A rapid method to map mutations in DrosophilaThe DYRK-family kinase Pom1 phosphorylates the F-BAR protein Cdc15 to prevent division at cell poles.PKA antagonizes CLASP-dependent microtubule stabilization to re-localize Pom1 and buffer cell size upon glucose limitationTea4p links microtubule plus ends with the formin for3p in the establishment of cell polarity.Regulation of the formin for3p by cdc42p and bud6p.Myosin Vs organize actin cables in fission yeastThe novel proteins Rng8 and Rng9 regulate the myosin-V Myo51 during fission yeast cytokinesisA formin-nucleated actin aster concentrates cell wall hydrolases for cell fusion in fission yeast.Casein kinase 1γ ensures monopolar growth polarity under incomplete DNA replication downstream of Cds1 and calcineurin in fission yeast.Local Pheromone Release from Dynamic Polarity Sites Underlies Cell-Cell Pairing during Yeast MatingSpatial focalization of pheromone/MAPK signaling triggers commitment to cell-cell fusion.A systematic screen for morphological abnormalities during fission yeast sexual reproduction identifies a mechanism of actin aster formation for cell fusion.Targeting Sir proteins to sites of action: a general mechanism for regulated repression.Ku-deficient yeast strains exhibit alternative states of silencing competencePom1 regulates the assembly of Cdr2-Mid1 cortical nodes for robust spatial control of cytokinesis.Fission yeast Sec3 and Exo70 are transported on actin cables and localize the exocyst complex to cell poles.Actin cables and the exocyst form two independent morphogenesis pathways in the fission yeastA role for Drosophila LKB1 in anterior-posterior axis formation and epithelial polarity.The cell-end factor pom1p inhibits mid1p in specification of the cell division plane in fission yeast.Polar gradients of the DYRK-family kinase Pom1 couple cell length with the cell cycle.Spontaneous Cdc42 polarization independent of GDI-mediated extraction and actin-based trafficking.Pom1 gradient buffering through intermolecular auto-phosphorylation.Being at the right place at the right time.Mate and fuse: how yeast cells do itShaping fission yeast with microtubules.Pob1 participates in the Cdc42 regulation of fission yeast actin cytoskeletonMicrotubule-dependent cell morphogenesis in the fission yeast.Geometric control of the cell cycle.Fission yeast: in shape to divide.Cdc42 oscillations in yeasts.Cell polarization in budding and fission yeasts.Spontaneous cell polarization: Feedback control of Cdc42 GTPase breaks cellular symmetry.Role and organization of the actin cytoskeleton during cell-cell fusion.New end take off: regulating cell polarity during the fission yeast cell cycle.The identification of novel genes required for Drosophila anteroposterior axis formation in a germline clone screen using GFP-Staufen.Mutation of yeast Ku genes disrupts the subnuclear organization of telomeres.Distinct levels in Pom1 gradients limit Cdr2 activity and localization to time and position division.Inhibition of Ras activity coordinates cell fusion with cell-cell contact during yeast mating.A phosphorylation cycle shapes gradients of the DYRK family kinase Pom1 at the plasma membrane.Dynamics of the formin for3p in actin cable assembly.
P50
Q24804855-55574D6D-C303-435C-A1BE-C80B7F366B6BQ27309376-F4FD39FD-0021-479E-B2B9-2B4ED0BC6268Q27322471-E8CDE110-DF96-45E4-844C-1AA876E07E36Q30160276-D45E56FF-2F25-4FD7-A786-2479A6D32950Q30480139-2B66F07D-ECAC-4183-A577-C9173E6E5644Q30528813-9F9DF449-0673-4809-97AF-3BADC167E21DQ30577901-B887B6E4-EA25-42B8-890A-F119F06F755EQ30635372-BB11D858-371D-44D9-9443-2BE9B78BEB13Q30636315-0EC11A6F-6F3E-4EAE-838F-238F8486FD7FQ30748108-A1E7F59C-9E55-449D-A99C-8067C1DCF879Q30826995-AB112609-B96B-4333-87A9-7E8BCBF55C86Q33615825-FD499364-CC5E-4469-83EA-D9EB11102C9BQ33671486-B6FCC841-5DF5-4933-8DB9-EBB21F89ED6EQ33757235-BD0E401E-7E74-486A-81CD-03C05F056C39Q33859134-7D00A01E-0F15-44BC-8E9B-903C780287F5Q34328810-2AF15551-110A-4A4E-918E-38724B2951E4Q34470997-441456B7-6CBF-4971-A713-AA61E208002BQ34530696-83D2E88E-E1B2-4E92-8D76-FA070EF52B83Q34586447-55656DAA-6170-4D0A-9999-FD065CDA64ECQ34983397-1C3896A3-CE2D-4E5D-8453-B2ADA503B95BQ35594487-BE5B8DE8-2683-49CE-A45E-69066A685721Q35991489-6A8390A6-D8F0-40E1-A89B-EFF494171433Q36356472-69412B97-08E6-4434-93AB-6D402DFDD18DQ37032339-5B1B4A82-88D6-4CA7-AC92-3BEF2EE1EAECQ37342282-15FF9FEE-F16B-4DA3-81AD-9B8A1AEACFA4Q37387970-28B301AB-A5DF-4ECF-9932-CAE627524D89Q37588268-D24A6D55-FD41-4C71-B2CE-26396562B638Q37618515-2B1C8AFA-A491-4363-B261-0A004BE3A297Q38057858-66F7B747-3B87-47D7-8877-D7CF4111878FQ38065011-3F6BCBA6-A77F-485B-AADE-D276E0193D7EQ38172615-F8431110-7DEA-4ED1-8C58-A6164121C311Q38580543-B4641A81-E344-4C03-8010-385F0B2A1392Q38913894-8D7D9BBC-61BD-415A-9E5A-96A57B0F0361Q46560513-9E6B24FC-AE7A-496A-A9C9-13EBA81EDCB0Q47072333-11CC6EA7-5E30-4DB1-873E-1EDBB7641627Q47946111-343690E8-391E-4C4C-82BE-62EEB6390684Q47946740-E0513C08-E52D-413C-83E8-CA39B358BF6BQ49913698-B5979BC6-6795-4249-AEB3-F6316B8B4FACQ50622605-07B090DA-61F8-40B6-B975-4E82E11568C0Q50726663-A21D82A1-C94F-418F-BB7B-EF768446D518
P50
description
Zwitsers onderzoekster (1977-)
@nl
biologiste suisse
@fr
hulumtuese
@sq
investigadora suiza
@ast
investigadora suiza
@es
researcher
@en
ricercatrice
@it
taighdeoir
@ga
հետազոտող
@hy
name
Sophie G. Martin
@de
Sophie G. Martin
@en
Sophie G. Martin
@ga
Sophie G. Martin
@it
Sophie G. Martin
@nl
Sophie G. Martin
@rm
Sophie G. Martin
@sl
Sophie G. Martin
@sq
Sophie Martin
@ca
Sophie Martin
@es
type
label
Sophie G. Martin
@de
Sophie G. Martin
@en
Sophie G. Martin
@ga
Sophie G. Martin
@it
Sophie G. Martin
@nl
Sophie G. Martin
@rm
Sophie G. Martin
@sl
Sophie G. Martin
@sq
Sophie Martin
@ca
Sophie Martin
@es
altLabel
Sophie Martin
@en
prefLabel
Sophie G. Martin
@de
Sophie G. Martin
@en
Sophie G. Martin
@ga
Sophie G. Martin
@it
Sophie G. Martin
@nl
Sophie G. Martin
@rm
Sophie G. Martin
@sl
Sophie G. Martin
@sq
Sophie Martin
@ca
Sophie Martin
@es
P214
P269
P1412
P2080
P21
P213
0000 0000 7597 0344
P214
P2381
P269
P27
P31
P496
0000-0002-5317-2557
P569
1977-10-19T00:00:00Z
P734
P735
P7859
viaf-105959970