENERAL PROPOSAL ON THE FUNCTION OF PREPROPHASE BAND SITES IN CELL DIVISION IN HIGHER PLANTS , 1990 .
[82] B. Gunning,et al. Preprophase Bands, Phragmoplasts, and Spatial Control of Cytokinesis , 1985, Journal of Cell Science.
[83] C. Katsaros,et al. Experimental studies on the function of the cortical cytoplasmic zone of the preprophase microtubule band , 1984, Protoplasma.
[84] J. Pickett-heaps,et al. Preprophase microtubules and stomatal differentiation; some effects of centrifugation on symmetrical and asymmetrical cell division. , 1969, Journal of ultrastructure research.
[85] D. Northcote,et al. The relationship between the endoplasmic reticulum and microtubular aggregation and disaggregation , 1968, Planta.
[86] D. Verma,et al. Cell division control in plants , 2008 .
[87] Laurie G. Smith,et al. Division Plane Orientation in Plant Cells , 2007 .
[88] J. Mathur,et al. BMC Biology BioMed Central , 2004 .
[89] Laurie G. Smith. Cell division: Plant cell division: building walls in the right places , 2001, Nature Reviews Molecular Cell Biology.
[90] L. Cassimeris,et al. Phosphorylation by CDK1 regulates XMAP215 function in vitro. , 1999, Cell motility and the cytoskeleton.
[91] Y. Mineyuki. The Preprophase Band of Microtubules: Its Function as a Cytokinetic Apparatus in Higher Plants , 1999 .
[92] Bo Liu,et al. Organization of cortical microfilaments in dividing root cells , 1992 .
[93] C. Lloyd,et al. The role of F-actin in determining the division plane of carrot suspension cells. Drug studies , 1988 .