YEAST:TOR1

Species (Taxon ID)	Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast). (559292)
Gene Name(s)	TOR1 (synonyms: DRR1)
Protein Name(s)	Serine/threonine-protein kinase TOR1 Dominant rapamycin resistance protein 1 Phosphatidylinositol kinase homolog TOR1 Target of rapamycin kinase 1
External Links
UniProt	P35169
EMBL	L19540 X74857 Z49566 L47993 BK006943
PIR	S57085
RefSeq	NP_012600.1
PDB	1W1N 2KIO 2KIT
PDBsum	1W1N 2KIO 2KIT
ProteinModelPortal	P35169
SMR	P35169
BioGrid	33823
DIP	DIP-917N
IntAct	P35169
MINT	P35169
STRING	4932.YJR066W
iPTMnet	P35169
MaxQB	P35169
PaxDb	P35169
PRIDE	P35169
EnsemblFungi	YJR066W
GeneID	853529
KEGG	sce:YJR066W
EuPathDB	FungiDB:YJR066W
SGD	S000003827
GeneTree	ENSGT00910000144231
HOGENOM	HOG000163215
InParanoid	P35169
KO	K07203
OMA	VCSLCIC
OrthoDB	EOG092C00HJ
BioCyc	YEAST:G3O-31699-MONOMER
BRENDA	2.7.1.137
EvolutionaryTrace	P35169
PRO	PR:P35169
Proteomes	UP000002311
GO	GO:0005737 GO:0010008 GO:0031234 GO:0000329 GO:0000139 GO:0005634 GO:0005886 GO:0031931 GO:0005524 GO:0044877 GO:0004672 GO:0004674 GO:0006974 GO:0034605 GO:0034599 GO:0001300 GO:0006281 GO:0031505 GO:0051321 GO:0031930 GO:0010507 GO:0044387 GO:0042790 GO:0018105 GO:0051726 GO:0001558 GO:1905356 GO:0090153 GO:0042254 GO:0031929 GO:0006413
Gene3D	1.10.1070.11 1.20.120.150 1.25.10.10
InterPro	IPR011989 IPR016024 IPR024585 IPR003152 IPR009076 IPR036738 IPR011009 IPR000403 IPR036940 IPR018936 IPR003151 IPR014009 IPR026683
PANTHER	PTHR11139:SF9
Pfam	PF11865 PF02259 PF02260 PF08771 PF00454
SMART	SM01346 SM01343 SM00146
SUPFAM	SSF47212 SSF48371 SSF56112
PROSITE	PS51189 PS51190 PS00915 PS00916 PS50290

Annotations

Qualifier	GO ID	GO term name	Reference	ECO ID	ECO term name	with/from	Aspect	Extension	Notes	Status
	GO:0006468	protein phosphorylation	PMID:18270585^[1]	ECO:0000314			P		Figure 4C shows that " Gln3-myc13p runs faster in hsf1 R206S, F256S cells compared to HSF1 cells." The TOR kinase controls the phosphorylation of HSF1. Dephosphorylated proteins run faster than phosphorylated in yeast.	complete CACAO 13282
part_of	GO:0000329	fungal-type vacuole membrane	PMID:26928762^[2]	ECO:0007005	high throughput direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:1905356	regulation of snRNA pseudouridine synthesis	PMID:27268497^[3]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000001686	P		Seeded From UniProt	complete
involved_in	GO:0044387	negative regulation of protein kinase activity by regulation of protein phosphorylation	PMID:16980405^[4]	ECO:0000315	mutant phenotype evidence used in manual assertion		P	has_input:(UniProtKB:P06782)	Seeded From UniProt	complete
involved_in	GO:0034605	cellular response to heat	PMID:27922823^[5]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000003861	P		Seeded From UniProt	complete
involved_in	GO:0034599	cellular response to oxidative stress	PMID:27922823^[5]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000003861	P		Seeded From UniProt	complete
involved_in	GO:0001300	chronological cell aging	PMID:27922823^[5]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000003861	P		Seeded From UniProt	complete
enables	GO:0004674	protein serine/threonine kinase activity	PMID:26582391^[6]	ECO:0000314	direct assay evidence used in manual assertion		F	has_direct_input:(SGD:S000000232)	Seeded From UniProt	complete
involved_in	GO:0018105	peptidyl-serine phosphorylation	PMID:26582391^[6]	ECO:0000314	direct assay evidence used in manual assertion		P	has_direct_input:(SGD:S000000232)	Seeded From UniProt	complete
part_of	GO:0000329	fungal-type vacuole membrane	PMID:25046117^[7]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0000329	fungal-type vacuole membrane	PMID:19748353^[8]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0000329	fungal-type vacuole membrane	PMID:18723607^[9]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005737	cytoplasm	PMID:18723607^[9]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0090153	regulation of sphingolipid biosynthetic process	PMID:23363605^[10]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0051726	regulation of cell cycle	PMID:8741837^[11]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0042790	nucleolar large rRNA transcription by RNA polymerase I	PMID:16900101^[12]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0042254	ribosome biogenesis	PMID:10198052^[13]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0031931	TORC1 complex	PMID:12408816^[14]	ECO:0000353	physical interaction evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0031930	mitochondria-nucleus signaling pathway	PMID:11997479^[15]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0031929	TOR signaling	PMID:12719473^[16]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0031929	TOR signaling	PMID:8186460^[17]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0031929	TOR signaling	PMID:12408816^[14]	ECO:0000305	curator inference used in manual assertion	GO:0031931	P		Seeded From UniProt	complete
involved_in	GO:0031505	fungal-type cell wall organization	PMID:14736892^[18]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0031234	extrinsic component of cytoplasmic side of plasma membrane	PMID:12631735^[19]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0010507	negative regulation of autophagy	PMID:9461583^[20]	ECO:0000316	genetic interaction evidence used in manual assertion	SGD:S000001686	P	part_of:(GO:0006995)	Seeded From UniProt	complete
part_of	GO:0010008	endosome membrane	PMID:12719473^[16]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0051321	meiotic cell cycle	PMID:9096347^[21]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0006974	cellular response to DNA damage stimulus	PMID:17698581^[22]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
involved_in	GO:0006413	translational initiation	PMID:8741837^[11]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0005886	plasma membrane	PMID:10973982^[23]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005737	cytoplasm	PMID:16900101^[12]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0005634	nucleus	PMID:16900101^[12]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
enables	GO:0004672	protein kinase activity	PMID:10329624^[24]	ECO:0000315	mutant phenotype evidence used in manual assertion		F		Seeded From UniProt	complete
involved_in	GO:0001558	regulation of cell growth	PMID:12171921^[25]	ECO:0000315	mutant phenotype evidence used in manual assertion		P		Seeded From UniProt	complete
part_of	GO:0000329	fungal-type vacuole membrane	PMID:12719473^[16]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
part_of	GO:0000139	Golgi membrane	PMID:12719473^[16]	ECO:0000314	direct assay evidence used in manual assertion		C		Seeded From UniProt	complete
involved_in	GO:0038202	TORC1 signaling	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0021796 PANTHER:PTN000124327 PomBase:SPBC216.07c UniProtKB:P42345	P		Seeded From UniProt	complete
part_of	GO:0031932	TORC2 complex	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0021796 PANTHER:PTN000124327 PomBase:SPBC30D10.10c UniProtKB:P42345 WB:WBGene00002583 dictyBase:DDB_G0281569	C		Seeded From UniProt	complete
part_of	GO:0031931	TORC1 complex	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0021796 MGI:MGI:1928394 PANTHER:PTN000124327 PomBase:SPBC216.07c RGD:68371 UniProtKB:P42345 WB:WBGene00002583	C		Seeded From UniProt	complete
involved_in	GO:0016242	negative regulation of macroautophagy	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0021796 MGI:MGI:1928394 PANTHER:PTN000124327 UniProtKB:P42345	P		Seeded From UniProt	complete
involved_in	GO:0010507	negative regulation of autophagy	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	MGI:MGI:1928394 PANTHER:PTN000124327 PomBase:SPBC216.07c RGD:68371 SGD:S000001686 SGD:S000003827 UniProtKB:P42345 UniProtKB:Q9FR53	P		Seeded From UniProt	complete
part_of	GO:0005634	nucleus	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	FB:FBgn0045035 FB:FBgn0053554 MGI:MGI:104779 MGI:MGI:1928394 PANTHER:PTN000124197 RGD:1593265 RGD:68371 SGD:S000000340 SGD:S000001141 SGD:S000003827 UniProtKB:P78527 UniProtKB:Q13315 UniProtKB:Q96Q15 UniProtKB:Q9FR53 UniProtKB:Q9Y4A5 WB:WBGene00000226 WB:WBGene00007028	C		Seeded From UniProt	complete
enables	GO:0004674	protein serine/threonine kinase activity	PMID:21873635^[26]	ECO:0000318	biological aspect of ancestor evidence used in manual assertion	MGI:MGI:1928394 PANTHER:PTN000124327 PomBase:SPBC216.07c PomBase:SPBC30D10.10c RGD:68371 SGD:S000001686 SGD:S000003827 UniProtKB:P42345	F		Seeded From UniProt	complete
enables	GO:0004674	protein serine/threonine kinase activity	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR026683	F		Seeded From UniProt	complete
enables	GO:0016301	kinase activity	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR018936 InterPro:IPR036940	F		Seeded From UniProt	complete
enables	GO:0044877	protein-containing complex binding	GO_REF:0000002	ECO:0000256	match to sequence model evidence used in automatic assertion	InterPro:IPR009076 InterPro:IPR036738	F		Seeded From UniProt	complete
enables	GO:0005524	ATP binding	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0067	F		Seeded From UniProt	complete
enables	GO:0016301	kinase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0418	F		Seeded From UniProt	complete
enables	GO:0016740	transferase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0808	F		Seeded From UniProt	complete
involved_in	GO:0007049	cell cycle	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0131	P		Seeded From UniProt	complete
part_of	GO:0005886	plasma membrane	GO_REF:0000037 GO_REF:0000039	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-1003 UniProtKB-SubCell:SL-0039	C		Seeded From UniProt	complete
enables	GO:0004674	protein serine/threonine kinase activity	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0723	F		Seeded From UniProt	complete
part_of	GO:0016020	membrane	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0472	C		Seeded From UniProt	complete
part_of	GO:0005773	vacuole	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0926	C		Seeded From UniProt	complete
involved_in	GO:0016310	phosphorylation	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0418	P		Seeded From UniProt	complete
enables	GO:0000166	nucleotide binding	GO_REF:0000037	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-KW:KW-0547	F		Seeded From UniProt	complete
part_of	GO:0005774	vacuolar membrane	GO_REF:0000039	ECO:0000322	imported manually asserted information used in automatic assertion	UniProtKB-SubCell:SL-0271	C		Seeded From UniProt	complete
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Notes

References

See Help:References for how to manage references in GONUTS.

↑ Bandhakavi, S et al. (2008) Hsf1 activation inhibits rapamycin resistance and TOR signaling in yeast revealed by combined proteomic and genetic analysis. PLoS ONE 3 e1598 PubMed GONUTS page
↑ Yofe, I et al. (2016) One library to make them all: streamlining the creation of yeast libraries via a SWAp-Tag strategy. Nat. Methods 13 371-378 PubMed GONUTS page
↑ Wu, G et al. (2016) The TOR signaling pathway regulates starvation-induced pseudouridylation of yeast U2 snRNA. RNA 22 1146-52 PubMed GONUTS page
↑ Orlova, M et al. (2006) Nitrogen availability and TOR regulate the Snf1 protein kinase in Saccharomyces cerevisiae. Eukaryotic Cell 5 1831-7 PubMed GONUTS page
↑ ^5.0 ^5.1 ^5.2 Aguilar-Lopez, JL et al. (2016) Slm35 links mitochondrial stress response and longevity through TOR signaling pathway. Aging (Albany NY) 8 3255-3271 PubMed GONUTS page
↑ ^6.0 ^6.1 Yerlikaya, S et al. (2016) TORC1 and TORC2 work together to regulate ribosomal protein S6 phosphorylation in Saccharomyces cerevisiae. Mol. Biol. Cell 27 397-409 PubMed GONUTS page
↑ Kira, S et al. (2014) Reciprocal conversion of Gtr1 and Gtr2 nucleotide-binding states by Npr2-Npr3 inactivates TORC1 and induces autophagy. Autophagy 10 1565-78 PubMed GONUTS page
↑ Binda, M et al. (2009) The Vam6 GEF controls TORC1 by activating the EGO complex. Mol. Cell 35 563-73 PubMed GONUTS page
↑ ^9.0 ^9.1 Sturgill, TW et al. (2008) TOR1 and TOR2 have distinct locations in live cells. Eukaryotic Cell 7 1819-30 PubMed GONUTS page
↑ Shimobayashi, M et al. (2013) TORC1-regulated protein kinase Npr1 phosphorylates Orm to stimulate complex sphingolipid synthesis. Mol. Biol. Cell 24 870-81 PubMed GONUTS page
↑ ^11.0 ^11.1 Barbet, NC et al. (1996) TOR controls translation initiation and early G1 progression in yeast. Mol. Biol. Cell 7 25-42 PubMed GONUTS page
↑ ^12.0 ^12.1 ^12.2 Li, H et al. (2006) Nutrient regulates Tor1 nuclear localization and association with rDNA promoter. Nature 442 1058-61 PubMed GONUTS page
↑ Powers, T & Walter, P (1999) Regulation of ribosome biogenesis by the rapamycin-sensitive TOR-signaling pathway in Saccharomyces cerevisiae. Mol. Biol. Cell 10 987-1000 PubMed GONUTS page
↑ ^14.0 ^14.1 Loewith, R et al. (2002) Two TOR complexes, only one of which is rapamycin sensitive, have distinct roles in cell growth control. Mol. Cell 10 457-68 PubMed GONUTS page
↑ Crespo, JL et al. (2002) The TOR-controlled transcription activators GLN3, RTG1, and RTG3 are regulated in response to intracellular levels of glutamine. Proc. Natl. Acad. Sci. U.S.A. 99 6784-9 PubMed GONUTS page
↑ ^16.0 ^16.1 ^16.2 ^16.3 Chen, EJ & Kaiser, CA (2003) LST8 negatively regulates amino acid biosynthesis as a component of the TOR pathway. J. Cell Biol. 161 333-47 PubMed GONUTS page
↑ Helliwell, SB et al. (1994) TOR1 and TOR2 are structurally and functionally similar but not identical phosphatidylinositol kinase homologues in yeast. Mol. Biol. Cell 5 105-18 PubMed GONUTS page
↑ Reinke, A et al. (2004) TOR complex 1 includes a novel component, Tco89p (YPL180w), and cooperates with Ssd1p to maintain cellular integrity in Saccharomyces cerevisiae. J. Biol. Chem. 279 14752-62 PubMed GONUTS page
↑ Wedaman, KP et al. (2003) Tor kinases are in distinct membrane-associated protein complexes in Saccharomyces cerevisiae. Mol. Biol. Cell 14 1204-20 PubMed GONUTS page
↑ Noda, T & Ohsumi, Y (1998) Tor, a phosphatidylinositol kinase homologue, controls autophagy in yeast. J. Biol. Chem. 273 3963-6 PubMed GONUTS page
↑ Zheng, XF & Schreiber, SL (1997) Target of rapamycin proteins and their kinase activities are required for meiosis. Proc. Natl. Acad. Sci. U.S.A. 94 3070-5 PubMed GONUTS page
↑ Shen, C et al. (2007) TOR signaling is a determinant of cell survival in response to DNA damage. Mol. Cell. Biol. 27 7007-17 PubMed GONUTS page
↑ Kunz, J et al. (2000) HEAT repeats mediate plasma membrane localization of Tor2p in yeast. J. Biol. Chem. 275 37011-20 PubMed GONUTS page
↑ Jiang, Y & Broach, JR (1999) Tor proteins and protein phosphatase 2A reciprocally regulate Tap42 in controlling cell growth in yeast. EMBO J. 18 2782-92 PubMed GONUTS page
↑ Torres, J et al. (2002) Regulation of the cell integrity pathway by rapamycin-sensitive TOR function in budding yeast. J. Biol. Chem. 277 43495-504 PubMed GONUTS page
↑ ^26.0 ^26.1 ^26.2 ^26.3 ^26.4 ^26.5 ^26.6 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page

[PMID:18270585-1] Bandhakavi, S et al. (2008) Hsf1 activation inhibits rapamycin resistance and TOR signaling in yeast revealed by combined proteomic and genetic analysis. PLoS ONE 3 e1598 PubMed GONUTS page

[PMID:26928762-2] Yofe, I et al. (2016) One library to make them all: streamlining the creation of yeast libraries via a SWAp-Tag strategy. Nat. Methods 13 371-378 PubMed GONUTS page

[PMID:27268497-3] Wu, G et al. (2016) The TOR signaling pathway regulates starvation-induced pseudouridylation of yeast U2 snRNA. RNA 22 1146-52 PubMed GONUTS page

[PMID:16980405-4] Orlova, M et al. (2006) Nitrogen availability and TOR regulate the Snf1 protein kinase in Saccharomyces cerevisiae. Eukaryotic Cell 5 1831-7 PubMed GONUTS page

[PMID:27922823-5] 5.0 ^5.1 ^5.2 Aguilar-Lopez, JL et al. (2016) Slm35 links mitochondrial stress response and longevity through TOR signaling pathway. Aging (Albany NY) 8 3255-3271 PubMed GONUTS page

[PMID:26582391-6] 6.0 ^6.1 Yerlikaya, S et al. (2016) TORC1 and TORC2 work together to regulate ribosomal protein S6 phosphorylation in Saccharomyces cerevisiae. Mol. Biol. Cell 27 397-409 PubMed GONUTS page

[PMID:25046117-7] Kira, S et al. (2014) Reciprocal conversion of Gtr1 and Gtr2 nucleotide-binding states by Npr2-Npr3 inactivates TORC1 and induces autophagy. Autophagy 10 1565-78 PubMed GONUTS page

[PMID:19748353-8] Binda, M et al. (2009) The Vam6 GEF controls TORC1 by activating the EGO complex. Mol. Cell 35 563-73 PubMed GONUTS page

[PMID:18723607-9] 9.0 ^9.1 Sturgill, TW et al. (2008) TOR1 and TOR2 have distinct locations in live cells. Eukaryotic Cell 7 1819-30 PubMed GONUTS page

[PMID:23363605-10] Shimobayashi, M et al. (2013) TORC1-regulated protein kinase Npr1 phosphorylates Orm to stimulate complex sphingolipid synthesis. Mol. Biol. Cell 24 870-81 PubMed GONUTS page

[PMID:8741837-11] 11.0 ^11.1 Barbet, NC et al. (1996) TOR controls translation initiation and early G1 progression in yeast. Mol. Biol. Cell 7 25-42 PubMed GONUTS page

[PMID:16900101-12] 12.0 ^12.1 ^12.2 Li, H et al. (2006) Nutrient regulates Tor1 nuclear localization and association with rDNA promoter. Nature 442 1058-61 PubMed GONUTS page

[PMID:10198052-13] Powers, T & Walter, P (1999) Regulation of ribosome biogenesis by the rapamycin-sensitive TOR-signaling pathway in Saccharomyces cerevisiae. Mol. Biol. Cell 10 987-1000 PubMed GONUTS page

[PMID:12408816-14] 14.0 ^14.1 Loewith, R et al. (2002) Two TOR complexes, only one of which is rapamycin sensitive, have distinct roles in cell growth control. Mol. Cell 10 457-68 PubMed GONUTS page

[PMID:11997479-15] Crespo, JL et al. (2002) The TOR-controlled transcription activators GLN3, RTG1, and RTG3 are regulated in response to intracellular levels of glutamine. Proc. Natl. Acad. Sci. U.S.A. 99 6784-9 PubMed GONUTS page

[PMID:12719473-16] 16.0 ^16.1 ^16.2 ^16.3 Chen, EJ & Kaiser, CA (2003) LST8 negatively regulates amino acid biosynthesis as a component of the TOR pathway. J. Cell Biol. 161 333-47 PubMed GONUTS page

[PMID:8186460-17] Helliwell, SB et al. (1994) TOR1 and TOR2 are structurally and functionally similar but not identical phosphatidylinositol kinase homologues in yeast. Mol. Biol. Cell 5 105-18 PubMed GONUTS page

[PMID:14736892-18] Reinke, A et al. (2004) TOR complex 1 includes a novel component, Tco89p (YPL180w), and cooperates with Ssd1p to maintain cellular integrity in Saccharomyces cerevisiae. J. Biol. Chem. 279 14752-62 PubMed GONUTS page

[PMID:12631735-19] Wedaman, KP et al. (2003) Tor kinases are in distinct membrane-associated protein complexes in Saccharomyces cerevisiae. Mol. Biol. Cell 14 1204-20 PubMed GONUTS page

[PMID:9461583-20] Noda, T & Ohsumi, Y (1998) Tor, a phosphatidylinositol kinase homologue, controls autophagy in yeast. J. Biol. Chem. 273 3963-6 PubMed GONUTS page

[PMID:9096347-21] Zheng, XF & Schreiber, SL (1997) Target of rapamycin proteins and their kinase activities are required for meiosis. Proc. Natl. Acad. Sci. U.S.A. 94 3070-5 PubMed GONUTS page

[PMID:17698581-22] Shen, C et al. (2007) TOR signaling is a determinant of cell survival in response to DNA damage. Mol. Cell. Biol. 27 7007-17 PubMed GONUTS page

[PMID:10973982-23] Kunz, J et al. (2000) HEAT repeats mediate plasma membrane localization of Tor2p in yeast. J. Biol. Chem. 275 37011-20 PubMed GONUTS page

[PMID:10329624-24] Jiang, Y & Broach, JR (1999) Tor proteins and protein phosphatase 2A reciprocally regulate Tap42 in controlling cell growth in yeast. EMBO J. 18 2782-92 PubMed GONUTS page

[PMID:12171921-25] Torres, J et al. (2002) Regulation of the cell integrity pathway by rapamycin-sensitive TOR function in budding yeast. J. Biol. Chem. 277 43495-504 PubMed GONUTS page

[PMID:21873635-26] 26.0 ^26.1 ^26.2 ^26.3 ^26.4 ^26.5 ^26.6 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page

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YEAST:TOR1

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