TOR1/YJR066W Protein Information Help

Standard Name Tor1p 1
Systematic Name Yjr066wp
Alias Drr1p 2
ORF Classification Verified
Description PIK-related protein kinase and rapamycin target; subunit of TORC1, a complex that controls growth in response to nutrients by regulating translation, transcription, ribosome biogenesis, nutrient transport and autophagy; involved in meiosis; TOR1 has a paralog, TOR2, that arose from the whole genome duplication (10, 11, 12, 13, 3, 4, 5, 6, 7, 8, 9)
Name Description Target Of Rapamycin 14, 15
Experimental Data
Molecules/cell 589 16
Predicted Sequence Formatted Sequence or sequence in FASTA format
Length (a.a.) 2,470
Molecular Weight (Da) 281,137
Isoelectric Point (pI) 7.2

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Post-translational Modifications PhosphoGRID | PhosphoPep Database
Domains/motifs See the graphical view and list of proteins that share domains/motifs in common with Tor1p (InterPro)
Physical Interactions There are 156 total physical interactions (BioGRID)
Homologs PDB Homologs | BLASTP | BLASTP v. fungi | Fungal Alignment | Synteny Viewer
External Sequence Databases EBI: UPI000013716F | P35169
MIPS: YJR066W
NCBI: 1015743 | 1019688 | 1174744 | 253723164 | 284055342 | 284055343 | 408956 | 468739 | 6322526 | NP_012600.1 | NM_001181724.1
GenBank/EMBL/DDBJ: DAA08853.1 | L19540 | L47993 | X74857 | Z49566
External Classifications EC: 2.7.1.137 [Phosphatidylinositol 3-kinase]
EC: 2.7.11.1 [Non-specific serine/threonine protein kinase]
Amino Acid Sequence (or in FASTA format)
 
       1  MEPHEEQIWK SKLLKAANND MDMDRNVPLA PNLNVNMNMK MNASRNGDEF
      51  GLTSSRFDGV VIGSNGDVNF KPILEKIFRE LTSDYKEERK LASISLFDLL
     101  VSLEHELSIE EFQAVSNDIN NKILELVHTK KTSTRVGAVL SIDTLISFYA
     151  YTERLPNETS RLAGYLRGLI PSNDVEVMRL AAKTLGKLAV PGGTYTSDFV
     201  EFEIKSCLEW LTASTEKNSF SSSKPDHAKH AALLIITALA ENCPYLLYQY
     251  LNSILDNIWR ALRDPHLVIR IDASITLAKC LSTLRNRDPQ LTSQWVQRLA
     301  TSCEYGFQVN TLECIHASLL VYKEILFLKD PFLNQVFDQM CLNCIAYENH
     351  KAKMIREKIY QIVPLLASFN PQLFAGKYLH QIMDNYLEIL TNAPANKIPH
     401  LKDDKPQILI SIGDIAYEVG PDIAPYVKQI LDYIEHDLQT KFKFRKKFEN
     451  EIFYCIGRLA VPLGPVLGKL LNRNILDLMF KCPLSDYMQE TFQILTERIP
     501  SLGPKINDEL LNLVCSTLSG TPFIQPGSPM EIPSFSRERA REWRNKNILQ
     551  KTGESNDDNN DIKIIIQAFR MLKNIKSRFS LVEFVRIVAL SYIEHTDPRV
     601  RKLAALTSCE IYVKDNICKQ TSLHSLNTVS EVLSKLLAIT IADPLQDIRL
     651  EVLKNLNPCF DPQLAQPDNL RLLFTALHDE SFNIQSVAME LVGRLSSVNP
     701  AYVIPSIRKI LLELLTKLKF STSSREKEET ASLLCTLIRS SKDVAKPYIE
     751  PLLNVLLPKF QDTSSTVAST ALRTIGELSV VGGEDMKIYL KDLFPLIIKT
     801  FQDQSNSFKR EAALKALGQL AASSGYVIDP LLDYPELLGI LVNILKTENS
     851  QNIRRQTVTL IGILGAIDPY RQKEREVTST TDISTEQNAP PIDIALLMQG
     901  MSPSNDEYYT TVVIHCLLKI LKDPSLSSYH TAVIQAIMHI FQTLGLKCVS
     951  FLDQIIPTIL DVMRTCSQSL LEFYFQQLCS LIIIVRQHIR PHVDSIFQAI
    1001  KDFSSVAKLQ ITLVSVIEAI SKALEGEFKR LVPLTLTLFL VILENDKSSD
    1051  KVLSRRVLRL LESFGPNLEG YSHLITPKIV QMAEFTSGNL QRSAIITIGK
    1101  LAKDVDLFEM SSRIVHSLLR VLSSTTSDEL SKVIMNTLSL LLIQMGTSFA
    1151  IFIPVINEVL MKKHIQHTIY DDLTNRILNN DVLPTKILEA NTTDYKPAEQ
    1201  MEAADAGVAK LPINQSVLKS AWNSSQQRTK EDWQEWSKRL SIQLLKESPS
    1251  HALRACSNLA SMYYPLAKEL FNTAFACVWT ELYSQYQEDL IGSLCIALSS
    1301  PLNPPEIHQT LLNLVEFMEH DDKALPIPTQ SLGEYAERCH AYAKALHYKE
    1351  IKFIKEPENS TIESLISINN QLNQTDAAIG ILKHAQQHHS LQLKETWFEK
    1401  LERWEDALHA YNEREKAGDT SVSVTLGKMR SLHALGEWEQ LSQLAARKWK
    1451  VSKLQTKKLI APLAAGAAWG LGEWDMLEQY ISVMKPKSPD KEFFDAILYL
    1501  HKNDYDNASK HILNARDLLV TEISALINES YNRAYSVIVR TQIITEFEEI
    1551  IKYKQLPPNS EKKLHYQNLW TKRLLGCQKN VDLWQRVLRV RSLVIKPKQD
    1601  LQIWIKFANL CRKSGRMRLA NKALNMLLEG GNDPSLPNTF KAPPPVVYAQ
    1651  LKYIWATGAY KEALNHLIGF TSRLAHDLGL DPNNMIAQSV KLSSASTAPY
    1701  VEEYTKLLAR CFLKQGEWRI ATQPNWRNTN PDAILGSYLL ATHFDKNWYK
    1751  AWHNWALANF EVISMVQEET KLNGGKNDDD DDTAVNNDNV RIDGSILGSG
    1801  SLTINGNRYP LELIQRHVVP AIKGFFHSIS LLETSCLQDT LRLLTLLFNF
    1851  GGIKEVSQAM YEGFNLMKIE NWLEVLPQLI SRIHQPDPTV SNSLLSLLSD
    1901  LGKAHPQALV YPLTVAIKSE SVSRQKAALS IIEKIRIHSP VLVNQAELVS
    1951  HELIRVAVLW HELWYEGLED ASRQFFVEHN IEKMFSTLEP LHKHLGNEPQ
    2001  TLSEVSFQKS FGRDLNDAYE WLNNYKKSKD INNLNQAWDI YYNVFRKITR
    2051  QIPQLQTLDL QHVSPQLLAT HDLELAVPGT YFPGKPTIRI AKFEPLFSVI
    2101  SSKQRPRKFS IKGSDGKDYK YVLKGHEDIR QDSLVMQLFG LVNTLLKNDS
    2151  ECFKRHLDIQ QYPAIPLSPK SGLLGWVPNS DTFHVLIREH RDAKKIPLNI
    2201  EHWVMLQMAP DYENLTLLQK IEVFTYALDN TKGQDLYKIL WLKSRSSETW
    2251  LERRTTYTRS LAVMSMTGYI LGLGDRHPSN LMLDRITGKV IHIDFGDCFE
    2301  AAILREKYPE KVPFRLTRML TYAMEVSGIE GSFRITCENV MRVLRDNKES
    2351  LMAILEAFAL DPLIHWGFDL PPQKLTEQTG IPLPLINPSE LLRKGAITVE
    2401  EAANMEAEQQ NETKNARAML VLRRITDKLT GNDIKRFNEL DVPEQVDKLI
    2451  QQATSIERLC QHYIGWCPFW *

external links for Tor1p
Homologs Interaction Resources Protein databases/Other Localization Resources
BLASTP (NCBI) BioGRID SCOP Superfamily YPL+
Ashbya (AGD) BOND GPMdb (Mass Spec.) YeastGFP
YGOB BioPIXIE MIPS
YOGY CYC2008 (complexes) Pfam domains

Complexome YeastRC Structure Prediction (Seattle)

DIP


GeneMANIA

References cited on this page View Complete Literature Guide for Tor1p
1) Hall, M.  (1993) Personal Communication, Mortimer Map Edition 12
2) Cafferkey R, et al.  (1993) Dominant missense mutations in a novel yeast protein related to mammalian phosphatidylinositol 3-kinase and VPS34 abrogate rapamycin cytotoxicity. Mol Cell Biol 13(10):6012-23
3) Zheng XF and Schreiber SL  (1997) Target of rapamycin proteins and their kinase activities are required for meiosis. Proc Natl Acad Sci U S A 94(7):3070-5
4) Kamada Y, et al.  (2000) Tor-mediated induction of autophagy via an Apg1 protein kinase complex. J Cell Biol 150(6):1507-13
5) Beck T and Hall MN  (1999) The TOR signalling pathway controls nuclear localization of nutrient-regulated transcription factors. Nature 402(6762):689-92
6) Barbet NC, et al.  (1996) TOR controls translation initiation and early G1 progression in yeast. Mol Biol Cell 7(1):25-42
7) Powers T and Walter P  (1999) Regulation of ribosome biogenesis by the rapamycin-sensitive TOR-signaling pathway in Saccharomyces cerevisiae. Mol Biol Cell 10(4):987-1000
8) Cardenas ME, et al.  (1999) The TOR signaling cascade regulates gene expression in response to nutrients. Genes Dev 13(24):3271-9
9) 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(3):457-68
10) Torres J, et al.  (2002) Regulation of the cell integrity pathway by rapamycin-sensitive TOR function in budding yeast. J Biol Chem 277(45):43495-504
11) Lorberg A and Hall MN  (2004) TOR: the first 10 years. Curr Top Microbiol Immunol 279():1-18
12) Martin DE, et al.  (2004) TOR regulates ribosomal protein gene expression via PKA and the Forkhead transcription factor FHL1. Cell 119(7):969-79
13) Byrne KP and Wolfe KH  (2005) The Yeast Gene Order Browser: combining curated homology and syntenic context reveals gene fate in polyploid species. Genome Res 15(10):1456-61
14) Kunz J, et al.  (1993) Target of rapamycin in yeast, TOR2, is an essential phosphatidylinositol kinase homolog required for G1 progression. Cell 73(3):585-96
15) Heitman J, et al.  (1991) Targets for cell cycle arrest by the immunosuppressant rapamycin in yeast. Science 253(5022):905-9
16) Ghaemmaghami S, et al.  (2003) Global analysis of protein expression in yeast. Nature 425(6959):737-41