Identifiers and Description

Gene Model Identifier

TTHERM_00013060

Standard Name

CYC31 (CYClin 31)

Aliases

PreTt11813 | 1.m00861

Description

hypothetical protein

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

No Data fetched for Gene Ontology Annotations

Domains

No Data fetched for Domains

Gene Expression Profile

• Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10.1%

TetraMine Data

TTHERM_00013060

WebApollo

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Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source	Identifier	Score	Description
Tetrahymena borealis	EI9_02742.1	6.997420649987812e-71	hypothetical protein (203 aa)
DictyBase	DDB_G0277481	0.0000899730839127287	DDB_G0277481 on chromosome: 2 position 7953876 to 7955136
Oxytricha	Contig14539.0.g24	0.0000899730839127287	Cyclin
SGD	YER059W	0.0009001042212099794	PCL6 Pho85p cyclin of the Pho8 0p subfamily; forms the major Glc8p kinase together with Pcl 7p and Pho85p; involved in the control of glycogen storage b y Pho85p; stabilized by Elongi n C binding

General Information

No Data fetched for General Information

Associated Literature

1. Ref:27192402: Yan GX, Dang H, Tian M, Zhang J, Shodhan A, Ning YZ, Xiong J, Miao W (2016) Cyc17, a meiosis-specific cyclin, is essential for anaphase initiation and chromosome segregation in Tetrahymena thermophila. Cell cycle (Georgetown, Tex.) 15(14):1855-64

Sequences

>TTHERM_00013060(coding)
ATGTTAAAAATAACTGAGAAAAGGCTAGAGAAAAGATTGAAAAAACCAATAATTTAAAAA
TAGGGAAATAAAAAAATAAATAAAAAATTATTAAAAAAAAAAAACAAAAAAGCAAACAAA
AAAATAATAAAAAAGGAAAAAGAGCCTAAATATTTTACATTGAATTTAATTAATTCTTTT
AGTTAAAAAATTAAAGCAAAAAATTAAGATAAATATTTTTCTTCTTCTTTCAACTGCATA
ATTAAATCTGCAAATGAAAACATATGTACTTACTAATCAATTAATTAATTTACTTATTTC
AAATTTATTATTCTTAATATTAAACAAATAATCAAACAAATTATACATAATTTGATTATT
CTACATATGCATTACATTCATTCATTCATTTCTCATACTTTATGTTAACAAATATAGTTA
TCCACTTGTTCAGCTCCAAATTTATCCTTCAGTTCTTAATTTCAAAGAAAAAGACCAAAA
GTGAAGAACCTCACAATATGCAAGATCTCCGCAATCCTTGAGAAGATTCAGGAAAATTCC
TCTGCGATTCCACATTACAACTTTTAGAAACACAAGATGATTGTATTTGACTTGGAAGAA
GATTTACAAAAATTAAAATTAACCTAATAAGATATATACACATAGAATAATTTAGTCTCT
ATTAAAGAATTTCTATACAAAATATAAAGTAATTTGAAATGCCCAGATGAGTATTTCGTA
GCAGCATTTTTGCTCATTTTAAAGTATTTGAGCCTTTCTTCAATTTAATTCACAGAAAAC
AACTGCTAAAGATTGATTGCCTGCGCCATTATGCTTATAGAAAAATAATATAGTGATTAT
ATATTATCACTCTACGCCTACTCTAGAGGAGTAAACATACCTGTTAAAGATTTATAAGAA
ATGGAATTATAATTTTTGTCTACAATAAACTGGGAAATTAATATTAAAGAAGAAGAATTT
CAAGCTTTTTAAGAGTATTTCAACACAATAAGCGCATGA

>TTHERM_00013060(protein)
MLKITEKRLEKRLKKPIIQKQGNKKINKKLLKKKNKKANKKIIKKEKEPKYFTLNLINSF
SQKIKAKNQDKYFSSSFNCIIKSANENICTYQSINQFTYFKFIILNIKQIIKQIIHNLII
LHMHYIHSFISHTLCQQIQLSTCSAPNLSFSSQFQRKRPKVKNLTICKISAILEKIQENS
SAIPHYNFQKHKMIVFDLEEDLQKLKLTQQDIYTQNNLVSIKEFLYKIQSNLKCPDEYFV
AAFLLILKYLSLSSIQFTENNCQRLIACAIMLIEKQYSDYILSLYAYSRGVNIPVKDLQE
MELQFLSTINWEINIKEEEFQAFQEYFNTISA

>TTHERM_00013060(gene)
ATGTTAAAAATAACTGAGAAAAGGCTAGAGAAAAGATTGAAAAAACCAATAATTTAAAAA
TAGGGAAATAAAAAAATAAATAAAAAATTATTAAAAAAAAAAAACAAAAAAGCAAACAAA
AAAATAATAAAAAAGGAAAAAGAGCCTAAATATTTTACATTGAATTTAATTAATTCTTTT
AGTTAAAAAATTAAAGCAAAAAATTAAGATAAATATTTTTCTTCTTCTTTCAACTGCATA
ATTAAATCTGCAAATGAAAACATATGTACTTACTAATCAATTAATTAATTTACTTATTTC
AAATTTATTATTCTTAATATTAAACAAATAATCAAACAAATTATACATAATTTGATTATT
CTACATATGCATTACATTCATTCATTCATTTCTCATACTTTATGTTAACAAATATAGTTA
TCCACTTGTTCAGCTCCAAATTTATCCTTCAGTTCTTAATTTCAAAGAAAAGTAAATCAT
TGATCAGAAAATATTTATTTTATTTCTGATTGTTTGTTGCATTTGATTCTTTTCACTGCA
ACTTATAATCATCATTCATTCATTAATTCATTATCATTCATTTTTCATTTTTTAAATTAT
TCTCTCATTTAATTCAATAGAGACCAAAAGTGAAGAACCTCACAATATGCAAGATCTCCG
CAATCCTTGAGAAGATTCAGGAAAATTCCTCTGCGATTCCACATTACAACTTTTAGAAAC
ACAAGATGATTGTATTTGACTTGGAAGAAGATTTACAAAAATTAAAATTAACCTAATAAG
ATATATACACATAGAATAATTTAGTCTCTATTAAAGAATTTCTATACAAAATATAAAGTA
ATTTGAAATGCCCAGATGAGTATTTCGTAGCAGCATTTTTGCTCATTTTAAAGTATTTGA
GCCTTTCTTCAATTTAATTCACAGAAAACAACTGCTAAAGGTACTTTTTACACATTTATC
TTAATTTTTTATGCAACATAAATCATAGATCAGTTATATAAAAACAAAAATAGTTAATTC
ATACTCAAATAAATTCTTCTTTTAGAAGGCATTTTGTCTAAAGAAGTCTGCAATTTTACA
ACTAAAAAGAATAATCAATATTTTATTTATTGACTTCTTTCTTTCTTTCTTAATTTCTCT
GCTGAGTGTCTTTAATGAATGCACATAATAGATGCTTTCATAGAAATTTTATAATAGGAT
CTAAACAACCAGCTTTCCAAAACTAACCAAATAATAAACACACAAACAAACAATCAAGCA
AACAAACAAATAAAGTTATAACTAACTTATTGTATGCAGATACAAAATTTTTTAACCAGC
AAATTGGTTTGTTTGTTTGTTTGTGATTTATTTACTCATTTGCTATAGTTTTTACACACG
AAATTATCAAATTAAGTAATAATTCATGCTTCCAAATAGATTTCTAATTTACTATTAAAA
AATAATACTAAAAATTTTCACTTCGCCGTACTCATATAGCGAGTCACTTTTCTTTGTTAT
GTCATTAATTAAAAACAGACATATGATTATTGCGGCATAACAATTTCTATAAGTTATTTT
ACAACTTTAACACGACGTTTACAACTAAATAAATCTTAAATAGAAACAATCAATTAAATA
TATTATTTTTAAATTTTAGCATGAAAACTATTTTTAAATACTTCCTCTATTACGAAGAAA
AAGTTGCTTTACTTTTTAATTTTTCTTCTTCTGATTTGATTGTTGTGAGTGCTGAACTAG
TCTTAAAAATTATAAACAGATATATTATTAAAGATTAATAAATATTAATAGATTGATTGA
TTGATATATACTTTGATTAATTTAAAAATTATAAATAGAAAAACAAATTTTCAAAAAATT
AAGCTAAGCAAATAAGATTTTACAACTTAATACTAATTCAAATAAGTCCCCCACATAAAA
TAGCCAAGCAATTTGTTCATTTATAATTACTACTATAGATGATTTATAATTTTTATCATC
AATATTAAATATCACTTCAGTTAAAAGCCAACAAAATTAAACATAATAACTCAGCACATT
TATAAATACCTACATAGAAATTAATATTTACTAAAAATTTCATGTAACACGCATAATTGT
AAAGGATATTGATTACTCTCATAAAATTATTGGTGAAATCAAAAACTATAAAATTGATTA
GATTTCTAATTAAAAGAATTTATTTGCATACAAATTGATATTCTATTTCAAATAATTTTA
CTAATAGAATTTTTTATTTAAAATAGATTGATTGCCTGCGCCATTATGCTTATAGAAAAA
TAATATAGTGATTATATATTATCACTCTACGCCTACTCTAGAGGAGTAAACATACCTGTT
AAAGATTTATAAGAAATGGAATTATAATTTTTGTCTACAATAAACTGGGAAATTAATATT
AAAGAAGAAGAATTTCAAGCTTTTTAAGAGTATTTCAACACAATAAGCGCATGA