| Entry |
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| Definition |
hypothetical protein
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| Orthology |
| regulatory associated protein of mTOR |
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| Organism |
pgu Meyerozyma guilliermondii
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| Class |
|
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| SSDB |
   |
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| Motif |
 |
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| Other DBs |
NCBI-GI: NCBI-GeneID: UniProt: |
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| AA seq |
1402 aa  
MSQVFGPAPLQPLNEKMRHGFEEDYNSENFLNLLANSFYIYFDDKRHNATGNPIPDELKM
DPAHYKTYQPIHDWKVMKERQKTISAVLVLCLNLGVDPPDIMKTYPCAKYEAWCDPSLFP
DTKKAIESIGKNLQAQYETLSLRTRYKQSLDPCVEDVKRFCNTLRRNAKDERILFHYNGH
GVPQPTASGEIWVFNRGYTQYIPISLYDLQTWIGAPVIFVYDCNSAGNIVHNFKKFVQKR
IDDDNEGNHDMSAPSPTSAFLDSIQLAACKSNELLPMSPELPADLFSCCLTCPIDISIKW
FILQSPLKKNYYSLLPKNSVGNAIIPGKLTDRRTPLGELNWIFTAITDTIAWTTLSRPIF
KRLFRQDLMVAALFRNFLLAKRIMPHLNCNPISDPPLPDSVRHHPMWDSWDLAIDQVCAQ
LIRDDPEHKHKPVISDPIAPISANDNASGQANQIPGQPGYVNLPNYQHSTFFEQQLTAFE
IWLKFAGPSTKEPPEQLPIVLQVLLSQVHRLRALILLSKFLDLGPWAVYLSLSIGIFPYV
LKLLQSPAQELKPVLIFIWARIMAIDHKSTQQELCKDKGYNYFYLILNSSPGNLNGPVGA
PGGYSNTNILINDDHKAMSAFILTLFIKDFKNGQRLSFSVELIHNCLKFISTSENPLLRQ
WCCLLLSQLWNNYPDGKWINYKDGYLNKLLLMVNDPIPEVRTSVILALTTFLSDVDGESL
PQGSMNAALRKDELKQQDLKLANTILGLLGDGSPMVRKEIIFFIRKFINIYSKFFLVVSF
NQLEEEIVLIDNPNELNEFRKKSPAYGLIFSSIWKALLILTEDPHPEIKQLAEILVDQIM
LQLNKSELGQLVREMEEYLLSKSTLNMSQTFGQGAPSKPIINRQLNGDGRRQVSSGSTLQ
RNSSMQRNNNVLKITSRPRSVSTNNMEDSNHSDSDSVSSKLKNFSIAKLFKSLHISEETD
LKNFSRMLSSGPITSNYGAEYKPKSARFKPRDLTKEPKLPDESGFFQYSCEYFQEPQMSK
NEIDEPGSEEYVKRIWRRNRNESIIQETQPQKTMALRGDWNKNIRVMNNKSQPRLIKFTQ
FEKLLVACDDKDNMSVWDWEDCKLVKKFSNENPFGTKITDIKFLNEDDLPLVLTGSSDGV
VKIYKNFHLEDEQIELVASWRALTDLLLTSKSTGLVSDWQQSRGSLLVSGDVKIIRVWDA
PRELCLADIPARSSSSITSLTSDQVTGNLFVAGFDDGSVRVYDRRLDSRESMVRVWNGAK
AQPGVSSRRRYGHGSIRNTRMQRGGLRELVTGSSDGYVNLWDIRESEPVLTFTNEPEKSM
RCIDVHEHAPVITTGSKSVSLWSTSGDMVSVLKNPHESLLTNRTASYLTGTTFHPHRMML
ATNYNQDGHINVYSCSDIIQEY |
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| NT seq |
4209 nt  +upstreamnt +downstreamnt
atgtcgcaagtgttcgggcccgctcctttgcagcccttgaacgagaagatgcggcatggt
ttcgaggaagactacaactcagaaaactttctcaatctcctagccaactcgttctacatt
tattttgatgataaacgtcataatgctacgggcaatccgattcccgacgaattgaaaatg
gacccagctcactataaaacctaccagcccatccacgactggaaagtgatgaaggagcgc
cagaaaaccatcagtgctgttcttgttctttgtttgaacttgggtgtggatcctccagat
atcatgaagacttatccatgtgccaagtacgaggcttggtgtgacccgtcactctttccc
gatacgaaaaaagccatcgagtccattgggaaaaacctccaggcgcaatatgagacgcta
tctcttcgtactcgttataagcaatctctcgatccatgtgtcgaagacgtcaaaagattc
tgcaatactcttcgaagaaatgccaaagacgaacgaatattgttccattacaacggtcat
ggtgttccccaaccgacggcttcaggagaaatctgggtcttcaacagaggctatactcag
tacattcccatctctttatacgatcttcaaacctggataggtgctccagttatattcgtc
tacgattgtaacagtgctggaaacattgtccacaacttcaaaaagtttgtccagaagaga
atcgacgacgataacgagggaaaccacgatatgagtgctccgtctccaacgtctgcattt
ctcgatagcatccaacttgcagcatgtaaaagcaatgaacttcttcccatgagtcctgag
cttcccgcagacttgttttcgtgctgcttgacctgtcccatcgacattagcatcaaatgg
ttcattttgcaatcaccattgaagaaaaactactactcgcttctccccaaaaattcagtg
ggaaacgccataattcccggaaaattgaccgatagacgtacaccattgggagaactcaac
tggatcttcacagctataaccgacacaattgcttggaccacactttctcgtcccatattc
aaaagattgtttcgacaagatttgatggtggctgcactcttcagaaatttcttgctagcc
aagagaattatgccccacctcaactgcaaccccatcagtgatcccccgttgccagatagc
gttaggcaccaccctatgtgggactcgtgggacttggcgatcgaccaagtgtgtgcccag
ttgatcagagacgatccagaacataagcacaaaccggtaatttccgacccaattgcaccc
ataagtgccaatgacaatgccagcggccaagccaatcagattcctggccaaccaggctac
gtcaatttacccaattatcagcattccacgttctttgagcagcaacttacagcctttgaa
atatggctaaagtttgccggtccttcaaccaaagagcctccagaacaattgcccatcgtg
ctccaagtgctactttctcaagtgcatcgtttgagagctttgatattgttgtcgaaattt
ctcgacttgggcccttgggccgtatatctttctctctcgattggaatttttccatatgtt
ctcaagttgcttcaaagtcccgcccaggaattgaagcctgttctcatctttatttgggcc
cgaataatggcaattgaccacaagagcacccagcaggaactctgcaaggacaaaggatac
aactatttttacctcattttaaactccagtccggggaatctgaacggtccagtgggcgca
ccaggaggctattcgaacaccaatatcttgataaatgacgaccataaagccatgagtgct
ttcatcttaacgctattcatcaaagacttcaaaaatggtcagcggttatcgttctccgtt
gagcttattcacaattgtctaaagttcatttccacgagcgagaaccctttgttaagacaa
tggtgctgtttgcttttatctcagctctggaacaactatcccgatggaaaatggatcaac
tataaagatggctaccttaacaaattgcttttgatggttaatgatcctattcctgaggtt
cgtacgtctgtcattctcgccttgaccacgttcttgagcgacgtagacggcgagtctctg
ccacaaggaagcatgaatgctgctttgcggaaagacgaattgaagcagcaagatcttaag
ctcgccaacaccattttaggactacttggagacggctctccaatggtacgcaaggagatc
attttcttcattcgcaagtttatcaacatctactcaaagttctttttggttgtgtctttc
aatcagcttgaagaagaaattgtgttgatcgacaaccccaatgaacttaatgagttccgg
aaaaagtctccagcatacggtctgattttctcgtcgatctggaaagcgttgctcattctt
actgaggacccccatcctgaaatcaagcagctagcagagattctcgtggatcaaatcatg
ctccagttgaacaaaagtgagcttggccaattggtccgtgaaatggaagagtatttgttg
agcaaatccacccttaatatgagccaaacttttggacaaggtgcaccttcgaaacccata
attaatcgccaattgaatggtgacggaagacgtcaagtttccagcggatcaaccctccag
cgcaacagcagcatgcaaagaaacaataatgttctcaagatcacttccagacctcgatct
gtgtccaccaacaacatggaagactccaaccattccgactccgactctgtatcttctaag
ctcaaaaacttttcaatagccaaattgttcaagtcgcttcatatttctgaggaaactgac
ctcaagaacttttccaggatgttgagttcaggacccatcaccagcaattatggagcagag
tacaagcccaagagcgctcgtttcaagcccagagacttgacgaaggagcccaagcttcct
gacgagtccggattcttccagtacagctgtgagtatttccaggagccgcaaatgtccaaa
aatgaaatcgacgagcctgggtctgaagagtacgtgaagcgcatttggcgcagaaacaga
aacgagtctatcatccaggaaacccaaccgcaaaagacaatggcattgcgtggagattgg
aacaaaaatatccgagtgatgaacaacaagagccagcctcggttaatcaaattcacccag
ttcgaaaagctcttggttgcctgtgatgacaaggacaatatgtcggtgtgggactgggaa
gactgtaagctggtgaagaagttttccaatgaaaatccttttggaaccaaaatcaccgat
atcaagtttctcaacgaggacgatcttccgctcgttctcaccggttcttctgatggagtg
gtgaagatatacaaaaatttccacctcgaggatgaacagatcgagttggtggcttcatgg
cgagcattgacagaccttcttttgacgtcgaaaagcacaggacttgtttcggactggcag
caatctcgagggtcgttgctcgttagtggagatgtgaaaatcattcgggtttgggatgcg
ccccgtgagctttgcctagcggatattcctgctcgttcgtcgtcttccatcacctcgttg
acctcggaccaagtcacaggaaacttatttgttgctgggttcgacgacggttcggtgaga
gtttacgaccgaagattggattcgcgagagtcgatggtgagggtgtggaacggagccaag
gcacaacccggtgtttcttctcgccgcaggtatggccatggaagtatcaggaacaccaga
atgcaaagaggtggacttcgtgaattggtaacgggttcttccgatggatacgtgaatcta
tgggacatcagagaaagtgaaccagtgcttacttttaccaacgaacccgaaaagtctatg
cggtgcatcgacgttcatgaacatgctccagtgataactaccgggtccaaatctgtgagc
ctttggagcacttctggcgatatggtttctgtgttgaaaaatccacacgaatcgcttttg
accaatcgaaccgccagctatttgaccggcaccacgttccatcctcaccggatgatgttg
gcgacgaactataaccaggatggacatataaatgtgtactcgtgctcggacatcatacag
gagtattaa |
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