Identifiers and Description
Gene Model Identifier
TTHERM_00136470Standard Name
MTSA3 (MethylTransferase targeting position N-Six of Adenine (MTSA) 3)Aliases
PreTt24372 | 10.m00421 | 3698.m00140 | MTA3Description
MT-A70 family proteinGenome Browser (Macronucleus)
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Genome Browser (Micronucleus)
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Gene Ontology Annotations
Molecular Function
- methyltransferase activity (IEA) | GO:0008168
Biological Process
- nucleobase-containing compound metabolic process (IEA) | GO:0006139
Domains
Gene Expression Profile
Change in Gene Expression
TMHMM
TMHMM
Signal Peptide
Signal Peptide Present?: No
Presense Probability: 10.5%
TetraMine Data
TTHERM_00136470
WebApollo
Fullscreen View
Tetrahymena Stock Center
No Data fetched for StockID
Homologs (v.2006 protein sequences)
Source Identifier Score Description Tetrahymena borealis EI9_05814.1 9.997093137033517e-262 MT-A70 family protein (503 aa)
Oxytricha Contig17486.0.g100 9.9981864321491e-40 MT-A70
Stentor Coeruleus SteCoe_23497 7.781132241133797e-20 SGD YGL192W 3.998609120989657e-17 IME4 Probable mRNA N6-adenosin
e methyltransferase required f
or entry into meiosis; transcr
ibed in diploid cells; haploid
s repress IME4 transcription v
ia production of antisense IME
4 transcripts; antisense trans
cription is repressed in diplo
ids
General Information
No Data fetched for General Information
Associated Literature
No Data fetched for Associated Literature
Sequences
>TTHERM_00136470(coding)
ATGAAAAGGGATTAACAAGAATCTGAAGAAGAGAGCGAGGAAAGTGGGGATGACTCTGAT
TCTGTCGAGGTTTAGAGGGCAACAAATGTTAGGGCTAAATCATATCATGATTCAAATAAT
GTTATTTTAGGAAAAAGATAAAGGAGAGAATCAACCAAACATGCCAAAGATGACTTGATA
GGATTTAAGGAGAAAAAAAAGAAGCGCGGTAGAAAAGCTAAAAAGAAAAAACCTTTGCCA
ATAAAAAAGAAGGGTCGCAAGAAAAAGAAAGTCTCAAAAAAAAGTTAAAAAAATGGATAG
TTGAGGGGAAATGGTGAAAAAAGAGAAAAAAAAGAGAAAGGAGAGAAAGTTATTAAAGAA
AGATCTAAGGTAAAGGTAGAGGATGAAGATGATGAGTTTAGACATCAAAATCCTAACTTG
ATTCATCTCTCAAAGCTAAATAAAATATTTGTTTTGCACAGCAGTGAAATAAGAGCAAAC
AAAAAAGACAAAAAAAAGCTATTTCAAAATACCTTACTAGCTAAAACACCAGAAGAAAAA
AGAACCTCACAATCTATCATCGAATGTGATTTAAGATACTTTGATTTTACTTATTTGACA
AACATATTTGACTCGTTTGATGTTGTAATGATTGCTCCACCATTTGATGCAATATCGATT
TAAGAAGTATTTGAACTAAAAGTGGAGTTGATCTCTAAGCAAGGATTTCTTTTTTTCTGG
GCAAAAGATGTTCCAACAGCTACTTCATATGAAATAATGTCTAAATGGGGATATGATGTT
ATTGATCAAATTATTTGGGTGAAAATCGATAAAAATGAAGGGAAAATGATTTTAGAAGAC
AAGCCAGACAAATATTTTTATAATTCAAATGAAATGTGCTTAATAGGTGTCAAAAAGCAC
CCTTCCTCAAAGGGAGTTGAGTATCAATCAAAGGTATCAAACAATATCATAGTTTCTCAT
CAACCATAGAATTAATCTTGTCCAGATTAAATATACGATATTATTGATTTGATGATGCCA
GGAAGCAAAAAAATAGAACTTTTTACTAAACAGAAAGTAATCAGAGGAGGCTGGTTTGGG
TTAGAGCATAAGTTTTAACCAGAGATAAACTAAAGTAAAAATTTAAATCAACAAATCAAT
ACTAAAGAATCAGATAAAGCAGCTCATTTTGATCATACTAAAGTCTAAGATATTCAAGCT
ATAAAAAATAATTAAATTCCTATTTTCAATTAGTAGCAATGCCTTAAATGTGAGATGAAA
CCAATCGTTGGGCTGTATTTTTCTTGTGAAACATGCAAGATAGATACTCAGAACTCTTTC
TCTATATGCTAAGATTGCTTCTTTAATACATCTCCAAAAGAATTATTTATTGGAAATCAT
AACGAAAACCATAAATTAGAAATTGTTCACGAAATACCTCAATAAACTTATAAATAAAAA
CTTAAATGCACGAATATATCTTGTTAGAAAGATTTATCATACTCTTTAGTACACAAATGC
TTAACCTGTTTTGAATTGTACTTATGTGAAAAGTGCTATGCAAACCAAAATAAAGTTAAG
CTTCCAAATACCCTCAAGGATTCACATTAATACTACCATGATTTTTTTATGATTAAATGA>TTHERM_00136470(protein)
MKRDQQESEEESEESGDDSDSVEVQRATNVRAKSYHDSNNVILGKRQRRESTKHAKDDLI
GFKEKKKKRGRKAKKKKPLPIKKKGRKKKKVSKKSQKNGQLRGNGEKREKKEKGEKVIKE
RSKVKVEDEDDEFRHQNPNLIHLSKLNKIFVLHSSEIRANKKDKKKLFQNTLLAKTPEEK
RTSQSIIECDLRYFDFTYLTNIFDSFDVVMIAPPFDAISIQEVFELKVELISKQGFLFFW
AKDVPTATSYEIMSKWGYDVIDQIIWVKIDKNEGKMILEDKPDKYFYNSNEMCLIGVKKH
PSSKGVEYQSKVSNNIIVSHQPQNQSCPDQIYDIIDLMMPGSKKIELFTKQKVIRGGWFG
LEHKFQPEINQSKNLNQQINTKESDKAAHFDHTKVQDIQAIKNNQIPIFNQQQCLKCEMK
PIVGLYFSCETCKIDTQNSFSICQDCFFNTSPKELFIGNHNENHKLEIVHEIPQQTYKQK
LKCTNISCQKDLSYSLVHKCLTCFELYLCEKCYANQNKVKLPNTLKDSHQYYHDFFMIK>TTHERM_00136470(gene)
ATGGTAATATCCAATTTATTTATCGATTTGACTTAATTATAAACTCTATTCAAAAAGAAA
AGGGATTAACAAGAATCTGAAGAAGAGAGCGAGGAAAGTGGGGATGACTCTGATTCTGTC
GAGGTTTAGAGGGCAACAAATGTTAGGGCTAAATCATATCATGATTCAAATAATGTTATT
TTAGGAAAAAGATAAAGGAGAGAATCAACCAAACATGCCAAAGGTAAGTTCATCTCTAAA
TTAACAATTATATAATTTCTTTAATGACTTAGAATGACAATCATTTTAATAATTTAAAAA
ATAAGATGACTTGATAGGATTTAAGGAGAAAAAAAAGAAGCGCGGTAGAAAAGCTAAAAA
GAAAAAACCTTTGCCAATAGTAAATAATTTAGATTTAAATATTTAAAAACAAACCTTTCT
TAATTTAATTTATGCATATATTATAAATATGATTTTATAAAAACAATGTAAAATACTTTC
AAATTTAAATTAAAAATCACACTAAATTGATAATGATTTTATTAGTAGAAAAAGAAGGGT
CGCAAGAAAAAGAAAGTCTCAAAAAAAAGTTAAAAAAATGGATAGTTGAGGGGAAATGGT
GAAAAAAGAGAAAAAAAAGAGAAAGGAGAGAAAGTTATTAAAGAAAGATCTAAGGTAAAG
GTAGAGGATGAAGATGATGAGTTTAGACATCAAAATCCTAACTTGATTCATCTCTCAAAG
CTAAATAAAATATTTGTTTTGCACAGCAGTGAAATAAGAGCAAACAAAAAAGACAAAAAA
AAGCTATTTCAAAATACCTTACTAGCTAAAACACCAGAAGAAAAAAGAACCTCACAATCT
ATCATCGAATGTGATTTAAGATACTTTGATTTTACTTATTTGACAAACATATTTGACTCG
TTTGATGGTAATTGAATATTCAATTTAACAATATATTTATTTTTAATTTTATTTATTCAA
AAAAATTTATTAATTAAAAAATTTTATTTTATTAAAATAAAATCAAAACTAATTTAATTA
ATTTTAACGCTTTTAAATTGTTAAAAATTTAGTTGTAATGATTGCTCCACCATTTGATGC
AATATCGATTTAAGAAGTATTTGAACTAAAAGTGGAGTTGATCTCTAAGCAAGGATTTCT
TTTTTTCTGGGCAAAAGATGTTCCAACAGCTACTTCATATGAAATAATGTCTAAATGGGG
ATATGATGTTATTGATCAAATTATTTGGGTGAAAATCGATAAAGTAATTTAACTAATTAC
TAACATTTTGTTTTATTTTATTTTATTATTAGAATGAAGGGAAAATGATTTTAGAAGACA
AGCCAGACAAATATTTTTATAATTCAAATGAAATGTGCTTAATAGGTGTCAAAAAGCACC
CTTCCTCAAAGGGAGTTGAGTATCAATCAAAGGTATCAAACAATATCATAGTTTCTCATC
AACCATAGAATTAATCTTGTCCAGATTAAATATACGATATTATTGATTTGATGATGCCAG
GAAGCAAAAAAATAGAACTTTTTACTAAACAGAAAGTAATCAGAGGAGGCTGGTTTGGGT
TAGAGCATAAGTTTTAACCAGAGATAAACTAAAGTAAAAATTTAAATCAACAAATCAATA
CTAAAGAATCAGATAAAGCAGCTCATTTTGATCATACTAAAGTCTAAGATATTCAAGCTA
TAAAAAATAATTAAATTCCTATTTTCAATTAGTAGCAATGCCTTAAATGTGAGATGAAAC
CAATCGTTGGGCTGTATTTTTCTTGTGAAACATGCAAGATAGATACTCAGAACTCTTTCT
CTATATGTAATTTTTTCCTAAATTAATATTTTTAAAGTTATTTTTTATTTTAATTATAGG
CTAAGATTGCTTCTTTAATACATCTCCAAAAGAATTATTTATTGGAAATCATAACGAAAA
CCATAAATTAGAAATTGTTCACGAAATACCTCAATAAACTTATAAATAAAAAGTAAATAA
ATTAATTAATTAATATCAATTATATAAAGAATCAACTCATTTTTAAAAAAAAGCTTAAAT
GCACGAATATATCTTGTTAGAAAGATTTATCATACTCTTTAGTACACAAATGCTTAACCT
GTTTTGAATTGTACTTATGTGAAAAGTGCTATGCAAACCAAAATAAAGTTAAGCTTCCAA
ATACCCTCAAGGATTCACATTAATACTACCATGATTTTTTTATGATTAAATGA