TGD | Tetrahymena Genome Database Wiki

Identifiers and Description

Gene Model Identifier
TTHERM_00112430

Standard Name
MYO1 (MYOsin)

Aliases
PreTt27057 | 8.m00317 | 3812.m02353

Description
MYO1 unconventional myosin heavy chain; Myosin heavy chain; molecular motor involved in phagocytosis and macronuclear elongation; has putative ATP-binding and phosphorylation sites; member of proposed Class XX, distinct from previously defined myosin classes, putative; FERM central domain

Genome Browser (Macronucleus)

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No Genome Browser Data Present

Genome Browser (Micronucleus)

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No Genome Browser Data Present

External Links

Uniprot

Alphafold

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
myosin complex (ISS) | GO:0016459
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
ATP binding (ISS) | GO:0005524
cAMP-dependent protein kinase regulator activity (IEA) | GO:0008603
corticotrophin-releasing factor receptor activity (IEA) | GO:0015056
cytoskeletal motor activity (ISS) | GO:0003774
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
amitosis (IMP) | GO:0051337
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
phagocytosis (IMP) | 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 cycle (IMP) | GO:0045787
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

( PF00063 ) Myosin head (motor domain)
( PF00373 ) FERM central domain
( PF00784 ) MyTH4 domain

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

No results were calculated for this gene in 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:17688250: Hosein RE, Gavin RH (2007) Myo1 localizes to phagosomes, some of which traffic to the nucleus in a Myo1-dependent manner in Tetrahymena thermophila. Cell motility and the cytoskeleton 64(12):926-35
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
Ref:15810016: Hosein RE, Williams SA, Gavin RH (2005) Directed motility of phagosomes in Tetrahymena thermophila requires actin and Myo1p, a novel unconventional myosin. Cell motility and the cytoskeleton 61(1):49-60
Ref:11128708: Williams SA, Hosein RE, GarcÃ©s JA, Gavin RH (2000) MYO1, a novel, unconventional myosin gene affects endocytosis and macronuclear elongation in Tetrahymena thermophila. The Journal of eukaryotic microbiology 47(6):561-8
Ref:9627986: GarcÃ©s J, Gavin RH (1998) A PCR screen identifies a novel, unconventional myosin heavy chain gene (MYO1) in Tetrahymena thermophila. The Journal of eukaryotic microbiology 45(3):252-9

Sequences

>TTHERM_00112430(coding)
ATGAATAAAAGTTATTAAGAATGGATTAATCCTAATGTAGAGTGTTGGGTTTGGCTCAAA
TATGAAAATTCTTAGCAAAATTAAAACAATTCTGAAAATGGATAATATTTCTAGTGCGTT
ATTCAATCAGTATAAAAAGAAAAGAATTTAGCAAAGATAAAAGTTACTTGTAAAGAAGAA
TAATTAGGAAATCGAATATCAGATTAAGCAATTAATGGATAATTAGATGTTTAATTTGAA
AGATTATTAGAAAAGGAAATTATGGTTGATTCTCTTCAAACTTTAGGTTATTCAGATATG
GTTCATATGAAGTATTTAAATGAGGCTGAAATAATCAATAATTTGAGAAAGCGATATTAA
AATAATATGATTTTCACATATATTGGACCAACTTTGGTAGTTATGAATCCATATAAAGAA
ATAGAAGGAGTATAAGATAATCAAGTAATAGATAAAATAAAATCTGATCTAGGCATAAAA
TTTGAAGAGGATTTCAAAATGAATAATCTGAGCACCAACTAAAATATTATAAACACACCT
CATACATATACTGTAAGCGGATTAGCCTACAAATAAATGTTTAGCAATAAGAAAAATTAA
GCAATAGTTATATCAGGCGAAAGTGGAGCAGGTAAAACAGAAAATGCTAAATTATCGATG
CAATTTTTAACAAGTTTGAGTTCAGGGTCTGATAAATAAAATGATTTACTCAATTAATTA
AAGACTCAAACAGCTAAGAATATTCTATTAGAAGAGTTTAACTAATTTGCAATAGAAGTA
AAAATACTTGCTTGTAATCCTATTCTAGAAGCTTTTGGTAATGCTAAAACAGTAAGAAAT
AATAATTCCTCTAGATTTGGTAAATACGTAAAAATCTACATAGATAAAACATCTTAAAAG
ATAAATGGAGCCTCCATTGATAGCTACTTACTCGAAAAGAGCAGAATACCTTGTCCAGGA
AAGGGAGAGAGAAATTATCACATTTTTTACCACATGCTAAAAGGAAATCAAGAACTATCT
AATTTGAGATTGAGTTAGTTCAAAAATTTATCTGATTTTGATTATCTAAAGAAAAGTGAC
TGCTTTGAGGTTGAGAACATTTAAGATGCTAAACTCTATTTGGAAGTAAAGAAGTCCTTC
AGATAAATGAATTTCTCTAACTAAGAGTAAGAAGCTATATTTTCTCTAATATCTGCGATA
CTACTGTTAGGCAATGCAAATTTAGACTCATCAAAAGCTAGCGACACTCAGGCTCCAACT
TTTTTGAACATGAGTTTACCGACACATCATAAAGAATTCAAAAATGCCTCTGAGTTACTC
TAAGTTAATCCTAAAGACCTTGAAGAGTCTTTAGTATTTAAGGTAAGGAAAGTTGGAACT
ACAGTAATTAAATCTCCATAAACTGCTGAAGAATGCTTGTCTATGAGAGACAGTCTAAGT
AAAAATCTATATGATAGTCTTTTTAACTTTTTGGTTTGGAAGTTAAATTAAAATTTGTTG
CCACCTTAAGATTTGCTAAATAAATCATTAAGCATAGGCCTTTTAGATATATTTGGTTTT
GAGAGCTTTGATATAAACTCATTTGAGCAGCTTTGCATTAATTTTACCAATGAAAAATTT
TAGTAATTGTATGTTTAATATGTTTTCAAAAGCGAAGAAGAAGATTATAAATAAGAAGGA
ATTTTGGATGTATTTTCTGATTTATAATATTAAGAGAATTAGCTCATTATTGATACAATT
GAAAAAAAACCCAATGGAATCATGGTGCTTTTAGATGAAAATTGCTCATTGGGATCAGGG
ACGGATGATTCTTTTTTAAATTAAATTACAAAAAACCACTCTAAAAATCAACTTGTCAGC
TTCCCTAAAAAAGATAAATATTCTTTCAGCCTTAGTCATACAGCAAAACAAGTTGTATAT
GATGTGCGCGGATTTAGAGATAAAAATAAAGATGAAGTGAGTACCGAAGTAGAAAAATGT
CTTTAAAGTAGTAAATGTCCAGTTATTGCGAATTTATTATCTTATTAAGGGTCTTAAACT
TAGTAGAATAAAGAAACTTAAAATCTTCAAAATTTTGGAAATAATTTAAATTTTAAAAAA
GCTGAAATTAGTAATCAAATGAACTCAAGTAAAAAGAATGTAAAGTTTCTAGGCTAAAAA
TTTAGATAATCTTTATAGGAATTAATGATAGAATTGAATAATAGCGATGTTCACTTCATA
AGATGTATAAAACCAAACGAAGAAAAGAAAAAGAATTTTTTTAAGTATGATTATGTTTAT
TAGCAAGTACAGTATTTAGGCATACTTGATTCCATTAAAATCCGCAAAGTTGGATATTCT
TACAGAATGACTTATGAAAACTTTTTCTTAGAATACCAAGAACTGGGATAGAAAACAAAA
GGATTAACATTGTAGAAGGTTTAGCAATAAAAGTTAGATTTAAAATAATTAATTACAACA
GAAATATTTGAAAAGACCAATTTATTGCAAAATAAATAACTTCCTTAGAAATGTGTAGCA
TTTGGAAAAACAAAAATATTTCTCAAAAATGAAGTTATGAAGATTTTGCATGAAAAAATT
TAAGAAATTATTTAATAAAGAAAAAAATATGCAAAGCGAATTATTGTCTCAATTTAAAAA
TATCTGTTTAGGAAATACTTCCATAAGAATTTAATGAAAATAAAAAATTAATTAATTAAA
TTGCAATCATTTGCTAGAATGGCTATTTAAAGATAAAAATTCCTAAGGAAAAAGAAATCA
ATATTAAAAATGAAGAAGCTTATTAGGCTAAGAATGTTGGGATAAGGAATCTCTGCATTT
AGGTTAAACTATATCTCATTTGTGTGGGATTTGGTTTGTTTTATGATATTTGATAAAACA
AATATTCATATTGCATTTTAGTAAATTAAATATTATCGTAACCCAAATAAAACTAAGCCT
GTTGTTCAAAATTAAACATCTACAATTTAGTAAAATAAATAGTAAAATCAACAACCTTAA
AAAAGCCAAAATTAAGTTACTTCATCATTTTAAGTAAATAATTAAATGATGCAATAAAAA
TAAAGTCTTGTAGGCCAATAAATTTAATCTATTGTAAACGAGCTTAATTTAGGTGAGATA
TAAATTAATAAAACCTAACAAGATTTAAAAGACTTTAGAAAATCAAAGATTATACCTTAA
GTTAACTTGAATCCATCACATAGTAGTAAGAGGGCCAGCAATGCTTGGAGATAAACCCTA
ATTGCAAGTAGTAGTTAAAATAAAATTAATAAAGATTTGTAGCTATCTGAATTAGGAGAG
TAGAAGCTGATAAATATGAAAGAAACAACTGACTAAAAAGAAAAAATTAAATATACTAAA
CCTCTGATATTATAATTTACAGAGTATAACCCTGCTTATTAGTATGCAGAGTTTAATATG
GAGAGTGCAATAGATTTAGAAGATGTTCCTAATAGTTTAGATTTTGAGGGTGAATTAAAT
GATTTGATAAGTGAAGAAATCATTCAATAAATAAAAAAAAATAACTTTTATTCACACCTT
TCTTTTATTCTTGCAAAAAGAACAAAATGGGGAATCACACAAACTTAAGAGAAAATAATG
AGGCACTAGCTTAAACCAATTTCAAATCCACTAACAAATATTGCTGATTTGAAGAATATA
ATCACCTATGAAGACACAAAAGATGCTGTTTAATCAATTAGGAGTATTATTCAATAAAAT
AATTTATATAATGACACATCAACATAGACTTAAAGACCAATTAATTATGAAGATGCTAGA
ACTGGAAAATTAGATAAGTAAGTATCTAAATAAATTACTAACGATTAATCACAAAAATTA
GCAACTGTCTTTTCGAAATATTCTCTGATGAACCCAAGAAAAGCTAGTGTTAGAGACACA
AACTCACTTGAACAAATTGTCCTATAATAAAGAAAACTTACAAAATTAATTTAGTATAAA
AAATTTTCTCCTTCAGAAAAAGCTATTAACATATTTAAAACTCTCTTAAAGTGCACAGGA
GAAAGAAAATCCCGATATAACAGACACAACAATATCATAAAGCTTCTTACCCTTTGTAAC
GAAGAGTCAATCGACCTAAAAGAAGAAGTTTACGTTTAATTATGCAAATAATTAAGTGCA
AATGATAAAAAGGAGTCAAGAATAAAATATTTAAAGCTGTTTGCTATTATAAGCAGCATA
CTGCCAACAACCAGTAGATTTTATTATCCTTTACTTCACTTTTTATATATGAGAAATACA
GATACTCAAATAGAATAGGATGAGAGAAAATGGTACTAATACTGTTTTCAAAGAATTTAT
AAAAGTGAGTAAATACAAAGAGGATGCATCCCAACTGATACTGAAATTGTAATGATTGAG
AATAAGAAACAAATTTTGATTAGAGTTTATCTTCTAAATGAAATCCCAATTACTGTAGGA
GTAGAAAGCTATACTAGTGTGAAGATGCTTAAGCAGGAGCTACTTTAGAAAATAGGTATA
ACCTAAAGACATGAATATTATGGCCTTATGGAAGTAAGAAACAATATTAAGAAAAAGAGA
AAAGAAACGAGATTTATAGATGAAAGTGAGAGAGTAATGGATGTGATAGCTTTTTGGGAA
AATGAGTAGTATTTATTTGGATCTCAATTAAATTCTTCTTTCATACATAGCAACTCAAAA
TAAAATGATGAAGGTATTGAGCAATTCAACCTTTAAAATTATTAGGATCTTGAAGGACTT
AAAATTTACCTTGGAATCAGAATACTTTTTTCATTTTAAGAAAACGATAAAGAAGCAATA
AGCGTTTTCTACACTTAGCTATCTTCAGAAGTACTTGAAGGAAAGTATGCACCTTTGGAG
GAAAAAGATTACTTGAATTTGGCTGCTTTATAACTGTGCATAGATTTTCCAAGAGACGTC
ATTTTAAAAGAAATATCTAAAAGATAGAGTATCAATGCAGATAGTGGGTCTCCATAAAGA
ACATAGAGTAATTTTTTGAGTGCTACTAGCTAAAGTGAAAGCGGTGCATCACAGCTTAAA
AAGCTTTCTTATTAAGATATTGAACAGATTGATGAATAAGATGAATACGAACAATTCATA
TAAAATAGAAATGAAATTTTAATTGATCCGGTTTTTTACATACCAGCTAAAATGTATTTC
TAAAAAGATATTCAGTAATGGTAACACTTAATACTATAGAATTTGGTTGATAATAGACTT
TTAAAGAAAGAGTACACTCCATCTTAAGCAAAGTTAGCCTACATACTTTATCTTAGTAAG
TAAGATTTGTTTATGAGTACAATATTTAGAGATGTAAAATACCAAAGAATCAAAATTAAA
ACACTAAATGACACACTTTCTTCTAAAGAAAAATATGAGCAAATGATTTAATAAAATTAA
CAAATTCCCATTAAAGACGAGATACTTTTAGCAATAAACCCATCTAATATTCTGATGTGC
GATTCTATAGGTTTAAATAGACCAAAAAGAAGAGTGCAAATTAAAAATATCTAAAAATTT
TGCTGCACTGAGAAGGAAGTTATAGTAATATCTCATGATAATACAAAACATATTTTTGAA
ACTCCCCAATACTGTAGAGAAATAGCTTTCTTAATTCGCTCTTACTTGAGAATATTTTAT
TAAAAATAATAGTAACAACAATAATAAGAAAAAAGTCAATGA

>TTHERM_00112430(gene)
CAATAATTTTAATAGATAGATATGTTTTTATGAGTTGATAAGATCCATTAATTAATTGAC
TAGTAATCAATCAAAAAGATTAGAGATTAAAGCTTTTTATTAATTGGAATTTAACTAAAA
GATATAGCAATTAATTAAAAAGCATTAAAAGGAAGAAATAAGAAATAATATAGATATATT
CTAAAGTAGTCTGAATATTCTAATTTTTTAAAAATTAGCATAGCATAATATTATATAAAT
TGTACAATATACTAGTTTATTTATTATCAATAGTTTTTATTTAGTAAAAATAAATATAGT
TTTTTCCTAGTTTGTTTTATGAATAAAAGTTATTAAGAATGGATTAATCCTAATGTAGAG
TGTTGGGTTTGGCTCAAATATGAAAATTCTTAGCAAAATTAAAACAATTCTGAAAATGGA
TAATATTTCTAGTGCGTTATTCAATCAGTATAAAAAGAAAAGAATTTAGCAAAGATAAAA
GTTACTTGTAAAGAAGAATAATTAGGAAATCGAATATCAGATTAAGCAATTAATGGATAA
TTAGATGTTTAATTTGAAAGATTATTAGAAAAGGAAATTATGGTTGATTCTCTTCAAACT
TTAGGTTATTCAGATATGGTTCATATGAAGTATTTAAATGAGGCTGAAATAATCAATAAT
TTGAGAAAGCGATATTAAAATAATATGATTTTCACATATATTGGACCAACTTTGGTAGTT
ATGAATCCATATAAAGAAATAGAAGGAGTATAAGATAATCAAGTAATAGATAAAATAAAA
TCTGATCTAGGCATAAAATTTGAAGAGGATTTCAAAATGAATAATCTGAGCACCAACTAA
AATATTATAAACACACCTCATACATATACTGTAAGCGGATTAGCCTACAAATAAATGTTT
AGCAATAAGAAAAATTAAGCAATAGTTATATCAGGCGAAAGTGGAGCAGGTAAAACAGAA
AATGCTAAATTATCGATGCAATTTTTAACAAGTTTGAGTTCAGGGTCTGATAAATAAAAT
GATTTACTCAATTAATTAAAGACTCAAACAGCTAAGAATATTCTATTAGAAGAGTTTAAC
TAATTTGCAATAGAAGTAAAAATACTTGCTTGTAATCCTATTCTAGAAGCTTTTGGTAAT
GCTAAAACAGTAAGAAATAATAATTCCTCTAGATTTGGTAAATACGTAAAAATCTACATA
GATAAAACATCTTAAAAGATAAATGGAGCCTCCATTGATAGCTACTTACTCGAAAAGAGC
AGAATACCTTGTCCAGGAAAGGGAGAGAGAAATTATCACATTTTTTACCACATGCTAAAA
GGAAATCAAGAACTATCTAATTTGAGATTGAGTTAGTTCAAAAATTTATCTGATTTTGAT
TATCTAAAGAAAAGTGACTGCTTTGAGGTTGAGAACATTTAAGATGCTAAACTCTATTTG
GAAGTAAAGAAGTCCTTCAGATAAATGAATTTCTCTAACTAAGAGTAAGAAGCTATATTT
TCTCTAATATCTGCGATACTACTGTTAGGCAATGCAAATTTAGACTCATCAAAAGCTAGC
GACACTCAGGCTCCAACTTTTTTGAACATGAGTTTACCGACACATCATAAAGAATTCAAA
AATGCCTCTGAGTTACTCTAAGTTAATCCTAAAGACCTTGAAGAGTCTTTAGTATTTAAG
GTAAGGAAAGTTGGAACTACAGTAATTAAATCTCCATAAACTGCTGAAGAATGCTTGTCT
ATGAGAGACAGTCTAAGTAAAAATCTATATGATAGTCTTTTTAACTTTTTGGTTTGGAAG
TTAAATTAAAATTTGTTGCCACCTTAAGATTTGCTAAATAAATCATTAAGCATAGGCCTT
TTAGATATATTTGGTTTTGAGAGCTTTGATATAAACTCATTTGAGCAGCTTTGCATTAAT
TTTACCAATGAAAAATTTTAGTAATTGTATGTTTAATATGTTTTCAAAAGCGAAGAAGAA
GATTATAAATAAGAAGGAATTTTGGATGTATTTTCTGATTTATAATATTAAGAGAATTAG
CTCATTATTGATACAATTGAAAAAAAACCCAATGGAATCATGGTGCTTTTAGATGAAAAT
TGCTCATTGGGATCAGGGACGGATGATTCTTTTTTAAATTAAATTACAAAAAACCACTCT
AAAAATCAACTTGTCAGCTTCCCTAAAAAAGATAAATATTCTTTCAGCCTTAGTCATACA
GCAAAACAAGTTGTATATGATGTGCGCGGATTTAGAGATAAAAATAAAGATGAAGTGAGT
ACCGAAGTAGAAAAATGTCTTTAAAGTAGTAAATGTCCAGTTATTGCGAATTTATTATCT
TATTAAGGGTCTTAAACTTAGTAGAATAAAGAAACTTAAAATCTTCAAAATTTTGGAAAT
AATTTAAATTTTAAAAAAGCTGAAATTAGTAATCAAATGAACTCAAGTAAAAAGAATGTA
AAGTTTCTAGGCTAAAAATTTAGATAATCTTTATAGGAATTAATGATAGAATTGAATAAT
AGCGATGTTCACTTCATAAGATGTATAAAACCAAACGAAGAAAAGAAAAAGAATTTTTTT
AAGTATGATTATGTTTATTAGCAAGTACAGTATTTAGGCATACTTGATTCCATTAAAATC
CGCAAAGTTGGATATTCTTACAGAATGACTTATGAAAACTTTTTCTTAGAATACCAAGAA
CTGGGATAGAAAACAAAAGGATTAACATTGTAGAAGGTTTAGCAATAAAAGTTAGATTTA
AAATAATTAATTACAACAGAAATATTTGAAAAGACCAATTTATTGCAAAATAAATAACTT
CCTTAGAAATGTGTAGCATTTGGAAAAACAAAAATATTTCTCAAAAATGAAGTTATGAAG
ATTTTGCATGAAAAAATTTAAGAAATTATTTAATAAAGAAAAAAATATGCAAAGCGAATT
ATTGTCTCAATTTAAAAATATCTGTTTAGGAAATACTTCCATAAGAATTTAATGAAAATA
AAAAATTAATTAATTAAATTGCAATCATTTGCTAGAATGGCTATTTAAAGATAAAAATTC
CTAAGGAAAAAGAAATCAATATTAAAAATGAAGAAGCTTATTAGGCTAAGAATGTTGGGA
TAAGGAATCTCTGCATTTAGGTTAAACTATATCTCATTTGTGTGGGATTTGGTTTGTTTT
ATGATATTTGATAAAACAAATATTCATATTGCATTTTAGTAAATTAAATATTATCGTAAC
CCAAATAAAACTAAGCCTGTTGTTCAAAATTAAACATCTACAATTTAGTAAAATAAATAG
TAAAATCAACAACCTTAAAAAAGCCAAAATTAAGTTACTTCATCATTTTAAGTAAATAAT
TAAATGATGCAATAAAAATAAAGTCTTGTAGGCCAATAAATTTAATCTATTGTAAACGAG
CTTAATTTAGGTGAGATATAAATTAATAAAACCTAACAAGATTTAAAAGACTTTAGAAAA
TCAAAGATTATACCTTAAGTTAACTTGAATCCATCACATAGTAGTAAGAGGGCCAGCAAT
GCTTGGAGATAAACCCTAATTGCAAGTAGTAGTTAAAATAAAATTAATAAAGATTTGTAG
CTATCTGAATTAGGAGAGTAGAAGCTGATAAATATGAAAGAAACAACTGACTAAAAAGAA
AAAATTAAATATACTAAACCTCTGATATTATAATTTACAGAGTATAACCCTGCTTATTAG
TATGCAGAGTTTAATATGGAGAGTGCAATAGATTTAGAAGATGTTCCTAATAGTTTAGAT
TTTGAGGGTGAATTAAATGATTTGATAAGTGAAGAAATCATTCAATAAATAAAAAAAAAT
AACTTTTATTCACACCTTTCTTTTATTCTTGCAAAAAGAACAAAATGGGGAATCACACAA
ACTTAAGAGAAAATAATGAGGCACTAGCTTAAACCAATTTCAAATCCACTAACAAATATT
GCTGATTTGAAGAATATAATCACCTATGAAGACACAAAAGATGCTGTTTAATCAATTAGG
AGTATTATTCAATAAAATAATTTATATAATGACACATCAACATAGACTTAAAGACCAATT
AATTATGAAGATGCTAGAACTGGAAAATTAGATAAGTAAGTATCTAAATAAATTACTAAC
GATTAATCACAAAAATTAGCAACTGTCTTTTCGAAATATTCTCTGATGAACCCAAGAAAA
GCTAGTGTTAGAGACACAAACTCACTTGAACAAATTGTCCTATAATAAAGAAAACTTACA
AAATTAATTTAGTATAAAAAATTTTCTCCTTCAGAAAAAGCTATTAACATATTTAAAACT
CTCTTAAAGTGCACAGGAGAAAGAAAATCCCGATATAACAGACACAACAATATCATAAAG
CTTCTTACCCTTTGTAACGAAGAGTCAATCGACCTAAAAGAAGAAGTTTACGTTTAATTA
TGCAAATAATTAAGTGCAAATGATAAAAAGGAGTCAAGAATAAAATATTTAAAGCTGTTT
GCTATTATAAGCAGCATACTGCCAACAACCAGTAGATTTTATTATCCTTTACTTCACTTT
TTATATATGAGAAATACAGATACTCAAATAGAATAGGATGAGAGAAAATGGTACTAATAC
TGTTTTCAAAGAATTTATAAAAGTGAGTAAATACAAAGAGGATGCATCCCAACTGATACT
GAAATTGTAATGATTGAGAATAAGAAACAAATTTTGATTAGAGTTTATCTTCTAAATGAA
ATCCCAATTACTGTAGGAGTAGAAAGCTATACTAGTGTGAAGATGCTTAAGCAGGAGCTA
CTTTAGAAAATAGGTATAACCTAAAGACATGAATATTATGGCCTTATGGAAGTAAGAAAC
AATATTAAGAAAAAGAGAAAAGAAACGAGATTTATAGATGAAAGTGAGAGAGTAATGGAT
GTGATAGCTTTTTGGGAAAATGAGTAGTATTTATTTGGATCTCAATTAAATTCTTCTTTC
ATACATAGCAACTCAAAATAAAATGATGAAGGTATTGAGCAATTCAACCTTTAAAATTAT
TAGGATCTTGAAGGACTTAAAATTTACCTTGGAATCAGAATACTTTTTTCATTTTAAGAA
AACGATAAAGAAGCAATAAGCGTTTTCTACACTTAGCTATCTTCAGAAGTACTTGAAGGA
AAGTATGCACCTTTGGAGGAAAAAGATTACTTGAATTTGGCTGCTTTATAACTGTGCATA
GATTTTCCAAGAGACGTCATTTTAAAAGAAATATCTAAAAGATAGAGTATCAATGCAGAT
AGTGGGTCTCCATAAAGAACATAGAGTAATTTTTTGAGTGCTACTAGCTAAAGTGAAAGC
GGTGCATCACAGCTTAAAAAGCTTTCTTATTAAGATATTGAACAGATTGATGAATAAGAT
GAATACGAACAATTCATATAAAATAGAAATGAAATTTTAATTGATCCGGTTTTTTACATA
CCAGCTAAAATGTATTTCTAAAAAGATATTCAGTAATGGTAACACTTAATACTATAGAAT
TTGGTTGATAATAGACTTTTAAAGAAAGAGTACACTCCATCTTAAGCAAAGTTAGCCTAC
ATACTTTATCTTAGTAAGTAAGATTTGTTTATGAGTACAATATTTAGAGATGTAAAATAC
CAAAGAATCAAAATTAAAACACTAAATGACACACTTTCTTCTAAAGAAAAATATGAGCAA
ATGATTTAATAAAATTAACAAATTCCCATTAAAGACGAGATACTTTTAGCAATAAACCCA
TCTAATATTCTGATGTGCGATTCTATAGGTTTAAATAGACCAAAAAGAAGAGTGCAAATT
AAAAATATCTAAAAATTTTGCTGCACTGAGAAGGAAGTTATAGTAATATCTCATGATAAT
ACAAAACATATTTTTGAAACTCCCCAATACTGTAGAGAAATAGCTTTCTTAATTCGCTCT
TACTTGAGAATATTTTATTAAAAATAATAGTAACAACAATAATAAGAAAAAAGTCAATGA
GTCTCTGTTCCTTTTATTTATAAGTAACAGAACATTTCAAAAAATAATATATTCTCTTGT
TTCAATATTCTATTTATTTAATTTAAATATAAATTACCATTAAGTCTTCTTAATATATAT
TGTTTATATACTAGTTATTTTAATAATTTTAAAA

>TTHERM_00112430(protein)
MNKSYQEWINPNVECWVWLKYENSQQNQNNSENGQYFQCVIQSVQKEKNLAKIKVTCKEE
QLGNRISDQAINGQLDVQFERLLEKEIMVDSLQTLGYSDMVHMKYLNEAEIINNLRKRYQ
NNMIFTYIGPTLVVMNPYKEIEGVQDNQVIDKIKSDLGIKFEEDFKMNNLSTNQNIINTP
HTYTVSGLAYKQMFSNKKNQAIVISGESGAGKTENAKLSMQFLTSLSSGSDKQNDLLNQL
KTQTAKNILLEEFNQFAIEVKILACNPILEAFGNAKTVRNNNSSRFGKYVKIYIDKTSQK
INGASIDSYLLEKSRIPCPGKGERNYHIFYHMLKGNQELSNLRLSQFKNLSDFDYLKKSD
CFEVENIQDAKLYLEVKKSFRQMNFSNQEQEAIFSLISAILLLGNANLDSSKASDTQAPT
FLNMSLPTHHKEFKNASELLQVNPKDLEESLVFKVRKVGTTVIKSPQTAEECLSMRDSLS
KNLYDSLFNFLVWKLNQNLLPPQDLLNKSLSIGLLDIFGFESFDINSFEQLCINFTNEKF
QQLYVQYVFKSEEEDYKQEGILDVFSDLQYQENQLIIDTIEKKPNGIMVLLDENCSLGSG
TDDSFLNQITKNHSKNQLVSFPKKDKYSFSLSHTAKQVVYDVRGFRDKNKDEVSTEVEKC
LQSSKCPVIANLLSYQGSQTQQNKETQNLQNFGNNLNFKKAEISNQMNSSKKNVKFLGQK
FRQSLQELMIELNNSDVHFIRCIKPNEEKKKNFFKYDYVYQQVQYLGILDSIKIRKVGYS
YRMTYENFFLEYQELGQKTKGLTLQKVQQQKLDLKQLITTEIFEKTNLLQNKQLPQKCVA
FGKTKIFLKNEVMKILHEKIQEIIQQRKKYAKRIIVSIQKYLFRKYFHKNLMKIKNQLIK
LQSFARMAIQRQKFLRKKKSILKMKKLIRLRMLGQGISAFRLNYISFVWDLVCFMIFDKT
NIHIAFQQIKYYRNPNKTKPVVQNQTSTIQQNKQQNQQPQKSQNQVTSSFQVNNQMMQQK
QSLVGQQIQSIVNELNLGEIQINKTQQDLKDFRKSKIIPQVNLNPSHSSKRASNAWRQTL
IASSSQNKINKDLQLSELGEQKLINMKETTDQKEKIKYTKPLILQFTEYNPAYQYAEFNM
ESAIDLEDVPNSLDFEGELNDLISEEIIQQIKKNNFYSHLSFILAKRTKWGITQTQEKIM
RHQLKPISNPLTNIADLKNIITYEDTKDAVQSIRSIIQQNNLYNDTSTQTQRPINYEDAR
TGKLDKQVSKQITNDQSQKLATVFSKYSLMNPRKASVRDTNSLEQIVLQQRKLTKLIQYK
KFSPSEKAINIFKTLLKCTGERKSRYNRHNNIIKLLTLCNEESIDLKEEVYVQLCKQLSA
NDKKESRIKYLKLFAIISSILPTTSRFYYPLLHFLYMRNTDTQIEQDERKWYQYCFQRIY
KSEQIQRGCIPTDTEIVMIENKKQILIRVYLLNEIPITVGVESYTSVKMLKQELLQKIGI
TQRHEYYGLMEVRNNIKKKRKETRFIDESERVMDVIAFWENEQYLFGSQLNSSFIHSNSK
QNDEGIEQFNLQNYQDLEGLKIYLGIRILFSFQENDKEAISVFYTQLSSEVLEGKYAPLE
EKDYLNLAALQLCIDFPRDVILKEISKRQSINADSGSPQRTQSNFLSATSQSESGASQLK
KLSYQDIEQIDEQDEYEQFIQNRNEILIDPVFYIPAKMYFQKDIQQWQHLILQNLVDNRL
LKKEYTPSQAKLAYILYLSKQDLFMSTIFRDVKYQRIKIKTLNDTLSSKEKYEQMIQQNQ
QIPIKDEILLAINPSNILMCDSIGLNRPKRRVQIKNIQKFCCTEKEVIVISHDNTKHIFE
TPQYCREIAFLIRSYLRIFYQKQQQQQQQEKSQ

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Gene Model Identifier

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Molecular Function

Biological Process

Domains

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

Tetrahymena Stock Center

Homologs

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Sequences

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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).