Saccharomyces cerevisiae

69 known processes

TEM1 (YML064C)

Tem1p

TEM1 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
single organism cellular localizationGO:19025803750.631
organelle fissionGO:00482852720.625
mitotic cell cycle processGO:19030472940.536
Fly
mitotic nuclear divisionGO:00070671310.494
nuclear divisionGO:00002802630.439
mitotic cell cycleGO:00002783060.422
Fly
regulation of mitotic cell cycleGO:00073461070.296
regulation of organelle organizationGO:00330432430.244
organelle localizationGO:00516401280.208
developmental processGO:00325022610.185
Mouse
regulation of mitosisGO:0007088650.177
exit from mitosisGO:0010458370.150
microtubule cytoskeleton organizationGO:00002261090.142
regulation of exit from mitosisGO:0007096290.136
regulation of cellular component organizationGO:00511283340.116
organic acid metabolic processGO:00060823520.098
cytoskeleton organizationGO:00070102300.095
negative regulation of cell divisionGO:0051782660.092
conjugationGO:00007461070.084
protein localization to organelleGO:00333653370.068
Human Rat
cell communicationGO:00071543450.057
chromosome segregationGO:00070591590.053
establishment of protein localizationGO:00451843670.048
protein phosphorylationGO:00064681970.048
protein modification by small protein conjugation or removalGO:00706471720.042
growthGO:00400071570.041
protein transportGO:00150313450.039
regulation of cell cycle processGO:00105641500.038
regulation of cell communicationGO:00106461240.038
regulation of biological qualityGO:00650083910.036
spindle organizationGO:0007051370.036
dna recombinationGO:00063101720.034
microtubule organizing center organizationGO:0031023330.033
cellular response to nutrient levelsGO:00316691440.032
single organism carbohydrate metabolic processGO:00447232370.032
regulation of phosphorylationGO:0042325860.032
negative regulation of macromolecule metabolic processGO:00106053750.032
hexose metabolic processGO:0019318780.031
carbohydrate biosynthetic processGO:0016051820.031
regulation of protein modification processGO:00313991100.028
regulation of protein metabolic processGO:00512462370.027
establishment of protein localization to organelleGO:00725942780.027
regulation of dna replicationGO:0006275510.027
regulation of protein phosphorylationGO:0001932750.027
regulation of cell cycleGO:00517261950.026
positive regulation of protein modification processGO:0031401490.026
organelle assemblyGO:00709251180.025
spindle checkpointGO:0031577350.025
positive regulation of cellular component organizationGO:00511301160.025
positive regulation of macromolecule metabolic processGO:00106043940.024
conjugation with cellular fusionGO:00007471060.024
intracellular protein transportGO:00068863190.024
homeostatic processGO:00425922270.024
positive regulation of protein phosphorylationGO:0001934280.024
small molecule biosynthetic processGO:00442832580.024
filamentous growthGO:00304471240.023
regulation of intracellular signal transductionGO:1902531780.022
cell cycle phase transitionGO:00447701440.022
response to chemicalGO:00422213900.021
Rat
mitotic spindle checkpointGO:0071174340.021
oxoacid metabolic processGO:00434363510.021
negative regulation of molecular functionGO:0044092680.020
reproductive processGO:00224142480.020
response to nutrient levelsGO:00316671500.020
protein complex assemblyGO:00064613020.020
microtubule based processGO:00070171170.020
regulation of cellular component biogenesisGO:00440871120.020
regulation of cell cycle phase transitionGO:1901987700.020
negative regulation of cell cycle processGO:0010948860.020
positive regulation of catalytic activityGO:00430851780.020
positive regulation of molecular functionGO:00440931850.019
regulation of nuclear divisionGO:00517831030.018
sister chromatid segregationGO:0000819930.018
ribonucleoprotein complex assemblyGO:00226181430.018
regulation of microtubule based processGO:0032886320.018
negative regulation of protein metabolic processGO:0051248850.018
single organism developmental processGO:00447672580.017
Mouse
monosaccharide metabolic processGO:0005996830.017
negative regulation of exit from mitosisGO:0001100160.017
negative regulation of cell cycle phase transitionGO:1901988590.017
spindle pole body organizationGO:0051300330.016
regulation of transferase activityGO:0051338830.016
negative regulation of cellular metabolic processGO:00313244070.016
regulation of catalytic activityGO:00507903070.016
sexual reproductionGO:00199532160.016
regulation of molecular functionGO:00650093200.016
cellular amine metabolic processGO:0044106510.015
regulation of response to stimulusGO:00485831570.015
carboxylic acid metabolic processGO:00197523380.015
positive regulation of nitrogen compound metabolic processGO:00511734120.015
establishment of organelle localizationGO:0051656960.014
carbohydrate metabolic processGO:00059752520.014
macromolecule catabolic processGO:00090573830.014
mitotic cell cycle checkpointGO:0007093560.013
invasive filamentous growthGO:0036267650.013
negative regulation of mitotic cell cycle phase transitionGO:1901991570.013
dna replicationGO:00062601470.013
meiosis iGO:0007127920.013
protein targetingGO:00066052720.012
negative regulation of mitotic cell cycleGO:0045930630.012
regulation of signal transductionGO:00099661140.012
mitotic spindle orientation checkpointGO:0031578100.012
protein ubiquitinationGO:00165671180.011
multi organism reproductive processGO:00447032160.011
single organism catabolic processGO:00447126190.011
cellular macromolecule catabolic processGO:00442653630.011
negative regulation of cellular protein metabolic processGO:0032269850.011
mitotic spindle organizationGO:0007052300.011
filamentous growth of a population of unicellular organismsGO:00441821090.010
posttranscriptional regulation of gene expressionGO:00106081150.010
cellular protein complex assemblyGO:00436232090.010
negative regulation of cell cycleGO:0045786910.010
regulation of kinase activityGO:0043549710.010

TEM1 disease predictions

Disease predictions are made from cross-annotation of human disease genes to the identified functional analogs in yeast and predicted with the yeast functional network.

DiseaseDO term IDSizeProbabilityFunc Analog Org