Module number 152




Database revision : gnsdb28.10
Date : Tue Feb 25 17:26:24 2003
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mKRE23:Killer toxin REsistant,,Null mutant is K1 killer toxin resis\ntent\n mYDR215C:Unknown ,, Unknown\n mYLR124W:Unknown ,, Unknown\n Cond589:cdc15_240\n Cond871:yhe710-ss\n Cond907:(83i1)_S150-2B_YPGL_NormInt\n mYPL197C:Unknown ,, Unknown\n mSIA1:Unknown ,, Unknown\n mYPL141C:Unknown ,, Unknown\n mYOR364W:Unknown ,, Unknown\n mYDR344C:Unknown ,, Unknown\n mBUD3:cell cycle regulated protein required for axial bud formatio\nn; co-assembles with Bud4p at bud sites,,Null mutant is viab\nle; bipolar budding pattern in all cell types\n COMP.KO:Functional classification via a compendium of knockouts. Hug\nes et.al., cell 2000.\n mYOR366W:Unknown ,, Unknown\n mHPA2:Histone and other Protein Acetyltransferase; Has sequence ho\nmology to known HATs and NATs,histone acetyltransferase,Null\n mutant is viable and does not show any detectable phenotype\n GCR1.gcr1:Understanding the growth phenotype of the yeast gcr1 mutant \nin terms of global genomic expression patterns. J Bacteriol\n. 2000 Sep;182(17):4970-8.\n mYER097W:Unknown ,, Unknown\n mYHL005C:Unknown ,, Unknown\n mFDH2:Unknown ,, Unknown\n mYJL182C:Unknown ,, Unknown\n mYPR091C:Unknown ,, Unknown\n mYDR535C:Unknown ,, Unknown\n Cond220:yer071c\n mUBP16:putative deubiquitinating enzyme,deubiquitinating enzyme (pu\ntative),\n SGD.GO:Functional classification via a compendium of knockouts. Hug\nes et.al., cell 2000.\n mYGL144C:Unknown ,, Unknown\n mBFA1:Byr four alike,,Null mutant is viable; mutants are sensitive\n to microtubule inhibitors, exhibit defects in mitotic check\npoints, and exhibit moderate defects in mating efficiency\n mYCL048W:Unknown ,, Unknown\n mYOR314W:Unknown ,, Unknown\n mSPO13:Spo13 acts as a transcriptional activator in a one-hybrid as\nsay (see Henninger et al (1996) SPO13 and control of meiotic\n chromosome segregation in Saccharomyces cerevisiae),,Null m\nutant is viable, defective for sporulation; loss of function\n results in a single division during meiosis (with some chro\nmosomes segregating reductionally or aberrantly depending on\n strain background), occurring slightly earlier or at the ti\nme of wild type meiosis I, and dyad asci containing two dipl\noid spores. spo13 rescues the meiotic lethality of early Rec\n- mutants and Rec+ haploids. Gain of function causes a CDC28\n-dependent arrest at M-phase in mitosis and a delay in MI nu\ncleardivision.\n mYOR325W:Unknown ,, Unknown\n mYLL059C:Unknown ,, Unknown\n mRNY1:RiboNuclease from Yeast,ribonuclease, T2 family,\n mYMR326C:Unknown ,, Unknown\n mYDR250C:Unknown ,, Unknown\n Cond:\n mMF(ALPHA)2:alpha mating factor,alpha mating factor,Null mutant is viabl\ne.\n mYGL198W:Unknown ,, Unknown\n mYLR125W:Unknown ,, Unknown\n mYFL015C:Unknown ,, Unknown\n mYGR022C:Unknown ,, Unknown\n mYOL047C:Unknown ,, Unknown\n mYLR122C:Unknown ,, Unknown\n mCWP2:major constituent of the cell wall containing GPI-anchor, pl\nays a role in stabilizing the cell wall, low pH resistance p\nrotein,cell wall mannoprotein,Null mutant is viable, display\ns increased sensitivity to Congo red, calcofluor white, and \nZymolyase\n mYIL086C:Unknown ,, Unknown\n mYOR376W:Unknown ,, Unknown\n mHXT10:high-affinity hexose transporter,high affinity hexose transp\norter,\n mYOL085C:Unknown ,, Unknown\n Cell Cycle.cdc15:Comprehensive identification of cell cycle-regulated genes o\nf the yeast Saccharomyces cerevisiae by microarray hybridiza\ntion. Mol Biol Cell. 1998 Dec;9(12):3273-97.\n TorRama.Series0:Partitioning the transcriptional program induced by rapamyci\nn among the effectors of the Tor proteins. Curr Biol. 2000 D\nec 14-28;10(24):1574-81\n mAGA2:adhesion subunit of a-agglutinin,a-agglutinin adhesion subun\nit,Null mutant is viable and shows mating defect\n mYLR169W:Unknown ,, Unknown\n mYDR269C:Unknown ,, Unknown\n mERV29:ER Vesicle protein of 29 kDa (apparent MW),ER-Golgi transpor\nt vesicle protein,Null mutant is viable.\n mYOR055W:Unknown ,, Unknown\n mYIL025C:Unknown ,, Unknown\n mSPR1:Sporulation regulated genes,exo-1,3-beta-glucanase, sporulat\nion-specific,Fail to hydrolyze p-nitrophenyl-beta-D-glucanas\ne or laminarin; mutant spores exhibit reduced thermoresistan\nce\n
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Computational Genomics Lab, Tel-Aviv uniresity