about
Identification of a mutation causing a defective spindle assembly checkpoint in high ethyl caproate-producing sake yeast strain K1801.Mal3, the fission yeast EB1 homologue, cooperates with Bub1 spindle checkpoint to prevent monopolar attachmentCasein kinase 1γ ensures monopolar growth polarity under incomplete DNA replication downstream of Cds1 and calcineurin in fission yeast.Search for kinases related to transition of growth polarity in fission yeast.Fission yeast MO25 protein is localized at SPB and septum and is essential for cell morphogenesis.The mitosis-to-interphase transition is coordinated by cross talk between the SIN and MOR pathways in Schizosaccharomyces pombe.Fission yeast germinal center (GC) kinase Ppk11 interacts with Pmo25 and plays an auxiliary role in concert with the morphogenesis Orb6 network (MOR) in cell morphogenesis.Screening for a gene deletion mutant whose temperature sensitivity is suppressed by FK506 in budding yeast and its application for a positive screening for drugs inhibiting calcineurin.A systematic genomic screen implicates nucleocytoplasmic transport and membrane growth in nuclear size control.Casein kinase 1γ acts as a molecular switch for cell polarization through phosphorylation of the polarity factor Tea1 in fission yeastSpatial control of translation repression and polarized growth by conserved NDR kinase Orb6 and RNA-binding protein Sts5Stimulating S-adenosyl-l-methionine synthesis extends lifespan via activation of AMPKImplication of Ca2+ in the regulation of replicative life span of budding yeast.Sake lees fermented with lactic acid bacteria prevents allergic rhinitis-like symptoms and IgE-mediated basophil degranulation.Ras/cAMP-dependent protein kinase (PKA) regulates multiple aspects of cellular events by phosphorylating the Whi3 cell cycle regulator in budding yeast.The essential function of Rrs1 in ribosome biogenesis is conserved in budding and fission yeasts.Isolation of a non-urea-producing sake yeast strain carrying a discriminable molecular marker.Effect of ethanol on cell growth of budding yeast: genes that are important for cell growth in the presence of ethanol.A microtubule polymerase cooperates with the kinesin-6 motor and a microtubule cross-linker to promote bipolar spindle assembly in the absence of kinesin-5 and kinesin-14 in fission yeast.Identification of three signaling molecules required for calcineurin-dependent monopolar growth induced by the DNA replication checkpoint in fission yeast.Calcineurin ensures a link between the DNA replication checkpoint and microtubule-dependent polarized growth.A method for Pmo25-associated kinase assay in fission yeast: the activity is dependent on two gC kinases Nak1 and Sid1.Fission yeast leucine-rich repeat protein Lrp1 is essential for cell morphogenesis as a component of the morphogenesis Orb6 network (MOR).Elutriation for Cell Cycle Synchronization in Fission Yeast.Isolation of a spontaneous cerulenin-resistant sake yeast with both high ethyl caproate-producing ability and normal checkpoint integrity.Nuclear membrane protein Lem2 regulates nuclear size through membrane flowLate-maturing cooking rice Sensyuraku has excellent properties, equivalent to sake rice, for high-quality sake brewingPolishing properties of sake rice Koshitanrei for high-quality sake brewingEvidence of antagonistic regulation of restart from G(1) delay in response to osmotic stress by the Hog1 and Whi3 in budding yeastSKO1 deficiency extends chronological lifespan in Saccharomyces cerevisiae
P50
Q27935018-5F68DD99-29AD-48E3-883A-76CF415EE86EQ30476828-F1ED6EFD-ADC3-4645-B824-2A0B2DC95AB4Q30636315-FC624976-D698-458B-8737-542C125442AFQ33587197-83463DD7-5DB4-4FA1-8C6E-33888C48A676Q33947139-AE7C2DD3-90D1-4771-81FA-4CCADA439572Q34110963-01D8A306-D384-434B-8BC4-68E2F36C2C2DQ34251514-901F0D63-3268-4A50-A6F7-FEB97CD303A8Q35547694-12DD91E4-9803-4C52-B0E1-C6608C25217DQ36381450-C8925846-858A-4557-B207-5039F4A47F9DQ36533340-6B4EAF65-CABD-4CE1-8091-CAF10294A881Q37232254-9E8DB886-2ADA-4677-8DD0-B3016E199A20Q37369405-C9FD41FF-18BC-4751-B1DE-05971C22DB37Q38672691-6351C744-1BFC-43FF-9FEB-A11F54D7302CQ39608581-4763B1CB-FF68-4963-8149-7B6FA158B340Q39795078-706A1AEF-F49E-4294-89BF-80B4919873ACQ40785194-D608F093-CC82-4A9B-8A9F-117AAAB1907EQ43989842-3259580D-AD99-4E46-925B-83805E61D029Q44876054-9278716D-2F8B-43AF-9AD2-3B522C3A642FQ46363030-C5FD62D2-2214-40CF-8C39-FA03BCA0176DQ48019599-00B3AD0E-62F2-49E1-975A-F2F280B688A3Q50526407-E7E95870-8193-447D-A49B-ED91A1894D98Q50695929-82925F0D-571F-4697-8D95-48528DC7F794Q51015648-341AC1F2-2D80-46D9-A8E3-1403ED51752FQ52925947-399D0B59-CEF8-4CDA-9988-DC51F0982D17Q52957887-F69FF617-C0CA-4937-8D2B-439F97119070Q64097799-E99FDE5A-C4A4-409F-9092-06362EE8D55FQ85887114-5F2436E1-F906-4F7E-9F7D-E4F1A2A0AF41Q86476981-B74FAAF1-4462-4149-AE36-3DBC00D2731EQ86476992-9006D5C4-95A8-491A-A02D-334CC5197EB6Q91193523-BCBAD6CA-CBC2-4009-909E-9FC3431E1A93
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Kazunori Kume
@ast
Kazunori Kume
@en
Kazunori Kume
@es
Kazunori Kume
@nl
type
label
Kazunori Kume
@ast
Kazunori Kume
@en
Kazunori Kume
@es
Kazunori Kume
@nl
prefLabel
Kazunori Kume
@ast
Kazunori Kume
@en
Kazunori Kume
@es
Kazunori Kume
@nl
P1053
T-4061-2018
P106
P31
P496
0000-0002-0613-8081