Identifiers and Description

Gene Model Identifier

TTHERM_01008650

Standard Name

ATR1 (ATR ortholog 1)

Aliases

PreTt29569 | 194.m00025

Description

ATR1 phosphatidylinositol 3-kinase; Phosphatidylinositol 3- and 4-kinase family protein- PIKK family protein

Genome Browser (Macronucleus)



Genome Browser (Micronucleus)

External Links

Gene Ontology Annotations

Biological Process

Domains

  • ( PF00454 ) Phosphatidylinositol 3- and 4-kinase
  • ( PF00515 ) tetratricopeptide repeat
  • ( PF04111 ) Autophagy protein Apg6
  • ( PF07719 ) tetratricopeptide repeat
  • ( PF07720 ) Tetratricopeptide repeat
  • ( PF07966 ) A1 Propeptide
  • ( PF08050 ) Tetracycline resistance leader peptide
  • ( PF08578 ) Protein of unknown function (DUF1765)
  • ( TIGR00075 ) hydrogenase expression/formation protein HypD
  • ( TIGR00188 ) ribonuclease P protein component
  • ( TIGR00864 ) polycystin cation channel protein
  • ( TIGR01602 ) Plasmodium yoelii repeat of length
  • ( TIGR01612 ) rhoptry protein

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

Tetrahymena Stock Center

No Data fetched for Tetrahymena Stock Center

Homologs

Source Identifier Score
Tetrahymena borealis EI9_13561.1 9.997093137033517e-262
Description: phosphatidylinositol 3- and 4-kinase (2034 aa)
Oxytricha Contig19156.0.g85 1.999385218781115e-51
Description: Phosphatidylinositol 3- and 4-kinase
DictyBase DDB_G0291380 1.9998323414791308e-36
Description: atr1 on chromosome: 6 position 214264 to 224083
SGD YBR136W 1.9998323414791308e-36
Description: MEC1 Genome integrity checkpoint protein and PI kinase superfamily member; signal transducer required for cell cycle arrest and transcriptional responses prompted by damaged or unreplicated DNA; monitors and participates in meiotic recombination
WormBase WBGene00004879 1.000382677035467e-28
Description: locus:smg-1 Serine/threonine-protein kinase smg-1 status:Confirmed UniProt:O01510 protein_id:CCD67583.1
Stentor Coeruleus SteCoe_34563 1.0530617357553812e-20
Description: None

General Information

No. Gene Name(s) Paragraph Text
80 ATR1 Gene Information: The phosphatidylinositol 3-kinase (PI3K)-related sensor kinase ATR is a key player in the signaling of induced DNA damage and self-inflicted DNA cuts in vegetative and meiotic cells (Richardson et al., 2004; Bassing and Alt, 2004; Hunter, 2008). In higher eukaryotes ATR is recruited by the MRX/MRN complex and possibly other unknown factors to the sites of damage and phosphorylates a host of target proteins to arrest replication forks and prevent new origins from firing. (Kurz and Lees-Miller, 2004). TTHERM_01008650 BLAST against human ATR1 NP_001175.2 e value : 6.0 e-5. Reverse BLAST of human ATR1 (NP_001175.2) against TTHERM_01008650 e value : 3e-48
17 ATR1 Knockout prevents SPO11-dependent elongation of meiotic nuclei. Involved in the signaling of meiotic DSBs and other DNA damage.
81 ATR1 Nucleic Acid Interactions: Involved in ssDNA binding at rDNA origin and promoter. Sensing and repair mechanisms unknown.
82 ATR1 Protein Interaction Partners: Not determined
83 ATR1 Biochemical Activities: Ability to arrest cell cycle is inhibited by caffeine.
84 ATR1 Regulation & Expression: Activated / Induced by DNA damage

Associated Literature

  1. Ref:19297526: Loidl J, Mochizuki K (2009) Tetrahymena meiotic nuclear reorganization is induced by a checkpoint kinase-dependent response to DNA damage. Molecular biology of the cell 20(9):2428-37
  2. Ref:16933976: Eisen JA, Coyne RS, Wu M, Wu D, Thiagarajan M, Wortman JR, Badger JH, Ren Q, Amedeo P, Jones KM, Tallon LJ, Delcher AL, Salzberg SL, Silva JC, Haas BJ, Majoros WH, Farzad M, Carlton JM, Smith RK, Garg J, Pearlman RE, Karrer KM, Sun L, Manning G, Elde NC, Turkewitz AP, Asai DJ, Wilkes DE, Wang Y, Cai H, Collins K, Stewart BA, Lee SR, Wilamowska K, Weinberg Z, Ruzzo WL, Wloga D, Gaertig J, Frankel J, Tsao CC, Gorovsky MA, Keeling PJ, Waller RF, Patron NJ, Cherry JM, Stover NA,
  3. Ref:17005912: Yakisich JS, Sandoval PY, Morrison TL, Kapler GM (2006) TIF1 activates the intra-S-phase checkpoint response in the diploid micronucleus and amitotic polyploid macronucleus of Tetrahymena. Molecular biology of the cell 17(12):5185-97

Sequences

>TTHERM_01008650(coding)
ATGGATATAATTAAAAGATTAAAAAGCAAGGAGGCTAAGGCATCTTAGTAAAACTTCGAA
CAAGCCAATAGATTAAACAGTATAGAATAGTCGAATTAGAAGAACAGAGTTTAAGCTAAG
TAGGAAGGAATATAAGGTTCTGGATTTCTATAAGTTCAATAAAGTTTAAGTGTAAATAGA
CCTAGTTCTAGCAATAATTTGATGGATTAGACTGCATAAATACATATTTAGAAGTAGGAT
TCTAATAGTGCAAAATCAAGCAAAAGTTCTATTTCATATAATAGTGAAACTAATTATTTA
AAAATGAATGCTCAACCTTCAAACATAAAAGAGAGAGTAGAACAAATTACTGAAGAGCCA
GTTGATGAACACTTAGATTTTAAGTATTAGAAGCTGCTTGATGTGATAAAAGGGAGTGGA
GACAAAAATAATTTGGGATTTTTGTAATAAAAAATTGATTATTTAACAATGATAAGTAAC
AGACTGTAGATTAGTCTCTTTGACTTGCTGAATTTGCTTCCAAGCAAGTACCTTGCGTAA
TTGTTTTAAGATTATAAGCAATAAGAGAATGTGATGGTGAACATCATTTTAGCATCTGTT
AGTGGATTATCTTAGCCAAATAAAATATTCGAAGATATAAAAATTGATTTAGGTGATAAA
TTCGATTACGAAAATTAATATCTCAAAGCACACTGTTAAAATTATGAGGACTGTTTGAAT
TAAGATGAGTAAGAGCAGTAATCGCTTGAGGACGACGAAGAATTAGAAGAGCTGACTCCT
TAAATTAAAACAAGAATTTTCTTTAGTAGATATATAATTCCGCTTGTTTTACACTAGCTG
ATTGATTTTAAGCAAGATCCTTCGATCCAAATGAGCAGCATTCTAGGTAGACTAGAAGAT
ATCTATGGCATGCAACAATCTCAAGCATAACTTGGGAGTGCATAAAACATAAACACATAA
GATTCGGGTGGCAGTCTCTCTCAAAACTCAAATGCATCTTAAAATCTTTTCATCCAAAAA
GTTTATATAACAAATCTAAGAGAGTTTTATAGATCATTGAAGTTTTTCATGGAGAAAATA
TATAGAAAAAACAATGATAAAGCTCAATATGTTTTATCTTACTTGTAAAAAATATGCAAA
AACGAAAGAGACTATGAGCTAGATTAAACACTTTTTAGCTATGAAGATTTAAAAAGAGAT
AGAATTGTACTTTACAGATTAGCTATGAGTGGTACTAAAAAATTACTATTTAACTACCTG
TAAGACAAATAAATTCTAACCAAGTATGCTGGAAACTGTATTTTTGACTTCAAGAAAAAG
GAGATATTTTTGGATTATTACAAGAGATTCATCACACCTGCAGAAGCTTCCCTTTCTAAT
GGAATGGATGATACTGTATTTAGAATATCAGCAAATTTGGAAAATTACTGTAGAGCTCTT
CAAACTAGCTAGCATAAAATATGCGCTTTAAGAAATGCAATTGCTTTAATAAGGTTTTTA
ACTCCTTTTTTGGAGACATTTTCTTCATAATTTAATTAATCTGCCACAAATAAATACTTG
ATTAAAGCTGCATGTTGGAGAATTGTTAGATTTATTTTGTTTGTTCATGATGGAAGCATT
TCATATGTTGCTTTGGTATTTCTTATTTTTTGTTTTGAACTACTTTTCAGTGAAAGAAGT
CTTTTGAATTAAGAGCATGAGAGATTCTTACATCTTCTACTCGCATTTTTGCATGTATAT
AGAAACAGAGAGGATGCTTTGTTCAAATATTCGTAGTAAGTTGCTACAAGGATCATAATG
AAACTAATTAAAAAGATAAATTATAACAGTTCAGGTGACTCCTCTTCTTTGTCTTCATCC
AGAAAGAAAATAAATATTCAAACTTCGTCTAAAAGCAGCAGCAATTCTACTAATAACTCT
GATCTAGACTAAAGTCATCAAATGAAAGACTACTGGTTTTTAAATTACAACTATCATAGT
TTGGATGAAAAGTTTTAGAAATATTTCGCTTACATTTCACAAAAAGACATTTATAGCAAA
TATAATTATATAGAAAAAGAACTTAAATAAATCCAAGAATAACCACTTATCGATGAATAA
GTTATTTTAATCTTATCGTATTTAAAGAATTTGCTGCAGGAGCCTTAAGATTTTACTCAA
ATTAAAATTTCAAAAAGTATGTAAGAAGAACTAAAAAGTAAAAACTTAAATGAGATACAA
TTGAAAAAAGAAAAAGAAAAGCTTTCATTGATTCACTTGTAAAAGATTAAAGAAAAGAAA
AATGCAATTTATTTACAGTTGCTCAATTTGCCAAAGCTTTCTGATAATAAAAAGATTCTT
GCAAAGAATAGTCACTCAATGAATGCTCTTGTAAAAATAAAGTAGGAGCTATTAGTGGAT
TGTCTTGGCTTAATTGGGCCAGTATAACAGCATGACTTTCAGGAGAATTACTAAGATATC
CTCCCAATCAACCTCACACCTGCTGATCTAAAAGAAAAAATAAAATCATTTTTAAATGTC
AATATCTTTAACACAGACATACCTCTAGTTTCTCTCTGTATTTGCAAAGAGTACGTAGAA
AATAAATTCACAGGCAAAAGAAAAAAACTAAATGAGAGAATTTAAAATAGCTTTTTGAGT
GCAAACGAAGCAAGTAAATCTCAAGATGATATGGAAGAAAGATCTAACATGCTGAATGCA
TCTTTTAGCTCAAGAGGAATAAATGAAAATACAAATGGAAATGCTACTAATTTAGATCAC
AGTATTATTCACCAATAAAAGCAATAGTTTAATCTTATGCAATGGCTAGCAGAGCTGATT
ATGAAGATGAAAAAGTAGGATGAAACCATTAAAATTATTGAGGGATGCATGGAACTAATG
GCAAACAGTGACTTAGGAGAGTTTTTAACTCCTTATATAATCTTCAAATATATCAATAGC
ACAGAAAATAGTCATTTAGAAATTATCCCAGTTATAAACAAGATATTAGAAGAAGGCCAT
CACAATCACAAGTTAATTATAACCAAAACACTCATCAACTTAGACACTTGGTTCAGGTAA
GAGCTCAAATAGGAAAAATAATAAAATTATGACCCTTTCAGACCACAAAGTATTATGCAT
TCAGAATCTCCAAAAAATAGATTTATAAGAAATTTTGCATTCATAAAGAGAGGTATTTCT
ACATAGGTGTATTGCAAAACGTTAGTTGAAATGAGTGAGCATAAAGGTGCTATTTAACTG
CTTGAATAAGAACTAGAATAATAAGATATATAATTATTGAACCTCACTGACGCTTAGGAG
ATCAAGAATATAAAAAAGCTTAGAACACATTACATTTATCAATTATATAATATTTATAAA
GAAGTGAATGAAGATTATAAAAATATTGATGTAGTTGAAATGATGAGAAAATTAGATTTA
GATGAAACAGAAATCAAGAAATACCAAGATATTAATTTAAAGCAGAAAAATGATGGTTTA
TGCCCAGAAATATACGAAGATATTGTGGATAGAAATTTTAGAGATGAAGAATCCTAATAA
AAATTAATTAATTTGCTTTCCAAAAGCATTCCAGATTTTGCATCTTAGAATTAAGATTTT
GCATTTTAGAAATATTTGAGAAGCATCTGCTGGGGATTTTAAAAGATATTGAACTATGAA
AAAAATAACAGCTTTGACAATATGTTTTAGTAATTAAAATCTGCAATTCAAAAATTGAAA
TATGCTTTCAGTTTACAATTAGTTAACGCAAAATGTTGTTATGACAGTAAATTTTCGGTA
TTAGTAAAGATTTAGGTGCTTTTAAATGTTGAAACAATGCTAAAAATATAAAAATTTTAA
AAAGACTACTCAAAGTTGGCTAAAAATGGAGATATTATTTTCGATTAGACTTCTTTCTCT
TTTGATGAATCTTAACCAGATTATCTTCTCAAATTAACTGTTAAATCTAATTCCCAAGGA
TTTCCAAACAATAATACTTCCTCTTTAGGTGGTAGTCGTATTACATACAACTAAATAATA
AACTAGTATTCTGTTTTTAACTTAATTCAAGCTCTGTAATAGACTTCTAAGTTGTTACTC
AGTTATGATTAAGAGTGCTATTTAAGAATAGTTTACAATTATTTAATATGCGTCCTATAC
AACTAATGCAAAGAATACAGAAAAATTTACATAAATTCTTTGTTTAGACTCTCCAAATAC
TACTATAAAAAAGAAAAATACTCTGATGCTTTAACTATTTTGAAGAGAGCTAAATAGGTT
TGGAAGGAAAAAAAAGATTCATTTTCTTCTTAGGAAATATACACTCTTTAGGCAAAGATT
GAAAAGAAACTGGGAAATATAAAGAAAGCTATTCATAAGCTATAAAAATTTGATGGAATT
GATTTTAAAATAAAGAAAGTTACTTATAAATATCAACATAATTTCTAGATTTTCTCTGAG
TCTTTAATCCACAGCGAGTTTATTAAGTTAGTTCAGTAAAATTCTGAAAGTGAGAAATTG
TGTTTCAAGTATGCAAAGTTTATAGATGAAAATGAATTAATATCAGACAACCCTAATGAC
AAAGAGATTGACCAAAAAATAAAAGCTATTTAGCTCTATCTCTTAGCAGCATCAAATGGA
CATTAATACATTCATCAGTCTCTTCCAAGAGCAATACGCTTGCTAGTAGAACTTTTTTAG
GATGTGGCAAATTTGTAAACTAAAAAAGCTCAGCTTGTCAAGCAAAAATTTGACAAAAAT
TTCTTATAAATATCCGAAACTTGCAATAAAATAGAAACCTTCAAATTAACCAGTGTTGTC
AATCAGCTAACCTCGCATATCACAATACCTTATTAGTAGTGTGCTAATTTATTTATTGAT
CTCCTGGCAAAAGTAGGTGCTGAATATCCTGACTAAAGTGTCTGGTGGTTATTACCTCTT
AAATACATGTACTAAATGATTAGCAATTAAAGCTCTGTGCAAAAGGATGAATATACTGAA
TAAAGAGCTTCTGCTATTCTTAAAAAGATTAATGAAATAAATCCATCAAGTTATGAACAA
ATAAATAGAGTTTCTAACTTCTACTACAATTTATTAAATTTTGCAATTAAAGCGCCAGAC
GGATCTAGTACTACTATGAAAATCGAAAACTACTTGGTAAAATCACTGGCTAACCTGAGA
CTGATTCTTCCCAAAAAGGAATACATTTTCCCAAAGATGCCATAAAGCAGAAATGTAGAA
CCTAATTATAATCCTTACCATAATAATCCAGTATACATGGAAAAGTTTGATGATGTTGTC
AGAATTATGAGCTCCAAACAAAAACCAAAACTCTTAACTGTTTAATGTTCTGATGGAACT
AAAAAGAAATTTTTAATCAAATCTCAAACTCAAAGTGAAAATGTCTACGAGCAGAGAACA
AGTGAGTTGATTTCATTCTTGAACCTTATTCTTTACAAAGAATAACTTGGATTTTATGAA
ATGCCTTCTTATACAATTCTAAGATTAAACAGCTAAAGCTGCATTGTAGAATGGGTTGAT
GATACACTAACTTTAAAGACGATTTTAGATTAGCTGTGGTAAGAGAAGAAGCAAAAGAGC
TAGTTCTATTAATTAAAACTAGACTCAGATAAATTAAGCAGAGAAGAATGGAATAAACAA
AAGAGCCTTCCTTCTGTATTTTAAGACTTCTTCAACTAACGATTCCTTGATTCTTAATAA
TGGTACACAGCAAAAGAAAACTACTTGAGGACTTATGCATCATGGTGCATATTAGGCTAT
CTTATTGGACTTGGAGATAGACACACTGATAATATATTAATTAAAAAAATTAATGGTGAA
ATAGTCCATATTGACTACGCTCTTATCTTTGGTTCAGGTAAATAGCTTAATGTTCCAGAA
ACTATTCCATTTAGATTAACAAAAAATATGGAATTTGCTTTGGGTTCTTTCAAGTCTTAT
GGTCTCTTTAGAAAAGCCATGATAGACATTTGTATGTGTTTCTCAAAACATTTGGATGAT
ATCATTGGCTTTTGGGATTGCTTTACCAACGAACTAGAGGGATGTAAAAAAACAAACTTT
AACCAGCTATGCAATCAAATTAAGAATAGAATTAAAATGACTAACTTTAAATCAACTGAA
GAAGGCATAGACAGTCTTATTTAGATCTCTAAAGACGATTATTGTCTAAGAGACATGTTC
AAAGGCTGGTGGCCTCATGCATGA


>TTHERM_01008650(gene)
ATGGATATAATTAAAAGATTAAAAAGCAAGGAGGCTAAGGCATCTTAGTAAAACTTCGAA
CAAGCCAATAGATTAAACAGTATAGAATAGTCGAATTAGAAGAACAGAGTTTAAGCTAAG
TAGGAAGGAATATAAGGTTCTGGATTTCTATAAGTTCAATAAAGTTTAAGTGTAAATAGA
CCTAGTTCTAGCAATAATTTGATGGATTAGACTGCATAAATACATATTTAGAAGTAGGAT
TCTAATAGTGCAAAATCAAGCAAAAGTTCTATTTCATATAATAGTGAAACTAATTATTTA
AAAATGAATGCTCAACCTTCAAACATAAAAGAGAGAGTAGAACAAATTACTGAAGAGCCA
GTTGATGAACACTTAGATTTTAAGTATTAGAAGCTGCTTGATGTGATAAAAGGGAGTGGA
GACAAAAATAATTTGGGATTTTTGTAATAAAAAATTGATTATTTAACAATGATAAGTAAC
AGACTGTAGATTAGTCTCTTTGACTTGCTGAATTTGCTTCCAAGCAAGTACCTTGCGTAA
TTGTTTTAAGATTATAAGCAATAAGAGAATGTGATGGTGAACATCATTTTAGCATCTGTT
AGTGGATTATCTTAGCCAAATAAAATATTCGAAGATATAAAAATTGATTTAGGTGATAAA
TTCGATTACGAAAATTAATATCTCAAAGCACACTGTTAAAATTATGAGGACTGTTTGAAT
TAAGATGAGTAAGAGCAGTAATCGCTTGAGGACGACGAAGAATTAGAAGAGCTGACTCCT
TAAATTAAAACAAGAATTTTCTTTAGTAGATATATAATTCCGCTTGTTTTACACTAGCTG
ATTGATTTTAAGCAAGATCCTTCGATCCAAATGAGCAGCATTCTAGGTAGACTAGAAGAT
ATCTATGGCATGCAACAATCTCAAGCATAACTTGGGAGTGCATAAAACATAAACACATAA
GATTCGGGTGGCAGTCTCTCTCAAAACTCAAATGCATCTTAAAATCTTTTCATCCAAAAA
GTTTATATAACAAATCTAAGAGAGTTTTATAGATCATTGAAGTTTTTCATGGAGAAAATA
TATAGAAAAAACAATGATAAAGCTCAATATGTTTTATCTTACTTGTAAAAAATATGCAAA
GTAAGCAATTTCTTTTAAAATCCAACAAATTTATTTTAAAAACAGAAAAAGTAGTGACAA
ATTTAGTATAAATTTAATTGTTTTATTTTGATAATTCATTTAAAATAATTAATGATAAAA
TTCTTTTTTTTTGAATTTAGAACGAAAGAGACTATGAGCTAGATTAAACACTTTTTAGCT
ATGAAGATTTAAAAAGAGATAGAATTGTACTTTACAGATTAGCTATGAGTGGTACTAAAA
AATTACTATTTAACTACCTGTAAGACAAATAAATTCTAACCAAGTATGCTGGAAACTGTA
TTTTTGACTTCAAGAAAAAGGAGATATTTTTGGATTATTACAAGAGATTCATCACACCTG
CAGAAGCTTCCCTTTCTAATGGAATGGATGATACTGTATTTAGAATATCAGCAAATTTGG
AAAATTACTGTAGAGCTCTTCAAACTAGCTAGCATAAAATATGCGCTTTAAGAAATGCAA
TTGCTTTAATAAGGTTTTTAACTCCTTTTTTGGAGACATTTTCTTCATAATTTAATTAAT
CTGCCACAAATAAATACTTGATTAAAGCTGCATGTTGGAGAATTGTTAGATTTATTTTGT
TTGTTCATGATGGAAGCATTTCATATGTTGCTTTGGTATTTCTTATTTTTTGTTTTGAAC
TACTTTTCAGTGAAAGAAGTCTTTTGAATTAAGAGCATGAGAGATTCTTACATCTTCTAC
TCGCATTTTTGCATGTATATAGAAACAGAGAGGATGCTTTGTTCAAATATTCGTAGTAAG
TTGCTACAAGGATCATAATGAAACTAATTAAAAAGATAAATTATAACAGTTCAGGTGACT
CCTCTTCTTTGTCTTCATCCAGAAAGAAAATAAATATTCAAACTTCGTCTAAAAGCAGCA
GCAATTCTACTAATAACTCTGATCTAGACTAAAGTCATCAAATGAAAGACTACTGGTTTT
TAAATTACAACTATCATAGTTTGGATGTAAATTTACATATAAAAAAATAATTTTAAATAT
TTTATCATGAATAAAATTAGGAAAAGTTTTAGAAATATTTCGCTTACATTTCACAAAAAG
ACATTTATAGCAAATATAATTATATAGAAAAAGAACTTAAATAAATCCAAGAATAACCAC
TTATCGATGAATAAGTTATTTTAATCTTATCGTATTTAAAGAATTTGCTGCAGGAGCCTT
AAGATTTTACTCAAATTAAAATTTCAAAAAGTATGTAAGAAGAACTAAAAAGTAAAAACT
TAAATGAGATACAATTGAAAAAAGAAAAAGAAAAGCTTTCATTGATTCACTTGTAAAAGA
TTAAAGAAAAGAAAAATGCAATTTATTTACAGTTGCTCAATTTGCCAAAGCTTTCTGATA
ATAAAAAGATTCTTGCAAAGAATAGTCACTCAATGAATGCTCTTGTAAAAATAAAGTAGG
AGCTATTAGTGGATTGTCTTGGCTTAATTGGGCCAGTATAACAGCATGACTTTCAGGAGA
ATTACTAAGATATCCTCCCAATCAACCTCACACCTGCTGATCTAAAAGAAAAAATAAAAT
CATTTTTAAATGTCAATATCTTTAACACAGACATACCTCTAGTTTCTCTCTGTATTTGCA
AAGAGTACGTAGAAAATAAATTCACAGTAAAAAAAAATTAAATTTGAAAAAAATGAATTG
AATTGAAATTAATTTTGTTAATTAATTAATTATAAAAAGGGCAAAAGAAAAAAACTAAAT
GAGAGAATTTAAAATAGCTTTTTGAGTGCAAACGAAGCAAGTAAATCTCAAGATGATATG
GAAGAAAGATCTAACATGCTGAATGCATCTTTTAGCTCAAGAGGAATAAATGAAAATACA
AATGGAAATGCTACTAATTTAGATCACAGTATTATTCACCAATAAAAGCAATAGTTTAAT
CTTATGCAATGGCTAGCAGAGCTGATTATGAAGATGAAAAAGTAGGATGAAACCATTAAA
ATTATTGAGGGATGCATGGAACTAATGGCAAACAGTGACTTAGGAGAGTTTTTAACTCCT
TATATAATCTTCAAATATATCAATAGCACAGAAAATAGTCATTTAGAAATTATCCCAGTT
ATAAACAAGATATTAGAAGAAGGCCATCACAATCACAAGTTAATTATAACCAAAACACTC
ATCAACTTAGACACTTGGTTCAGGTAAGAGCTCAAATAGGAAAAATAATAAAATTATGAC
CCTTTCAGACCACAAAGTATTATGCATTCAGAATCTCCAAAAAATAGATTTATAAGAAAT
TTTGCATTCATAAAGGTATTTATTCTAATTTATATTAATATATTAATTATTTTTGCCTTT
TTAGAGGAAAAATTTGCAAATTATTAATTGTGTTTTAAAAATAAATTTAGAGAGGTATTT
CTACATAGGTGTATTGCAAAACGTTAGTTGAAATGAGTGAGCATAAAGGTGCTATTTAAC
TGCTTGAATAAGAACTAGAATAATAAGATATATAATTATTGAACCTCACTGACGCTTAGG
AGATCAAGAATATAAAAAAGCTTAGAACACATTACATTTATCAATTATATAATATTTATA
AAGAAGTGAATGAAGATTATAAAAATATTGATGTAGTTGAAATGATGAGAAAATTAGATT
TAGGTAAATAATTAAAAATTTCTATTAAATACTTTTACAAATAAATAAATCCTTTCTTAT
AAAATAGATGAAACAGAAATCAAGAAATACCAAGATATTAATTTAAAGCAGAAAAATGAT
GGTTTATGCCCAGAAATATACGAAGATATTGTGGATAGAAATTTTAGAGATGAAGAATCC
TAATAAAAATTAATTAATTTGCTTTCCAAAAGCATTCCAGATTTTGCATCTTAGAATTAA
GATTTTGCATTTTAGAAATATTTGAGAAGCATCTGCTGGGGATTTTAAAAGATATTGAAC
TATGAAAAAAATAACAGCTTTGACAATATGTTTTAGTAATTAAAATCTGCAATTCAAAAA
TTGAAATATGCTTTCAGTTTACAATTAGTTAACGCAAAATGTTGTTATGACAGTAAATTT
TCGGTATTAGTAAAGATTTAGGTGCTTTTAAATGTTGAAACAATGCTAAAAATATAAAAA
TTTTAAAAAGACTACTCAAAGTTGGCTAAAAATGGAGATATTATTTTCGATTAGACTTCT
TTCTCTTTTGATGAATCTTAACCAGATTATCTTCTCAAATTAACTGTTAAATCTAATTCC
CAAGGATTTCCAAACAATAATACTTCCTCTTTAGGTGGTAGTCGTATTACATACAACTAA
ATAATAAACTAGTATTCTGTTTTTAACTTAATTCAAGCTCTGTAATAGACTTCTAAGTTG
TTACTCAGTTATGATTAAGAGTGCTATTTAAGAATAGTTTACAATTATTTAATATGCGTC
CTATACAACTAATGCAAAGAATACAGAAAAATTTACATAAATTCTTTGTTTAGACTCTCC
AAATACTACTATAAAAAAGGTAAAAATAAATATTTACAAAAAATTATTATAATTTTTTAA
TTTAAAGCAAATATTTTTAATTCAATAAAAAATAAATAAAATTAAAAATAAAGTAAAATT
TAAAACAAAAAATACTTATTGTCAATAAAAAATTAATTTACAAATAATTTAAATTTTTTA
TGAAATTTTAATTTTAGCAAATTAATTATTTGTCAGTTATAGATATTAAATATTATAGAA
AAATAATTAAGATATGATAATAAAGTTTTAAACATGAAATAAAATTAATTTAACTAAAAT
ATTTAAAACCTTAAAAAGAAAAATACTCTGATGCTTTAACTATTTTGAAGAGAGCTAAAT
AGGTTTGGAAGGAAAAAAAAGATTCATTTTCTTCTTAGGAAATATACACTCTTTAGGCAA
AGATTGAAAAGAAACTGGGAAATATAAAGAAAGCTATTCATAAGCTATAAAAATTTGATG
GAATTGATTTTAAAATAAAGAAAGTTACTTATAAATATCAACATAATTTCTAGATTTTCT
CTGAGTCTTTAATCCACAGCGAGTTTATTAAGTTAGTTCAGTAAAATTCTGAAAGTGAGA
AATTGTGTTTCAAGTATGCAAAGTTTATAGATGAAAATGAATTAATATCAGACAACCCTA
ATGACAAAGAGATTGACCAAAAAATAAAAGCTATTTAGCTCTATCTCTTAGCAGCATCAA
ATGGACATTAATACATTCATCAGTCTCTTCCAAGAGCAATACGCTTGCTAGTAGAACTTT
TTTAGGATGTGGCAAATTTGTAAACTAAAAAAGCTCAGCTTGTCAAGCAAAAATTTGACA
AAGTAAAATTCATTTTTCATTTTATCTTTATAAAAATAATTAAAATATTTTTAAATAATA
AAATTAAGAATTTCTTATAAATATCCGAAACTTGCAATAAAATAGAAACCTTCAAATTAA
CCAGTGTTGTCAATCAGCTAACCTCGCATATCACAATACCTTATTAGTAGTGTGCTAATT
TATTTATTGATCTCCTGGCAAAAGTAGGTAATGAATGCTTTCAAATAAACAAATAACTAA
AAGAATATATTTAAATATTACCATAAATAGACATTAAATTATAGCTTTTAATATTCTTTA
ACTAACTTTTATATTTAAAATCAAAATAATTAATTAGGTGCTGAATATCCTGACTAAAGT
GTCTGGTGGTTATTACCTCTTAAATACATGTACTAAATGATTAGCAATTAAAGCTCTGTG
CAAAAGGATGAATATACTGAATAAAGAGCTTCTGCTATTCTTAAAAAGATTAATGAAATA
AATCCATCAAGTTATGAACAAATAAATAGAGTTTCTAACTTCTACTACAATTTATTAAAT
TTTGCAATTAAAGCGCCAGACGTAAATATTCAATTTCTCTCTGATAAATTATTCTTTTTT
TATATCTTGAAATTAAATATTATTTTTAATGCCTAACCAACTAATCTACTTTAAATATAG
GGATCTAGTACTACTATGAAAATCGAAAACTACTTGGTAAAATCACTGGCTAACCTGAGA
CTGATTCTTCCCAAAAAGGAATACATTTTCCCAAAGATGCCATAAAGCAGAAATGTAGAA
CCTAATTATAATCCTTACCATAATAATCCAGTATACATGGAAAAGTTTGATGATGTTGTC
AGAATTATGAGCTCCAAACAAAAACCAAAACTCTTAACTGTTTAATGTTCTGATGGAACT
AAAAAGAAATTTTTAATCAAATCTCAAACTCAAAGTGAAAATGTCTACGAGCAGAGAACA
AGTGAGTTGATTTCATTCTTGAACCTTATTCTTTACAAAGAATAACTTGGATTTTATGAA
ATGCCTTCTTATACAATTCTAAGATTAAACAGCTAAAGGTAATAATTAATTAATTAATTA
ATACATTTCAATTCATATTTTTATAATTTTATTATTAAATTGAAAAATTCATTACTATAA
ATTATTAATATTACTTAAAAAATACTTCACAGCTGCATTGTAGAATGGGTTGATGATACA
CTAACTTTAAAGACGATTTTAGATTAGCTGTGGTAAGAGAAGAAGCAAAAGAGCTAGTTC
TATTAATTAAAACTAGACTCAGATAAATTAAGCAGAGAAGAATGGAATAAACAAAAGAGC
CTTCCTTCTGTATTTTAAGACTTCTTCAACTAACGATTCCTTGATTCTTAATAATGGTAC
ACAGCAAAAGAAAACTACTTGAGGACTTATGCATCATGGTGCATATTAGGCTATCTTATT
GGACTTGGAGATAGACACACTGATAATATATTAATTAAAAAAATTAATGGTGAAATAGTC
CATATTGACTACGCTCTTATCTTTGGTTCAGGTAAATAGCTTAATGTTCCAGAAACTATT
CCATTTAGATTAACAAAAAATATGGAATTTGCTTTGGGTTCTTTCAAGTCTTATGGTCTC
TTTAGAAAAGCCATGATAGACATTTGTATGTGTTTCTCAAAACATTTGGATGATATCATT
GGCTTTTGGGATTGCTTTACCAACGAACTAGAGGGATGTAAAAAAACAAACTTTAACCAG
CTATGCAATCAAATTAAGAATAGAATTAAAATGACTAACTTTAAATCAACTGAAGAAGGC
ATAGACAGTCTTATTTAGATCTCTAAAGACGATTATTGTCTAAGAGACATGTTCAAAGGC
TGGTGGCCTCATGCATGA


>TTHERM_01008650(protein)
MDIIKRLKSKEAKASQQNFEQANRLNSIEQSNQKNRVQAKQEGIQGSGFLQVQQSLSVNR
PSSSNNLMDQTAQIHIQKQDSNSAKSSKSSISYNSETNYLKMNAQPSNIKERVEQITEEP
VDEHLDFKYQKLLDVIKGSGDKNNLGFLQQKIDYLTMISNRLQISLFDLLNLLPSKYLAQ
LFQDYKQQENVMVNIILASVSGLSQPNKIFEDIKIDLGDKFDYENQYLKAHCQNYEDCLN
QDEQEQQSLEDDEELEELTPQIKTRIFFSRYIIPLVLHQLIDFKQDPSIQMSSILGRLED
IYGMQQSQAQLGSAQNINTQDSGGSLSQNSNASQNLFIQKVYITNLREFYRSLKFFMEKI
YRKNNDKAQYVLSYLQKICKNERDYELDQTLFSYEDLKRDRIVLYRLAMSGTKKLLFNYL
QDKQILTKYAGNCIFDFKKKEIFLDYYKRFITPAEASLSNGMDDTVFRISANLENYCRAL
QTSQHKICALRNAIALIRFLTPFLETFSSQFNQSATNKYLIKAACWRIVRFILFVHDGSI
SYVALVFLIFCFELLFSERSLLNQEHERFLHLLLAFLHVYRNREDALFKYSQQVATRIIM
KLIKKINYNSSGDSSSLSSSRKKINIQTSSKSSSNSTNNSDLDQSHQMKDYWFLNYNYHS
LDEKFQKYFAYISQKDIYSKYNYIEKELKQIQEQPLIDEQVILILSYLKNLLQEPQDFTQ
IKISKSMQEELKSKNLNEIQLKKEKEKLSLIHLQKIKEKKNAIYLQLLNLPKLSDNKKIL
AKNSHSMNALVKIKQELLVDCLGLIGPVQQHDFQENYQDILPINLTPADLKEKIKSFLNV
NIFNTDIPLVSLCICKEYVENKFTGKRKKLNERIQNSFLSANEASKSQDDMEERSNMLNA
SFSSRGINENTNGNATNLDHSIIHQQKQQFNLMQWLAELIMKMKKQDETIKIIEGCMELM
ANSDLGEFLTPYIIFKYINSTENSHLEIIPVINKILEEGHHNHKLIITKTLINLDTWFRQ
ELKQEKQQNYDPFRPQSIMHSESPKNRFIRNFAFIKRGISTQVYCKTLVEMSEHKGAIQL
LEQELEQQDIQLLNLTDAQEIKNIKKLRTHYIYQLYNIYKEVNEDYKNIDVVEMMRKLDL
DETEIKKYQDINLKQKNDGLCPEIYEDIVDRNFRDEESQQKLINLLSKSIPDFASQNQDF
AFQKYLRSICWGFQKILNYEKNNSFDNMFQQLKSAIQKLKYAFSLQLVNAKCCYDSKFSV
LVKIQVLLNVETMLKIQKFQKDYSKLAKNGDIIFDQTSFSFDESQPDYLLKLTVKSNSQG
FPNNNTSSLGGSRITYNQIINQYSVFNLIQALQQTSKLLLSYDQECYLRIVYNYLICVLY
NQCKEYRKIYINSLFRLSKYYYKKEKYSDALTILKRAKQVWKEKKDSFSSQEIYTLQAKI
EKKLGNIKKAIHKLQKFDGIDFKIKKVTYKYQHNFQIFSESLIHSEFIKLVQQNSESEKL
CFKYAKFIDENELISDNPNDKEIDQKIKAIQLYLLAASNGHQYIHQSLPRAIRLLVELFQ
DVANLQTKKAQLVKQKFDKNFLQISETCNKIETFKLTSVVNQLTSHITIPYQQCANLFID
LLAKVGAEYPDQSVWWLLPLKYMYQMISNQSSVQKDEYTEQRASAILKKINEINPSSYEQ
INRVSNFYYNLLNFAIKAPDGSSTTMKIENYLVKSLANLRLILPKKEYIFPKMPQSRNVE
PNYNPYHNNPVYMEKFDDVVRIMSSKQKPKLLTVQCSDGTKKKFLIKSQTQSENVYEQRT
SELISFLNLILYKEQLGFYEMPSYTILRLNSQSCIVEWVDDTLTLKTILDQLWQEKKQKS
QFYQLKLDSDKLSREEWNKQKSLPSVFQDFFNQRFLDSQQWYTAKENYLRTYASWCILGY
LIGLGDRHTDNILIKKINGEIVHIDYALIFGSGKQLNVPETIPFRLTKNMEFALGSFKSY
GLFRKAMIDICMCFSKHLDDIIGFWDCFTNELEGCKKTNFNQLCNQIKNRIKMTNFKSTE
EGIDSLIQISKDDYCLRDMFKGWWPHA