Entry |
|
Name |
(RefSeq) nucleolar GTP-binding protein
|
KO |
K06943 | nucleolar GTP-binding protein |
|
Organism |
tet Tetrahymena thermophila
|
Pathway |
tet03008 | Ribosome biogenesis in eukaryotes |
|
Brite |
KEGG Orthology (KO) [BR:tet00001]
09120 Genetic Information Processing
09122 Translation
03008 Ribosome biogenesis in eukaryotes
TTHERM_00242500
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03009 Ribosome biogenesis [BR:tet03009]
TTHERM_00242500
Ribosome biogenesis [BR:tet03009]
Eukaryotic type
Pre-60S particles
GTPases
TTHERM_00242500
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
AA seq |
654 aa
MQYIFKGIKTIPASKDMINIVLSKTQRKTPTVVHPGYSIGRIRGFYMRKIKFTQDTMHEK
FNDILNGFPKLDDIHPFFADLFNVLYDKDHYKLALGHVHSCMNLVDNICTDYVRLIKYGD
SLYRCKQLKKACLGRICTIIKKLNSSLNYLEEVRKHLARLPSVNPFERTLMITGYPNVGK
SSFINQITKANVEVQSYPFTTQSLYVGHTEYQNVRWQVIDSPGILDHPLEQRNTIEMQSI
TALAHLKACILFFIDLSEQCSYSIEQQVSLFNSIKPLFKNKPLCIVLSKCDLKSFEDLSQ
ENKDILNSLAKDQNVSLLQMSNKTGEGIENLKVQACETLLKHRDGQKIEQLSGGNQILKR
EEEVLRGLHVAKPTKVRDSNVVRAPVIPQTVKSGIKNEKPTLKEIQEEHGGAGVFNFPLQ
EHFDLANPEWKYDAIPEIMDGKNIADYVDPDILEKLEELEREEEMLEKAREEKGDMSEES
DGDLPDEYYEAHEIVQSKQKLLKIEHKLKRHTTAHVHKEALSEVKKDLETKGIDSTKLEQ
RVLAKRQPRRLLDQIKDEKDIEDDDEDIMEDEGVADRKKIEKKLEKKQRSASRSRSKGIN
PNPILTPADKAMQRLKYKIEKTWSGMAGEADRSIAQKMPKHLFSGKRKQKADRR |
NT seq |
1965 nt +upstreamnt +downstreamnt
atgtagtatatttttaagggtatcaagactattcctgcttctaaggacatgatcaacatt
gtcctttccaagacttaaagaaagactcctaccgttgttcatccaggctattccattggt
cgtattagaggtttctacatgcgtaagattaagttcacttaagatactatgcatgaaaaa
ttcaatgacattttgaatggtttccctaaattggatgacatccatcccttcttcgctgat
ttattcaatgtcctttatgacaaggatcactataagcttgccttgggtcacgttcattct
tgcatgaacttggttgacaacatttgcacagattacgttagacttatcaagtatggtgac
tctctctatcgttgcaagcaattgaagaaagcttgtttgggaagaatttgcacaatcata
aagaagttaaatagcagcttaaattatttggaagaagtcagaaaacatttagcaagattg
ccttcagttaaccccttcgaaagaactttaatgattactggttaccccaatgtcggtaaa
agtagtttcatcaattaaatcactaaggctaacgttgaagtctaaagttatcctttcaca
acttaatcactttatgttggtcatactgaataccaaaatgtcagatggtaggttattgat
tcacctggtattcttgatcatcctttagaacaacgtaacacaattgaaatgtaaagtatt
actgctttagctcacttgaaggcttgcattctcttctttattgatttatctgaataatgc
tcatacagtattgaataataagtaagcttattcaactctattaagcctctctttaagaat
aagcctctttgcatcgttctcagtaagtgcgatttgaaatcttttgaagatctttctcaa
gaaaataaggatatccttaacagccttgctaaggattaaaatgtatctcttctttaaatg
tccaataaaactggtgaaggtattgaaaacctcaaggtccaagcttgcgaaactctctta
aagcatcgtgacggttaaaaaattgaataactttctggtggtaaccaaattttaaagaga
gaagaagaagttttaagaggtttacatgttgctaaacctactaaagttagagatagcaat
gtagtaagagctcctgtcatcccctaaactgtcaagagtggtattaagaatgaaaagcct
actctcaaagaaattcaagaagaacatggtggtgctggtgttttcaacttcccattataa
gaacatttcgatttagccaaccctgaatggaagtatgatgctatacctgaaatcatggac
ggtaaaaacattgctgattatgttgaccctgatattcttgaaaaacttgaagaacttgaa
agagaagaagaaatgcttgaaaaagctagagaagaaaagggagacatgagtgaagaaagc
gatggcgatttacctgatgaatactatgaagctcatgaaattgtccaatcaaaataaaaa
ttacttaaaatcgaacacaagttaaagagacacacaactgctcatgttcataaggaagct
ttaagtgaagttaaaaaggatctcgaaactaaaggtattgattctactaagcttgaataa
agagttcttgccaagagataaccaagaagattacttgatcaaattaaagacgaaaaagat
attgaagatgatgatgaagatatcatggaagatgaaggtgttgctgatagaaagaagatt
gaaaagaaattagaaaagaagtaaagatctgcctctagatcaagatctaaaggtatcaat
cccaatcctattttaactcctgctgataaggctatgcaaagacttaaatacaagattgaa
aagacttggtctggtatggctggtgaagctgacagaagtattgcctaaaagatgcccaag
catcttttctctggtaagagaaaacaaaaagcagatagacgttga |