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Identifiers and Description
Gene Model Identifier
TTHERM_00046470Standard Name
MYO10 (MYOsin)Aliases
PreTt11126 | 3.m01737 | 3824.m02887Description
MYO10 myosin; Myosin heavy chain; member of proposed myosin Class XX, distinct from previously defined myosin classes; contains predicted coiled-coil domain and IQ motifs predicted to bind a calmodulin family protein; Regulator of chromosome condensation, RCC1Genome Browser (Macronucleus)
Genome Browser (Micronucleus)
External Links
Gene Ontology Annotations
Cellular Component
- chloroplast ribosome (IEA) | GO:0043253
- EGFR-Grb2-Sos complex (IEA) | GO:0070620
- heterochromatin domain (IEA) | GO:1990343
- M band (IEA) | GO:0031430
- obsolete integral component of mitochondrial membrane (IEA) | GO:0032592
- obsolete transforming growth factor beta1-type II receptor complex (IEA) | GO:0070020
- protein storage vacuole (IEA) | GO:0000326
- synaptobrevin 2-SNAP-25-syntaxin-3 complex (IEA) | GO:0070046
Molecular Function
- 11-deoxycorticosterone binding (IEA) | GO:1903878
- 17alpha-hydroxyprogesterone binding (IEA) | GO:1903880
- 2-octaprenyl-6-methoxyphenol hydroxylase activity (IEA) | GO:0008681
- alpha-humulene synthase activity (IEA) | GO:0080017
- arsenate reductase (glutaredoxin) activity (IEA) | GO:0008794
- cAMP-dependent protein kinase regulator activity (IEA) | GO:0008603
- corticotrophin-releasing factor receptor activity (IEA) | GO:0015056
- G protein-coupled serotonin receptor binding (IEA) | GO:0031821
- glucuronate-2-sulfatase activity (IEA) | GO:0015024
- GTP:coenzyme F420 guanyltransferase activity (IEA) | GO:0052754
- Janus kinase activity (IEA) | GO:0004718
- kappa-type opioid receptor binding (IEA) | GO:0031851
- lysine:proton symporter activity (IEA) | GO:0015493
- methane monooxygenase [NAD(P)H] activity (IEA) | GO:0015049
- microtubule severing ATPase activity (IEA) | GO:0008568
- minus-end directed microfilament motor activity (IEA) | GO:0060001
- mitochondrial heavy strand promoter sense binding (IEA) | GO:0070364
- obsolete cation:cation antiporter activity (IEA) | GO:0015491
- obsolete GPI-anchored membrane-bound receptor (IEA) | GO:0015025
- obsolete phosphatidylinositol 3-kinase, class I, catalyst activity (IEA) | GO:0015072
- obsolete protein tagging activity (IEA) | GO:0008638
- obsolete RNA polymerase I transcription regulator recruiting activity (IEA) | GO:0001186
- obsolete sodium-transporting two-sector ATPase activity (IEA) | GO:0015443
- obsolete tubulin GTPase activity (IEA) | GO:0008550
- obsolete type II protein secretor activity (IEA) | GO:0015447
- phosphatidylinositol-3-phosphate binding (IEA) | GO:0032266
- phosphatidylserine decarboxylase activity (IEA) | GO:0004609
- protein tyrosine kinase activity (IEA) | GO:0004713
- Pup ligase activity (IEA) | GO:0061664
- RNA 2',3'-cyclic 3'-phosphodiesterase activity (IEA) | GO:0008664
- silver ion transmembrane transporter activity (IEA) | GO:0015080
- sphingomyelin phosphodiesterase activity (IEA) | GO:0004767
- telomerase RNA binding (IEA) | GO:0070034
- type 4 neuropeptide Y receptor binding (IEA) | GO:0031844
- UFM1 ligase activity (IEA) | GO:0061666
Biological Process
- (R)-mevalonic acid biosynthetic process (IEA) | GO:1901737
- 3-keto-sphinganine metabolic process (IEA) | GO:0006666
- 5alpha,9alpha,10beta-labda-8(20),13-dien-15-yl diphosphate biosynthetic process (IEA) | GO:1901949
- activation of MAPKKK activity involved in osmosensory signaling pathway (IEA) | GO:0000167
- alkaloid biosynthetic process (IEA) | GO:0009821
- carotenoid metabolic process (IEA) | GO:0016116
- cellular response to dimethyl sulfoxide (IEA) | GO:1904620
- cellular response to dopamine (IEA) | GO:1903351
- cellular response to hydroxyurea (IEA) | GO:0072711
- copper ion homeostasis (IEA) | GO:0055070
- detection of stimulus involved in sensory perception of pain (IEA) | GO:0062149
- embryonic process involved in female pregnancy (IEA) | GO:0060136
- establishment of bipolar cell polarity (IEA) | GO:0061171
- evoked neurotransmitter secretion (IEA) | GO:0061670
- fat cell proliferation (IEA) | GO:0070341
- fatty acid transmembrane transport (IEA) | GO:1902001
- fibroblast growth factor receptor signaling pathway (IEA) | GO:0008543
- flower phyllotactic patterning (IEA) | GO:0060773
- gibberellic acid mediated signaling pathway (IEA) | GO:0009740
- glycolytic process from glycerol (IEA) | GO:0061613
- GMP salvage (IEA) | GO:0032263
- hair cycle process (IEA) | GO:0022405
- heme A biosynthetic process (IEA) | GO:0006784
- heme biosynthetic process (IEA) | GO:0006783
- high density lipoprotein particle mediated signaling (IEA) | GO:0055097
- high-affinity hexose transport (IEA) | GO:0008646
- IMP salvage (IEA) | GO:0032264
- induction of apoptosis by extracellular signals (IEA) | GO:0008624
- interleukin-19 production (IEA) | GO:0032622
- interleukin-2 production (IEA) | GO:0032623
- iodide transmembrane transport (IEA) | GO:1904200
- leaf phyllotactic patterning (IEA) | GO:0060772
- low-density lipoprotein particle mediated signaling (IEA) | GO:0055096
- lung growth (IEA) | GO:0060437
- Malpighian tubule tip cell differentiation (IEA) | GO:0061382
- mannosyl-inositol phosphorylceramide metabolic process (IEA) | GO:0006675
- mast cell differentiation (IEA) | GO:0060374
- maternal process involved in parturition (IEA) | GO:0060137
- mesonephric glomerular mesangial cell fate commitment (IEA) | GO:0061264
- mesonephric interstitial fibroblast differentiation (IEA) | GO:0061266
- mitochondrial membrane organization (IEA) | GO:0007006
- mitotic cytokinetic cell separation (IEA) | GO:1902409
- mitotic nuclear division (IEA) | GO:0007067
- modulation by organism of innate immune response in other organism involved in symbiotic interaction (IEA) | GO:0052306
- negative regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate catabolic process (IEA) | GO:1902642
- negative regulation of axon guidance (IEA) | GO:1902668
- negative regulation of cellular glucuronidation (IEA) | GO:2001030
- negative regulation of chemokine-mediated signaling pathway (IEA) | GO:0070100
- negative regulation of filamentous growth (IEA) | GO:0060258
- negative regulation of interleukin-1 production (IEA) | GO:0032692
- negative regulation of interleukin-17-mediated signaling pathway (IEA) | GO:1903882
- negative regulation of interleukin-4-mediated signaling pathway (IEA) | GO:1902215
- negative regulation of L-glutamine biosynthetic process (IEA) | GO:0062133
- negative regulation of PERK-mediated unfolded protein response (IEA) | GO:1903898
- negative regulation of phospholipid translocation (IEA) | GO:0061093
- negative regulation of postsynaptic membrane organization (IEA) | GO:1901627
- neosartoricin metabolic process (IEA) | GO:1902048
- neutral lipid metabolic process (IEA) | GO:0006638
- nitrate transmembrane transport (IEA) | GO:0015706
- obsolete activation of MAPK activity (IEA) | GO:0000187
- obsolete di-, tri-valent inorganic cation homeostasis (IEA) | GO:0055066
- obsolete energy taxis in environment of other organism involved in symbiotic interaction (IEA) | GO:0052215
- obsolete histone succinylation (IEA) | GO:0106077
- obsolete loss of asymmetric budding (IEA) | GO:0007122
- obsolete metal ion homeostasis (IEA) | GO:0055065
- obsolete modulation of catalytic activity in other organism involved in symbiotic interaction (IEA) | GO:0052203
- obsolete modulation of molecular function in other organism involved in symbiotic interaction (IEA) | GO:0052205
- obsolete modulation of peptidase activity in other organism involved in symbiotic interaction (IEA) | GO:0052198
- obsolete mRNA endonucleolytic cleavage involved in unfolded protein response (IEA) | GO:0070055
- obsolete multi-organism cellular localization (IEA) | GO:1902581
- obsolete negative regulation by host of symbiont defense response (IEA) | GO:0052196
- obsolete negative regulation of histone H3-K18 acetylation (IEA) | GO:1902030
- obsolete negative regulation of L-leucine import (IEA) | GO:0060358
- obsolete positive regulation by host of symbiont defense response (IEA) | GO:0052197
- obsolete positive regulation of nucleic acid-templated transcription (IEA) | GO:1903508
- obsolete regulation of apurinic/apyrimidinic endodeoxyribonuclease activity (IEA) | GO:0052721
- obsolete regulation of nucleic acid-templated transcription (IEA) | GO:1903506
- obsolete response to lipoic acid (IEA) | GO:1990479
- obsolete response to long exposure to lithium ion (IEA) | GO:0043460
- obsolete telomere binding (IEA) | GO:0007003
- ommochrome biosynthetic process (IEA) | GO:0006727
- P granule disassembly (IEA) | GO:1903864
- peptidyl-lysine propionylation (IEA) | GO:0061921
- peripheral tolerance induction to nonself antigen (IEA) | GO:0002464
- phagocytosis (IEA) | GO:0006909
- photosynthesis, light harvesting in photosystem I (IEA) | GO:0009768
- photosynthetic NADP+ reduction (IEA) | GO:0009780
- phyllotactic patterning (IEA) | GO:0060771
- plant-type cell wall modification (IEA) | GO:0009827
- polyamine acetylation (IEA) | GO:0032917
- positive regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate catabolic process (IEA) | GO:1902643
- positive regulation of actin binding (IEA) | GO:1904618
- positive regulation of ATF6-mediated unfolded protein response (IEA) | GO:1903893
- positive regulation of cell-cell adhesion (IEA) | GO:0022409
- positive regulation of double-strand break repair via nonhomologous end joining (IEA) | GO:2001034
- positive regulation of glutamate neurotransmitter secretion in response to membrane depolarization (IEA) | GO:0061646
- positive regulation of interleukin-4-mediated signaling pathway (IEA) | GO:1902216
- positive regulation of protein processing (IEA) | GO:0010954
- propan-2-ol biosynthetic process (IEA) | GO:1902640
- prostate induction (IEA) | GO:0060514
- protein K27-linked deubiquitination (IEA) | GO:1990167
- protein localization to nucleoplasm (IEA) | GO:1990173
- protein localization to old growing cell tip (IEA) | GO:1903858
- regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate biosynthetic process (IEA) | GO:1902646
- regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate catabolic process (IEA) | GO:1902641
- regulation of atrial cardiac muscle cell membrane repolarization (IEA) | GO:0060372
- regulation of cellular respiration (IEA) | GO:0043457
- regulation of chitin metabolic process (IEA) | GO:0032882
- regulation of cytokinin dehydrogenase activity (IEA) | GO:1903856
- regulation of dendrite extension (IEA) | GO:1903859
- regulation of flocculation (IEA) | GO:0060256
- regulation of frizzled signaling pathway (IEA) | GO:0008590
- regulation of interleukin-27-mediated signaling pathway (IEA) | GO:0070107
- regulation of pentose-phosphate shunt (IEA) | GO:0043456
- regulation of positive chemotaxis to cAMP by DIF-1 (IEA) | GO:0061120
- regulation of protein localization to cell cortex (IEA) | GO:1904776
- regulation of protein localization to cell division site (IEA) | GO:1901900
- regulation of Wnt signaling pathway, calcium modulating pathway (IEA) | GO:0008591
- response to high density lipoprotein particle (IEA) | GO:0055099
- response to iron(II) ion (IEA) | GO:0010040
- response to low-density lipoprotein particle stimulus (IEA) | GO:0055098
- response to methamphetamine hydrochloride (IEA) | GO:1904313
- response to oxygen radical (IEA) | GO:0000305
- response to reactive oxygen species (IEA) | GO:0000302
- semaphorin-plexin signaling pathway involved in outflow tract morphogenesis (IEA) | GO:0071527
- single-organism intracellular transport (IEA) | GO:1902582
- striated muscle myosin thick filament assembly (IEA) | GO:0071688
- T cell mediated immune response to tumor cell (IEA) | GO:0002424
- trabecula morphogenesis (IEA) | GO:0061383
- vacuolar acidification (IEA) | GO:0007035
Domains
Gene Expression Profile
Vegetative Cell Cycle (Zhang et al.,
2023)
GeneMania
Tetrahymena Stock Center
No Data fetched for Tetrahymena Stock Center
Homologs
No Data fetched for Homologs
General Information
No. Gene Name(s) Paragraph Text 2217 MYO10, MYO11, MYO1, MYO4, MYO9, MYO5, MYO12, MYO3, MYO13, MYO4a, MYO2 Proteins of the myosin superfamily are ATP-dependent molecular motors that travel unidirectionally along actin filaments. The myosin heavy chain proteins are comprised of three domains: a head (motor) domain responsible for ATP hydrolysis at the N-terminus, a neck (lever arm) region, and a C-terminal tail region. Thirteen predicted myosin heavy chain genes have been identified in the Tetrahymena genome and named MYO1-MYO13. A phylogenetic analysis comparing these predicted proteins with the 19 previously identified myosin classes suggests that Myo1p-Myo12p belong to a previously undescribed class of myosins. This new family, designated Class XX, does not include Myo13p, which did not branch with this class or any of the other classes in the analysis. The neck and tail regions of the Tetrahymena myosins include a variety of domains characterized in other myosin classes, with each protein containing one or more of the following domains: coiled-coil (which may support dimerization); IQ motif (binding sites for calmodulin or calmodulin-like proteins); FERM domain (Four-point-one protein, Ezrin, Radixin, Moesin homology); and MyTH4 domain (Myosin Tail Homology 4).
Associated Literature
- Ref:16505385: Foth BJ, Goedecke MC, Soldati D (2006) New insights into myosin evolution and classification. Proceedings of the National Academy of Sciences of the United States of America 103(10):3681-6
- Ref:15988740: Williams SA, Gavin RH (2005) Myosin genes in Tetrahymena. Cell motility and the cytoskeleton 61(4):237-43
Sequences
>TTHERM_00046470(coding)
ATGGATGGACTTAAAGATTGGAAACAAAATGGAGCTCTTTGTTGGGTTGAAAGAGAGGTA
AGTGAGAATACTAAGTAGATTTTTGAGGAGGCTGTCATCAATACAAATTATTTTAGAAAA
AATGTGCTCATCAAAGTTTAAGATAAAGAAGAAGAAGTATCTTTGGATAAATTACACTAG
AGATCTCCTTATGAATAAAATGAAGATGATATGGTCAATATGAGAATATTAAATGATGCT
GAACTTGTTATTAACATATAAAAAAGATACTAAAATAACAAAATATTCACTTATGTTGGT
CCTACTCTTCTAGTCGTTAATCCATTTTAGTATGTTCCAGGGTTAAATACTGAAGAAAAA
ATGAGGTTTTACCACAATTAAATTATAGAAAATTCTAAGGGTAATGGTTCTTTAGCTATA
AAAAGCTTAGAACCACATGTATATGCTATAGCTGCAGAGTCATTTAGATCATTATTTGAT
TAAGAGAAAAACTAAGCTATTGTTATTAGTGGTGAATCAGGAGCAGGTAAAACTGAAAAT
GCAAAGTTATGCATGAAATTTTTAACAACTAGTATAAGCTAACATAAATCTCCCGAAAAA
GTACGTCTTAGAAAAAAAACCATTTCTTCTTTAGGACCTCCAATATTAGCTAGTCCAACA
TCCTCTATGCTTAGAGAAAGCAGCAAATCATAGTCTATAGAAGAAAAGATTTTAAGTTGC
AACCCTATCTTAGAATCTTTTGGTAATGCGAAGACTATTAGAAATGATAATTCTAGTCGT
TTTGGTAAGTATGTAACATTATTCGTAGATATGATTGATACTAAGATTATTGGAGCAGAA
ATTGCAAATTATTTACTTGAAAAAGTCAGAATTATTTAATAGGGTGTAGAAGAAAGAAAT
TTTCATATATTCTATCATTTCTTGAATGGTGCTAGTGTGCAGTAACTAAGCAAATACTAT
CTAGAAATAAATGGCAAACGCTTATAGCCTTAGTATTTTAGCTACTTAAAGAATCAAAAT
ATAGAAGTAAAATCTATTGATGACTGTAAGCTTTACGAAGAAGTAGTTAATGCTTTAGAT
GTATTAGAATTAAATGAATTTGCAGATTCTATATGGAGGATACTAGCTGCTATTTTGCAT
TTGGGAAATTTACAATTTAAATAATCTTAAATAAACAAAGATTAATTTGAAGTTTCTGAT
AAGCAGCAAATATAAATTATCTCTAATCTACTTGGAATTTAAGCTGAGGAACTTGAAAGA
GAGCTAACAATTAAATAATTTAAAGTTTAAGGAGAAGGATTTGCCAAGGAATTGAGCTTA
CCAGAATGTTAAAATTAAAGAGATTCAATAGCAAAAGAGCTTTATGATAGACTTTTTAAT
TGGCTAGTGAACTAACTAAACAGGACGATAATGCCAAAAGACATTTCAAAATAGCAAATT
TTATCATCAAATTTATACAAATCAATAGGTTTATTGGATATATATGGATTTGAGGTATTC
TAAAAAAACGGTTTTGAATAATTCTTTATCAATTACACAAATGAGAGACTTCACTAATTA
TATATTTCATACGTCTTTAAGGCAGAAGAGTTAACATTTAAGGAAGAAAGACTTGAGTAG
TATTTTAAAAAGCTTGATTTTAAAGATAATTAAGATGTTATAGATGTGTTAGATAATAAT
GATAGGCAGAAGCCTCTTGGTATTTTTAAGTTGTTAGAAGATAAATGTAAACAAAAAGGA
ACTATAATAGATGCTAAATTACTTTCAGACATTTAAAAATAGCATGGAGATAAAGAAATT
TACATTAAAAATCCAAATTATAAATTTAAAAATCCAAAGAAAATAAATGACTCAACATTT
ATAATTATACATACTGCAAAGGAGGTTGAATATGATATTAAAGGATTTATAGAAAAAAAT
AAAGATGAGGTCAATGAAGGTTTAATAAATAAAATAAATAATTCATAAATAAGAGGAATC
AGTTAAATCATAAGCGAAAAGGATAAAGAATTATTAGATGAAAGCACAGCATCATAATAA
GTTAAAATGAGATAAATAAGTTAAAAATTTATATCTGAAATGTCATTTCTTATGGATGTA
CTGATGTAATGTAATGTCTAATTTATTAGATGCATAAAGCCAAATGAAGAGAAAAAACCA
TAGTTATTTAATCAGGGTTTTACTTTAAATTAAATTCGTTACTTAGGTGTATTGGAGTCA
ATTAACATCAGAAAGCAAAGTTATCCAATAAGATAAAGCTATGAATCATTTTTTAATAAA
TATTCACTCTTGATGCTAAACAAGTTAAATATTTAAGATTAAATAAATAAAAAAAGTCTT
GTTGAAGAATTGTTTAGAAAAAATTTCAGTTCAATACCAAAAGAGAACAGATTATTTGGG
GTAACAAAAATTTTTTTCAAAAACTATGAAGTTCTGCAATAAATTGAAGATATATACAAT
AAAGAAATTTCGAATATACGCAATTTAGTTCTTAGAATTGAAAGTATATAATTGTTGTTT
CTTCTTAAAAGAAAAAGAGCTTCTGAAATAATTTAAAGTTACTGCTTTTAGAAAACAGCT
ATCTCTTATTATGAGCAAGCGATGGAAAATATAAAAAAAATATAATTCCATTGGAGAGCA
GCTTATTAGAGACTTAGAGAAGTTAGAAGTAAAAGAATCAAAAATACTTATATTATAAAG
GAAGTTTTGAATAAAGCTTGGTAAAAAATATTTACCAGATCAGTTACGACAATAGTTGAA
AAGACAAAAAAGCTAGTAAGATGCTATTACTTAAAGTAGATGTTTTCAAAACAACTCTAT
GAAATAAGAACAAAAAAAGCAGCTGTTATTTTTCTGAAACTTTTAAAAGGAAACTTTGTT
AGAAAAAGAATAAAAAGGTTTAATTTAGCTGCATAGAAGATACAAGCCAAAGTTAAGTAG
ATTTGGCTTACTGAATTATATTAAAAATTGAGAAAAGCAATAATTATTATTTAAAGAAAT
GCTAGAATATTTATCATAAGAAAAAGAGAAAGGAATTAAAGAAATGCAGAATTTTTAGGA
CCATTAGAATAAAATCTAAAAAGAATACGTATTTCTGAAGAATTGCTTCTATTTAATGGT
TAGTCTAAAGTTATTGATTAAAACACTTCTTTATAAAATGAGATATTCCGTCTAGACAAG
AGTTTAGAAAATGTTTTAGAAAAATCACATGAGCACTTCTTTTAGTAGAGAATGTATTTG
TTTAGTTATGTCATTGATTTTGAAATATTATCTGATACAAGCGAAATTTATGATCCTTTG
TGGTCATCTTTATACCAAGCTTCGTTTAAGGATAACTACGATAAACAGTCATATATCTAG
CACATTTCAATAGGAGATACTCACAGCTTAACCTGTAGCTTAAGCAGTAAGATTCATACT
TGGGGATGGAACGATTTTGGGTAACTGGGAGTACCAATTGTAGATGAAGACGATCCTAAC
CAAGAATAAAACGTTTATACTGGTACATCAATTTACTCGATGAATGTCCCTCCTTAAATT
AAAAGAATTGCACAAATTTCTTCTGGTAGTAATCATTCTTTGCTACTTGATCACAGAGGG
TAAATATGGTCTTGGGGTTGCAACAACAGAGGATAATTGGGACTGAATCATTATGAAAAT
ATGGAAACACCGTAAAAGATTACATATCTAATGAATCCCAAAACCGAGTTTTGCAAAGTT
GAGTGCAGAGATGATGAAAACTATGCTATCACAAAAAGTGGTTAACTATTTCACTGGCCC
ACTCTAGGAATGTAAGGTGAGTGTGTGAATTACCCCCTTGAGGTAGTCATACCTAAAATA
ACCATTAAAGATGTGAGCTGTGGCCATAAATTTGTAATGATTTTAAGTAACTCTGGGCTT
TTATTTAGTTATGGAGAAAACAAAGAAGGCTAATTAGGATTAGGAGATCTGAATCCAAGA
AAAATACCTACTCTAGTTTACTGTTTGAGAGATGCTGGAGAGAAAATAAGCTAAATAGAT
TGCGGATTTAAGCACACAATATGCAAAACATCTTTAGGTAAGGTTTATACTTGGGGATGG
GGAGGAAGAGGATAACTAGGACATGGAACAACAAATAATGAAATATACCCAAGAATTTTG
TCATTTTCTAATTTGGCCAAAGATAAATAGACTCCAACGTTATTTAAAGATAAATGCCTG
CAGGTAGTGGCAGGACATAGATGCTCGATGCTTTTAATGGAAAGCAGGAAAATTTATCAA
TTTGGCTCCAATTCATCATTAGATCATTAATCTTTCCCAGTTGAATTTAATATCAGATCG
AAAAGCGACAAATTAAGCTAGAATTTTTATGAGCCGATCAGAATCCAATCTTCATGGAGT
AAAACATTAAGCTTAATATATGTTACTTATGGAAATACAAAAAATTGTTTTGAAAAAAAT
ACTGTCCTAAAAACAAAAACAATAAATAATCTAACTTAAAAATGGGCTGATACAAACATA
GATACAATTGACCCTCCATTTATAGAAAAGATAGCAAACTATATTTCAGAGAAAAATATG
AAAATGCCTTTGTTTAAAATGCCTACGATGCAGTTCGAATCCAAAATTAAATATAATTAA
CTTAAACACGAACTTATCGAGGCTGATTAAATGAATAAAATTGAAATAGAGTATATGAAT
GCCTTGCAATACGAATAATAAGAAATTTATAATCAAAACCATCTAAGCTAAGGCAATCAT
TTATTAATTGAAGATCCTTAACTCACTTACTAAAACAGGTAAGTATTAGAAGAAATTAAT
TTCTAAAGAGAAAACTGGGAGGAATTTTAATCATTGGGTTTGGCACAAAGCACAAAAGAC
AGTTTAGTTGATCTTAACTATGAAGAATATTTTAGAAATTAGCAAGAATTATAATAGAGA
ATTATCTAAGAACAACAATAATAATTATAATAAGAAGAGGAAAACAGGGCTATAATAAAC
TCTTAGAAACTGAGTTAAAAGAAATAATACCCATCTTATAAAAAGTCAAACACTACATAA
TATCAAGTCGTAGAAATACCTGAAAGCAAGTCAAATGCAAGTATATCTAATAATTCTATT
AATAATAGTAAGAGACTTGATCAAAAAAGTATTAACGACACACTATCTAAGGCCTCTTCA
TCATCTTTTAATAATAAATAAAAAAGCAGTAGTAATTAGTCCTCATAAAATATAAAAAAT
TCATCAGTTGTGCAATAAGCTAATTAATAAAGTTTATCATTTTTTGAATAGCAAGGAAAC
TTAGATAGGAGATAAATGTTATAAATAGTAAAGGAAAAAGTGCTACAATTATCTAAAGTA
CCTGAAAATGAATGGACAGAAAATGATAGAAAATTTATGTAAGGAGCAATGCAATTAAGT
TAATTTGACTTTGATAATGCTTCTGAAAATAACTTATCTAAATCATAAGATAATAGTTCA
ATTAATAATAGTCAGGCAAGCTAAAGAATGGAATAAATACCTACTGATAAAGCATAGTAA
AATAACAGGGCTAGTATCAGCTCAAATTCTTCTAAAAAAAGTGCAATCTCTCAAAAAAGT
TAAAATCAACAAGAAAAAAATTAAAAGTAATAAATAAATCCTCAGCTTATTAATGTCAAA
AAGAAATGGGATGAAATCAGAAACACTCCATAATAGCAGTGGACATAAAATGACTATCAA
TTTATGGAAATTGTAAAGGCAAATAACTTAGAAAAAGTTTTATTAGAATTTGATTGA>TTHERM_00046470(gene)
ATTTTGATTCAAATAATAAACAAATTAATTTGTTACATAACCAATCAAAAATAAATTATT
TTTGCAATAGCAAAGATAGCTATATACACCTTATTAAGAGAGATAATAAACATATTTTCA
ATTGTATAATTTGTAAGGTTATTTGTTAACATTGATCTTTCTTGCTTAATTTATATTTTG
AAATGGATGGACTTAAAGATTGGAAACAAAATGGAGCTCTTTGTTGGGTTGAAAGAGAGG
TAAGTGAGAATACTAAGTAGATTTTTGAGGAGGCTGTCATCAATACAAATTATTTTAGAA
AAAATGTGCTCATCAAAGTTTAAGATAAAGAAGAAGAAGTATCTTTGGATAAATTACACT
AGAGATCTCCTTATGAATAAAATGAAGATGATATGGTCAATATGAGAATATTAAATGATG
CTGAACTTGTTATTAACATATAAAAAAGATACTAAAATAACAAAATATTCACTTATGTTG
GTCCTACTCTTCTAGTCGTTAATCCATTTTAGTATGTTCCAGGGTTAAATACTGAAGAAA
AAATGAGGTTTTACCACAATTAAATTATAGAAAATTCTAAGGGTAATGGTTCTTTAGCTA
TAAAAAGCTTAGAACCACATGTATATGCTATAGCTGCAGAGTCATTTAGATCATTATTTG
ATTAAGAGAAAAACTAAGCTATTGTTATTAGTGGTGAATCAGGAGCAGGTAAAACTGAAA
ATGCAAAGTTATGCATGAAATTTTTAACAACTAGTATAAGCTAACATAAATCTCCCGAAA
AAGTACGTCTTAGAAAAAAAACCATTTCTTCTTTAGGACCTCCAATATTAGCTAGTCCAA
CATCCTCTATGCTTAGAGAAAGCAGCAAATCATAGTCTATAGAAGAAAAGATTTTAAGTT
GCAACCCTATCTTAGAATCTTTTGGTAATGCGAAGACTATTAGAAATGATAATTCTAGTC
GTTTTGGTAAGTATGTAACATTATTCGTAGATATGATTGATACTAAGATTATTGGAGCAG
AAATTGCAAATTATTTACTTGAAAAAGTCAGAATTATTTAATAGGGTGTAGAAGAAAGAA
ATTTTCATATATTCTATCATTTCTTGAATGGTGCTAGTGTGCAGTAACTAAGCAAATACT
ATCTAGAAATAAATGGCAAACGCTTATAGCCTTAGTATTTTAGCTACTTAAAGAATCAAA
ATATAGAAGTAAAATCTATTGATGACTGTAAGCTTTACGAAGAAGTAGTTAATGCTTTAG
ATGTATTAGAATTAAATGAATTTGCAGATTCTATATGGAGGATACTAGCTGCTATTTTGC
ATTTGGGAAATTTACAATTTAAATAATCTTAAATAAACAAAGATTAATTTGAAGTTTCTG
ATAAGCAGCAAATATAAATTATCTCTAATCTACTTGGAATTTAAGCTGAGGAACTTGAAA
GAGAGCTAACAATTAAATAATTTAAAGTTTAAGGAGAAGGATTTGCCAAGGAATTGAGCT
TACCAGAATGTTAAAATTAAAGAGATTCAATAGCAAAAGAGCTTTATGATAGACTTTTTA
ATTGGCTAGTGAACTAACTAAACAGGACGATAATGCCAAAAGACATTTCAAAATAGCAAA
TTTTATCATCAAATTTATACAAATCAATAGGTTTATTGGATATATATGGATTTGAGGTAT
TCTAAAAAAACGGTTTTGAATAATTCTTTATCAATTACACAAATGAGAGACTTCACTAAT
TATATATTTCATACGTCTTTAAGGCAGAAGAGTTAACATTTAAGGAAGAAAGACTTGAGT
AGTATTTTAAAAAGCTTGATTTTAAAGATAATTAAGATGTTATAGATGTGTTAGATAATA
ATGATAGGCAGAAGCCTCTTGGTATTTTTAAGTTGTTAGAAGATAAATGTAAACAAAAAG
GAACTATAATAGATGCTAAATTACTTTCAGACATTTAAAAATAGCATGGAGATAAAGAAA
TTTACATTAAAAATCCAAATTATAAATTTAAAAATCCAAAGAAAATAAATGACTCAACAT
TTATAATTATACATACTGCAAAGGAGGTTGAATATGATATTAAAGGATTTATAGAAAAAA
ATAAAGATGAGGTCAATGAAGGTTTAATAAATAAAATAAATAATTCATAAATAAGAGGAA
TCAGTTAAATCATAAGCGAAAAGGATAAAGAATTATTAGATGAAAGCACAGCATCATAAT
AAGTTAAAATGAGATAAATAAGTTAAAAATTTATATCTGAAATGTCATTTCTTATGGATG
TACTGATGTAATGTAATGTCTAATTTATTAGATGCATAAAGCCAAATGAAGAGAAAAAAC
CATAGTTATTTAATCAGGGTTTTACTTTAAATTAAATTCGTTACTTAGGTGTATTGGAGT
CAATTAACATCAGAAAGCAAAGTTATCCAATAAGATAAAGCTATGAATCATTTTTTAATA
AATATTCACTCTTGATGCTAAACAAGTTAAATATTTAAGATTAAATAAATAAAAAAAGTC
TTGTTGAAGAATTGTTTAGAAAAAATTTCAGTTCAATACCAAAAGAGAACAGATTATTTG
GGGTAACAAAAATTTTTTTCAAAAACTATGAAGTTCTGCAATAAATTGAAGATATATACA
ATAAAGAAATTTCGAATATACGCAATTTAGTTCTTAGAATTGAAAGTATATAATTGTTGT
TTCTTCTTAAAAGAAAAAGAGCTTCTGAAATAATTTAAAGTTACTGCTTTTAGAAAACAG
CTATCTCTTATTATGAGCAAGCGATGGAAAATATAAAAAAAATATAATTCCATTGGAGAG
CAGCTTATTAGAGACTTAGAGAAGTTAGAAGTAAAAGAATCAAAAATACTTATATTATAA
AGGAAGTTTTGAATAAAGCTTGGTAAAAAATATTTACCAGATCAGTTACGACAATAGTTG
AAAAGACAAAAAAGCTAGTAAGATGCTATTACTTAAAGTAGATGTTTTCAAAACAACTCT
ATGAAATAAGAACAAAAAAAGCAGCTGTTATTTTTCTGAAACTTTTAAAAGGAAACTTTG
TTAGAAAAAGAATAAAAAGGTTTAATTTAGCTGCATAGAAGATACAAGCCAAAGTTAAGT
AGATTTGGCTTACTGAATTATATTAAAAATTGAGAAAAGCAATAATTATTATTTAAAGAA
ATGCTAGAATATTTATCATAAGAAAAAGAGAAAGGAATTAAAGAAATGCAGAATTTTTAG
GACCATTAGAATAAAATCTAAAAAGAATACGTATTTCTGAAGAATTGCTTCTATTTAATG
GTTAGTCTAAAGTTATTGATTAAAACACTTCTTTATAAAATGAGATATTCCGTCTAGACA
AGAGTTTAGAAAATGTTTTAGAAAAATCACATGAGCACTTCTTTTAGTAGAGAATGTATT
TGTTTAGTTATGTCATTGATTTTGAAATATTATCTGATACAAGCGAAATTTATGATCCTT
TGTGGTCATCTTTATACCAAGCTTCGTTTAAGGATAACTACGATAAACAGTCATATATCT
AGCACATTTCAATAGGAGATACTCACAGCTTAACCTGTAGCTTAAGCAGTAAGATTCATA
CTTGGGGATGGAACGATTTTGGGTAACTGGGAGTACCAATTGTAGATGAAGACGATCCTA
ACCAAGAATAAAACGTTTATACTGGTACATCAATTTACTCGATGAATGTCCCTCCTTAAA
TTAAAAGAATTGCACAAATTTCTTCTGGTAGTAATCATTCTTTGCTACTTGATCACAGAG
GGTAAATATGGTCTTGGGGTTGCAACAACAGAGGATAATTGGGACTGAATCATTATGAAA
ATATGGAAACACCGTAAAAGATTACATATCTAATGAATCCCAAAACCGAGTTTTGCAAAG
TTGAGTGCAGAGATGATGAAAACTATGCTATCACAAAAAGTGGTTAACTATTTCACTGGC
CCACTCTAGGAATGTAAGGTGAGTGTGTGAATTACCCCCTTGAGGTAGTCATACCTAAAA
TAACCATTAAAGATGTGAGCTGTGGCCATAAATTTGTAATGATTTTAAGTAACTCTGGGC
TTTTATTTAGTTATGGAGAAAACAAAGAAGGCTAATTAGGATTAGGAGATCTGAATCCAA
GAAAAATACCTACTCTAGTTTACTGTTTGAGAGATGCTGGAGAGAAAATAAGCTAAATAG
ATTGCGGATTTAAGCACACAATATGCAAAACATCTTTAGGTAAGGTTTATACTTGGGGAT
GGGGAGGAAGAGGATAACTAGGACATGGAACAACAAATAATGAAATATACCCAAGAATTT
TGTCATTTTCTAATTTGGCCAAAGATAAATAGACTCCAACGTTATTTAAAGATAAATGCC
TGCAGGTAGTGGCAGGACATAGATGCTCGATGCTTTTAATGGAAAGCAGGAAAATTTATC
AATTTGGCTCCAATTCATCATTAGATCATTAATCTTTCCCAGTTGAATTTAATATCAGAT
CGAAAAGCGACAAATTAAGCTAGAATTTTTATGAGCCGATCAGAATCCAATCTTCATGGA
GTAAAACATTAAGCTTAATATATGTTACTTATGGAAATACAAAAAATTGTTTTGAAAAAA
ATACTGTCCTAAAAACAAAAACAATAAATAATCTAACTTAAAAATGGGCTGATACAAACA
TAGATACAATTGACCCTCCATTTATAGAAAAGATAGCAAACTATATTTCAGAGAAAAATA
TGAAAATGCCTTTGTTTAAAATGCCTACGATGCAGTTCGAATCCAAAATTAAATATAATT
AACTTAAACACGAACTTATCGAGGCTGATTAAATGAATAAAATTGAAATAGAGTATATGA
ATGCCTTGCAATACGAATAATAAGAAATTTATAATCAAAACCATCTAAGCTAAGGCAATC
ATTTATTAATTGAAGATCCTTAACTCACTTACTAAAACAGGTAAGTATTAGAAGAAATTA
ATTTCTAAAGAGAAAACTGGGAGGAATTTTAATCATTGGGTTTGGCACAAAGCACAAAAG
ACAGTTTAGTTGATCTTAACTATGAAGAATATTTTAGAAATTAGCAAGAATTATAATAGA
GAATTATCTAAGAACAACAATAATAATTATAATAAGAAGAGGAAAACAGGGCTATAATAA
ACTCTTAGAAACTGAGTTAAAAGAAATAATACCCATCTTATAAAAAGTCAAACACTACAT
AATATCAAGTCGTAGAAATACCTGAAAGCAAGTCAAATGCAAGTATATCTAATAATTCTA
TTAATAATAGTAAGAGACTTGATCAAAAAAGTATTAACGACACACTATCTAAGGCCTCTT
CATCATCTTTTAATAATAAATAAAAAAGCAGTAGTAATTAGTCCTCATAAAATATAAAAA
ATTCATCAGTTGTGCAATAAGCTAATTAATAAAGTTTATCATTTTTTGAATAGCAAGGAA
ACTTAGATAGGAGATAAATGTTATAAATAGTAAAGGAAAAAGTGCTACAATTATCTAAAG
TACCTGAAAATGAATGGACAGAAAATGATAGAAAATTTATGTAAGGAGCAATGCAATTAA
GTTAATTTGACTTTGATAATGCTTCTGAAAATAACTTATCTAAATCATAAGATAATAGTT
CAATTAATAATAGTCAGGCAAGCTAAAGAATGGAATAAATACCTACTGATAAAGCATAGT
AAAATAACAGGGCTAGTATCAGCTCAAATTCTTCTAAAAAAAGTGCAATCTCTCAAAAAA
GTTAAAATCAACAAGAAAAAAATTAAAAGTAATAAATAAATCCTCAGCTTATTAATGTCA
AAAAGAAATGGGATGAAATCAGAAACACTCCATAATAGCAGTGGACATAAAATGACTATC
AATTTATGGAAATTGTAAAGGCAAATAACTTAGAAAAAGTTTTATTAGAATTTGATTGAA
AGTAAAAAATTAAATACGATAAATAAAATTAATTAAAAAAAATAAATTAAATGCATTTTT
ATATATTTTGTAAATAAACTTTGCTTAATAAAATTTAT>TTHERM_00046470(protein)
MDGLKDWKQNGALCWVEREVSENTKQIFEEAVINTNYFRKNVLIKVQDKEEEVSLDKLHQ
RSPYEQNEDDMVNMRILNDAELVINIQKRYQNNKIFTYVGPTLLVVNPFQYVPGLNTEEK
MRFYHNQIIENSKGNGSLAIKSLEPHVYAIAAESFRSLFDQEKNQAIVISGESGAGKTEN
AKLCMKFLTTSISQHKSPEKVRLRKKTISSLGPPILASPTSSMLRESSKSQSIEEKILSC
NPILESFGNAKTIRNDNSSRFGKYVTLFVDMIDTKIIGAEIANYLLEKVRIIQQGVEERN
FHIFYHFLNGASVQQLSKYYLEINGKRLQPQYFSYLKNQNIEVKSIDDCKLYEEVVNALD
VLELNEFADSIWRILAAILHLGNLQFKQSQINKDQFEVSDKQQIQIISNLLGIQAEELER
ELTIKQFKVQGEGFAKELSLPECQNQRDSIAKELYDRLFNWLVNQLNRTIMPKDISKQQI
LSSNLYKSIGLLDIYGFEVFQKNGFEQFFINYTNERLHQLYISYVFKAEELTFKEERLEQ
YFKKLDFKDNQDVIDVLDNNDRQKPLGIFKLLEDKCKQKGTIIDAKLLSDIQKQHGDKEI
YIKNPNYKFKNPKKINDSTFIIIHTAKEVEYDIKGFIEKNKDEVNEGLINKINNSQIRGI
SQIISEKDKELLDESTASQQVKMRQISQKFISEMSFLMDVLMQCNVQFIRCIKPNEEKKP
QLFNQGFTLNQIRYLGVLESINIRKQSYPIRQSYESFFNKYSLLMLNKLNIQDQINKKSL
VEELFRKNFSSIPKENRLFGVTKIFFKNYEVLQQIEDIYNKEISNIRNLVLRIESIQLLF
LLKRKRASEIIQSYCFQKTAISYYEQAMENIKKIQFHWRAAYQRLREVRSKRIKNTYIIK
EVLNKAWQKIFTRSVTTIVEKTKKLVRCYYLKQMFSKQLYEIRTKKAAVIFLKLLKGNFV
RKRIKRFNLAAQKIQAKVKQIWLTELYQKLRKAIIIIQRNARIFIIRKRERNQRNAEFLG
PLEQNLKRIRISEELLLFNGQSKVIDQNTSLQNEIFRLDKSLENVLEKSHEHFFQQRMYL
FSYVIDFEILSDTSEIYDPLWSSLYQASFKDNYDKQSYIQHISIGDTHSLTCSLSSKIHT
WGWNDFGQLGVPIVDEDDPNQEQNVYTGTSIYSMNVPPQIKRIAQISSGSNHSLLLDHRG
QIWSWGCNNRGQLGLNHYENMETPQKITYLMNPKTEFCKVECRDDENYAITKSGQLFHWP
TLGMQGECVNYPLEVVIPKITIKDVSCGHKFVMILSNSGLLFSYGENKEGQLGLGDLNPR
KIPTLVYCLRDAGEKISQIDCGFKHTICKTSLGKVYTWGWGGRGQLGHGTTNNEIYPRIL
SFSNLAKDKQTPTLFKDKCLQVVAGHRCSMLLMESRKIYQFGSNSSLDHQSFPVEFNIRS
KSDKLSQNFYEPIRIQSSWSKTLSLIYVTYGNTKNCFEKNTVLKTKTINNLTQKWADTNI
DTIDPPFIEKIANYISEKNMKMPLFKMPTMQFESKIKYNQLKHELIEADQMNKIEIEYMN
ALQYEQQEIYNQNHLSQGNHLLIEDPQLTYQNRQVLEEINFQRENWEEFQSLGLAQSTKD
SLVDLNYEEYFRNQQELQQRIIQEQQQQLQQEEENRAIINSQKLSQKKQYPSYKKSNTTQ
YQVVEIPESKSNASISNNSINNSKRLDQKSINDTLSKASSSSFNNKQKSSSNQSSQNIKN
SSVVQQANQQSLSFFEQQGNLDRRQMLQIVKEKVLQLSKVPENEWTENDRKFMQGAMQLS
QFDFDNASENNLSKSQDNSSINNSQASQRMEQIPTDKAQQNNRASISSNSSKKSAISQKS
QNQQEKNQKQQINPQLINVKKKWDEIRNTPQQQWTQNDYQFMEIVKANNLEKVLLEFD
