TGD | Tetrahymena Genome Database Wiki

Identifiers and Description

Gene Model Identifier
TTHERM_00760460

Standard Name
NUP155

Aliases
PreTt18531 | 125.m00095 | 3672.m00028 | Nup155

Description
NUP155 hypothetical protein; Nucleoporin, Nup155-like

Genome Browser (Macronucleus)

Full Screen View

No Genome Browser Data Present

Genome Browser (Micronucleus)

Full Screen View

No Genome Browser Data Present

External Links

Uniprot

Alphafold

Gene Ontology Annotations

Cellular Component
cellulosome (IEA) | GO:0043263
chloroplast ribosome (IEA) | GO:0043253
collagen type XIX trimer (IEA) | GO:1990318
collagen type XXI trimer (IEA) | GO:1990320
inner plaque of mitotic spindle pole body (IEA) | GO:0061497
nuclear pore (ISS) | GO:0005643
obsolete ectoplasm (IEA) | GO:0043265
outer plaque of mitotic spindle pole body (IEA) | GO:0061499
Molecular Function
11-deoxycorticosterone binding (IEA) | GO:1903878
17alpha-hydroxyprogesterone binding (IEA) | GO:1903880
2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase activity (IEA) | GO:0008685
2-octaprenyl-6-methoxyphenol hydroxylase activity (IEA) | GO:0008681
2-oxoglutarate decarboxylase activity (IEA) | GO:0008683
3-hydroxybutyrate dehydrogenase activity (IEA) | GO:0003858
3-hydroxyisobutyryl-CoA hydrolase activity (IEA) | GO:0003860
3-methyl-2-oxobutanoate hydroxymethyltransferase activity (IEA) | GO:0003864
3-oxo-5-alpha-steroid 4-dehydrogenase activity (IEA) | GO:0003865
acyl-[acyl-carrier-protein]-UDP-N-acetylglucosamine O-acyltransferase activity (IEA) | GO:0008780
all-trans-retinyl-palmitate hydrolase, 11-cis retinol forming activity (IEA) | GO:0052884
arsenate reductase (glutaredoxin) activity (IEA) | GO:0008794
benomyl transporter activity (IEA) | GO:0015242
C-5 sterol desaturase activity (IEA) | GO:0000248
CCR7 chemokine receptor binding (IEA) | GO:0031732
delta-type opioid receptor binding (IEA) | GO:0031850
delta5-delta2,4-dienoyl-CoA isomerase activity (IEA) | GO:0008416
dolichyl pyrophosphate Glc2Man9GlcNAc2 alpha-1,2-glucosyltransferase activity (IEA) | GO:0106073
ferredoxin-NAD(P) reductase activity (IEA) | GO:0008937
G protein-coupled peptide receptor activity (IEA) | GO:0008528
G protein-coupled serotonin receptor binding (IEA) | GO:0031821
heparin binding (IEA) | GO:0008201
L-aspartate oxidase activity (IEA) | GO:0008734
L-gamma-glutamyl-L-propargylglycine hydroxylase activity (IEA) | GO:0062148
lactaldehyde reductase activity (IEA) | GO:0008912
lipopolysaccharide heptosyltransferase activity (IEA) | GO:0008920
lipopolysaccharide-1,6-galactosyltransferase activity (IEA) | GO:0008921
mannitol-1-phosphate 5-dehydrogenase activity (IEA) | GO:0008926
mannose-1-phosphate guanylyltransferase (GDP) activity (IEA) | GO:0008928
nitrate reductase activity (IEA) | GO:0008940
obsolete 4-aminobutyrate transaminase activity (IEA) | GO:0003867
obsolete amiloride transmembrane transporter activity (IEA) | GO:0015240
obsolete DNA topoisomerase IV activity (IEA) | GO:0008724
obsolete oligopeptidase B activity (IEA) | GO:0008945
obsolete phospholipid scrambling (IEA) | GO:0008498
obsolete proprotein convertase 2 activator activity (IEA) | GO:0016484
obsolete protein tagging activity (IEA) | GO:0008638
obsolete sodium-transporting two-sector ATPase activity (IEA) | GO:0015443
obsolete tachykinin (IEA) | GO:0008648
oxaloacetate decarboxylase activity (IEA) | GO:0008948
oxidoreductase activity, acting on phosphorus or arsenic in donors, with a copper protein as acceptor (IEA) | GO:0052882
P-type cadmium transporter activity (IEA) | GO:0008551
P-type potassium transmembrane transporter activity (IEA) | GO:0008556
phosphatidylserine decarboxylase activity (IEA) | GO:0004609
phosphoethanolamine N-methyltransferase activity (IEA) | GO:0000234
phosphoglycerate dehydrogenase activity (IEA) | GO:0004617
protein-transporting ATPase activity (IEA) | GO:0015450
replication fork barrier binding (IEA) | GO:0031634
rhamnulose-1-phosphate aldolase activity (IEA) | GO:0008994
S-adenosyl-L-methionine binding (IEA) | GO:1904047
Ser(Gly)-tRNA(Ala) hydrolase activity (IEA) | GO:0043908
type 4 neuropeptide Y receptor binding (IEA) | GO:0031844
type 7 serotonin receptor binding (IEA) | GO:0031833
zinc efflux active transmembrane transporter activity (IEA) | GO:0015341
Biological Process
3-keto-sphinganine metabolic process (IEA) | GO:0006666
absorption of visible light (IEA) | GO:0016038
activation of Rho GTPase activity (IEA) | GO:0032862
allantoate transport (IEA) | GO:0015719
aromatic amino acid family biosynthetic process (IEA) | GO:0009073
bile acid metabolic process (IEA) | GO:0008206
cell wall modification involved in fruit ripening (IEA) | GO:0009829
cell-cell adhesion involved in sealing an epithelial fold (IEA) | GO:0060607
cellular response to desiccation (IEA) | GO:0071465
cellular response to sorbitol (IEA) | GO:0072709
cement gland development (IEA) | GO:0071570
central nervous system myelin maintenance (IEA) | GO:0032286
coenzyme A metabolic process (IEA) | GO:0015936
commissural neuron axon guidance (IEA) | GO:0071679
copulation (IEA) | GO:0007620
cytokinin biosynthetic process (IEA) | GO:0009691
cytoplasmic translational initiation (IEA) | GO:0002183
embryonic brain development (IEA) | GO:1990403
ethylene metabolic process (IEA) | GO:0009692
extrinsic apoptotic signaling pathway via death domain receptors (IEA) | GO:0008625
fibroblast growth factor receptor signaling pathway (IEA) | GO:0008543
galactose to glucose-1-phosphate metabolic process (IEA) | GO:0061612
gamma-tubulin complex assembly (IEA) | GO:1902481
glycolytic process from glycerol (IEA) | GO:0061613
glycolytic process through fructose-6-phosphate (IEA) | GO:0061615
granzyme-mediated apoptotic signaling pathway (IEA) | GO:0008626
heme A biosynthetic process (IEA) | GO:0006784
heme biosynthetic process (IEA) | GO:0006783
hexasaccharide transport (IEA) | GO:2001102
high-affinity hexose transport (IEA) | GO:0008646
induction of apoptosis by extracellular signals (IEA) | GO:0008624
L-phenylalanine biosynthetic process (IEA) | GO:0009094
loss of chromatin silencing (IEA) | GO:0006345
maltoheptaose catabolic process (IEA) | GO:2001123
maltohexaose transport (IEA) | GO:2001103
mating (IEA) | GO:0007618
metanephric nephron tubule formation (IEA) | GO:0072289
mitotic cell cycle checkpoint signaling (IEA) | GO:0007093
mitotic nuclear division (IEA) | GO:0007067
negative regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate biosynthetic process (IEA) | GO:1902647
negative regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate catabolic process (IEA) | GO:1902642
negative regulation of anterior head development (IEA) | GO:2000743
negative regulation of cellular response to hepatocyte growth factor stimulus (IEA) | GO:2001113
negative regulation of chemokine-mediated signaling pathway (IEA) | GO:0070100
negative regulation of double-strand break repair via nonhomologous end joining (IEA) | GO:2001033
negative regulation of female receptivity (IEA) | GO:0007621
negative regulation of glycine secretion, neurotransmission (IEA) | GO:1904625
negative regulation of L-glutamate import across plasma membrane (IEA) | GO:0002037
negative regulation of L-glutamine biosynthetic process (IEA) | GO:0062133
negative regulation of neural retina development (IEA) | GO:0061076
negative regulation of PERK-mediated unfolded protein response (IEA) | GO:1903898
negative regulation of phytoalexin metabolic process (IEA) | GO:0052321
negative regulation of protein maturation (IEA) | GO:1903318
negative regulation of reductive pentose-phosphate cycle (IEA) | GO:0080153
negative regulation of response to drug (IEA) | GO:2001024
negative regulation of SCF-dependent proteasomal ubiquitin-dependent catabolic process (IEA) | GO:0062026
negative regulation of urea catabolic process (IEA) | GO:1901713
neutral lipid metabolic process (IEA) | GO:0006638
Notch signaling pathway involved in negative regulation of venous endothelial cell fate commitment (IEA) | GO:2000796
nucleotide-binding oligomerization domain containing 2 signaling pathway (IEA) | GO:0070431
obsolete actin filament bundle convergence involved in mitotic contractile ring assembly (IEA) | GO:1903478
obsolete bent DNA binding (IEA) | GO:0006326
obsolete energy taxis in environment of other organism involved in symbiotic interaction (IEA) | GO:0052215
obsolete inheritance of oxidatively modified proteins involved in replicative cell aging (IEA) | GO:0001319
obsolete modulation of catalytic activity in other organism involved in symbiotic interaction (IEA) | GO:0052203
obsolete mRNA endonucleolytic cleavage involved in unfolded protein response (IEA) | GO:0070055
obsolete negative regulation by host of symbiont defense response (IEA) | GO:0052196
obsolete negative regulation of cGMP catabolic process (IEA) | GO:0030830
obsolete negative regulation of histone H3-K27 methylation (IEA) | GO:0061086
obsolete peroxidase reaction (IEA) | GO:0006804
obsolete positive chemotaxis in environment of other organism involved in symbiotic interaction (IEA) | GO:0052221
obsolete regulation of 1-deoxy-D-xylulose-5-phosphate synthase activity (IEA) | GO:1902395
obsolete regulation of cellular ketone metabolic process by regulation of transcription from RNA polymerase II promoter (IEA) | GO:0072364
obsolete regulation of histone H3-K27 methylation (IEA) | GO:0061085
obsolete regulation of nucleic acid-templated transcription (IEA) | GO:1903506
obsolete reproduction (IEA) | GO:0000003
obsolete response to long exposure to lithium ion (IEA) | GO:0043460
ommochrome biosynthetic process (IEA) | GO:0006727
phagocytosis (IEA) | GO:0006909
phenanthrene catabolic process via trans-9(R),10(R)-dihydrodiolphenanthrene (IEA) | GO:0018956
phosphate-containing compound metabolic process (IEA) | GO:0006796
photosynthetic NADP+ reduction (IEA) | GO:0009780
plant-type cell wall modification (IEA) | GO:0009827
positive regulation of 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate catabolic process (IEA) | GO:1902643
positive regulation of antifungal innate immune response (IEA) | GO:1905036
positive regulation of flavonoid biosynthetic process (IEA) | GO:0009963
positive regulation of forebrain neuron differentiation (IEA) | GO:2000979
positive regulation of oxidative phosphorylation (IEA) | GO:1903862
positive regulation of phospholipid translocation (IEA) | GO:0061092
positive regulation of prostaglandin secretion involved in immune response (IEA) | GO:0061078
positive regulation of response to water deprivation (IEA) | GO:1902584
positive regulation of SCF-dependent proteasomal ubiquitin-dependent catabolic process (IEA) | GO:0062027
positive regulation of signal transduction by p53 class mediator (IEA) | GO:1901798
positive regulation of urea catabolic process (IEA) | GO:1901714
pre-replicative complex assembly involved in cell cycle DNA replication (IEA) | GO:1902299
pronephric glomerulus morphogenesis (IEA) | GO:0035775
propan-2-ol biosynthetic process (IEA) | GO:1902640
protein depalmitoylation (IEA) | GO:0002084
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 antisense RNA transcription (IEA) | GO:0060194
regulation of cellular glucuronidation (IEA) | GO:2001029
regulation of cytokinin dehydrogenase activity (IEA) | GO:1903856
regulation of hematopoietic progenitor cell differentiation (IEA) | GO:1901532
regulation of hemicellulose catabolic process (IEA) | GO:2000988
regulation of homeostatic process (IEA) | GO:0032844
regulation of interleukin-27-mediated signaling pathway (IEA) | GO:0070107
regulation of microglial cell migration (IEA) | GO:1904139
regulation of mRNA 3'-UTR binding (IEA) | GO:1903837
regulation of phosphatidylcholine biosynthetic process (IEA) | GO:2001245
regulation of phosphorus utilization (IEA) | GO:0006795
regulation of protein modification by small protein conjugation or removal (IEA) | GO:1903320
regulation of skeletal muscle contraction by chemo-mechanical energy conversion (IEA) | GO:0014862
regulation of skeletal muscle contraction via regulation of action potential (IEA) | GO:0014861
regulation of stress response to copper ion (IEA) | GO:1903853
response to rest involved in regulation of muscle adaptation (IEA) | GO:0014893
response to singlet oxygen (IEA) | GO:0000304
sulfide oxidation, using sulfide dehydrogenase (IEA) | GO:0070222
tertiary alcohol biosynthetic process (IEA) | GO:1902645
transmembrane L-histidine transport from lysosomal lumen to cytosol (IEA) | GO:1904918
transport (ISS) | GO:0006810
vesicle coating (IEA) | GO:0006901

Domains

( PF08801 ) Nup133 N terminal like

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 Data fetched for General Information

Associated Literature

Ref:28386019: Iwamoto M, Osakada H, Mori C, Fukuda Y, Nagao K, Obuse C, Hiraoka Y, Haraguchi T (2017) Compositionally distinct nuclear pore complexes of functionally distinct dimorphic nuclei in the ciliate Tetrahymena. Journal of cell science 130(10):1822-1834
Ref:19375312: Iwamoto M, Mori C, Kojidani T, Bunai F, Hori T, Fukagawa T, Hiraoka Y, Haraguchi T (2009) Two distinct repeat sequences of Nup98 nucleoporins characterize dual nuclei in the binucleated ciliate tetrahymena. Current biology : CB 19(10):843-7

Sequences

>TTHERM_00760460(coding)
ATGAGCATTAACTTTTAATAGATTTCAACATCAAACTATCCAAATTTAAATTAAGAAAAA
ATGTCTTCTAAATTTTTATCCTCTGCTTAGAAGCGTAAGAGAGGGGATGATTATTTCTCT
CAGCAAGGTGGATTGTCTAATTTTAATGCATTTAATACAAATAAAGATAGGGATTAAAAG
TTCGCAGGTGATAGTTTTATAGGCAATTAACAATCTCAGTAAGCACAATTAGGCTATTTC
AATAAATTTGGGGACAATAAATCAACAAATTAAATGAATAACAATAATATTAGCATGATG
AGTAATCATGGATTTGTAATTTAGAATAACCTAAAAGGATATAATAGACATTCTTAGGAA
ACTTCTGCTAATACATTTTTAAATTAATCTTCTAATTAGCTTTATAAATTCAATGCAAAA
AATACAGAAATCAATTAGTTTAACTTTAATAACTAATTTAACTAAATATCTAACGAAACT
TTACCTATTCATTAGGATATTCCTCCTAACCCTCAAATATTAAATCCTGGTAGCTACAAT
ATTTCCTACAATAATGACACTGAATTGTTAAGACGTGAAGTTATCAAAGAATAGAATCTT
TAAGAAAAAATGCTTGTTGTGCAAAAAGAGCAAAAGATTTAATCTGAAATTGCTTACTCT
TTTAAATAAATGTCTCGTCTCTTGGATGCATGCTTGAAGTAGGATGAAACAGGAGCTGGT
ATAACTAGTGTAAAGTAAAATGATTTCTAACTCCCTCATGGAAGCAACTTTATCTAATTC
AAAGCCATTGAATTCCCATAAAGGATTGTAGAGTATTACACTGATTTGTTAGAAAATTAA
TATGAGTCTGATTAATAGCGTAATGATGAAGAATCTATTTCTGTTAATAAGGGAATTATT
GCAGAGTTAAGTTTGGCTTGGGTTAGCATAAATAAAAAATTATTTATGTGGAAATATGGT
CCTTAATCATTTGCATAGTTTACAAGACTTTACAATAAAAATGAATACTACAGACAAAAT
AAAGACTAATATGGCACAAAAAGAGATGATAAAATTGATAAGGATGACCTAAAGGAATTC
GATTTAGAGGACACAATACTTTATATAGCTTTTGGATAACCCAAATATGCAATTTTCAAA
TAAAATGAAATCAAAAATGTTCTTGTGATCGCATTCCCTAATTATATCAAAGTTATGCAT
ATCAAGCTAGAACATAACAACATAGATATTCAAGATATCAATGTTTCAATAAGTACTGAT
CATGAATACGTCAATAAAATTGTGTTCTCTAAGAAAGGAAGAATATTCTTTGGAGGATCA
AGTGGAAGAGTCAAATACATAGATTACTTTAAGTCTTAAATATTAGGAATTACAATAAGC
GAAAAATTCAAAGCTAAAGAAGGTGTGAATTGGTAATAAAAATTCAAACAATAAATTCCT
CTTTTGAATCAAGATCAATAAGTGATTGATATTAGTGTTGATGACACAAGATAGATTTTA
TATGCTTTGGTAGAAGTTTAGTGTGATAAACCTTTTTTTAGAAATCCGTTTTCATATAAC
CCTTACTAATAAAAAACAACTTAAAGAATTGATGTTTATGATTTAGGCGCTTTTGATGAA
GATTTTACTTTAATTGGTTCCTTAACTCATGCTCAATTTGCCGATTAACTCCTTTCTAGC
TAAACAAATCATTTCCATTTACTTCCTACAAGCAAAGAATTAAGTATTATATCAGTATCT
GCTATTGAAAAGTATCAATCAAACGATTATAATTTTGTTATTGTAACCTAATCTGGTATT
AGAGTCTACTATGTATTAAAAACTAAACCAGTAACTGACAAGAAAAACCAAATACTGAGT
GCTCAGGAAACAAAAGAAGCAAGAGAAAAATTCTAAATGTTTGAAAAATATAGACCGATT
GCAGAGTTTTAAATTGCTATTGTGAAGGGAATGTTAGATATTTCTCACTAGAACAGCGCA
TTCAGAAATCTTCATGTTTTTTATGATCACAAAGACTATCAAACTTGCAAAGGAAGCTAT
GTCTAAGTTATAGATGATGAACAGAAAAAATACATTAAATCTGCTTTTGCTACTCGTGGT
GGTGTCGTTATGTAGAAAATAGAAAATAAATAGAACAGGTTAATTTTCATCGAAAGTAAC
TAGTAGTATATTGCAAGGCTCAAGGAAAATATGTTTTCAAACCATCAAATATTTTCTGAA
ATACATCCCAATTTTGTAGTTGCAACAGAGCGCATGGGAGAATTAATTCTTGATTTCCAA
AACAGAGACGAGAACTCCAATATTCTTAATGATTTGACATTTGCTTAAATCCCTGAAAAA
AACTTACTTCCTCCTTAAATTAGTAGCCTAATTTTACTAAATAGCTTTGAATAGCTTGAA
ACAAGTTAGATGATTGGAGAATAAAATGGTCAATAAGCTTATGTTTGCTTGAATGATTTA
ACTAAATAATGTTATTCTTAGCCCTCCCATTATGTAGTACTGACTAGTAAGGGAATTTTA
TTGTATTACTAATAGAGACCTATTGATTTACTTTACCAACTTATTAAGGTACTTCCAGAT
TACATAACTGAGCCAAATTAGACTCAGGCTTAATTGTAATTTTAGCTATTAAACTAAAAG
AAACTAAACAAGTTCAGTAATAAGCAAATTGATATTAAAAACAATCAATAACAGAAATAA
AACTCATTAGAATTTTTTGAATAATTCATTATTACATATGGTGTAACTGAAACATTTGCT
ATGCTCTCATAAATGCTTTGCCACTCTCATTTAGAATACTATCAAAATTTAAATGTCCAT
AACCATCTTGACAAGTAACTTAAAAACAAGTTGTCAGATACTACACTCAACAACACAAAC
AACTTTACCTAGGGAACTTAATATGAGCAAAACACTAATAAATTCCCAGGATAAAAAAAT
AATGAAAAACCTCTTGACCCTTCTCAAATACCTGAAACAATAATCACAGAAATAAGCGAA
TCAATATTGAAAAAGTCTCATTTCTTGTTCTAAAAATATGGAGATATTTTGCTCGATGAG
ACCAGTGAAAATTAATATCAGTCTAAATAAATGAATGACGAATTCTAAAACACATTAGGT
AAAGCTTGGGAATGGACTAGAAGAAAATACACTTCCAAAGTAGAAGGTGTTTTATTATAC
TTCTCTAGATTAATTAGACCTGTTTGGAATAAACCTCTTGTCAATTCATATGCTTTTAAG
TTCTTCATTAATGAGCCTATTGAAAATTTCAAAAGAGAAGAAATTCAAGCTTTTACTCGT
CGTCTCAACGAGTTCAAGTTTTGGTTAGAAAACGAAACTAAAGTCATTTACTGCAACGAA
CTAAAAAACAACACTCTTCTTGGATCTGATTCTAACTAATCAATTAATAATATTTATATG
AAAAGTGCCTCTATTTCTACTTCTAATAGATATGGAAATTAAAATAGATATAAAAGCAAC
GAAGAAAGAATGTAAGAAATAAAAGCAGATGAGGCAAAATTAATTGATGATCTCCTTCGC
TTCTGCAGCAAAATAATTTAAGTTGCAAATCTCTTCCTTTTTATTTCTGAAAATAAATTA
AGGTCAAATCTGAACAACGTAGAATTTAGAGATTTAAGAGAAGAAATTCTATAAATCCGC
TTTAAAGATGTTTTTACTGACAAAAAGAATGAAAAAATTGTTAAAAACTATGTCTTATAA
GCAATTAAGCTTGACCCTAAATATATGGATTAGGTAAAATATTATTTACATTTAAAGCTT
ATTAACACAGACTTTAAATAGGCAAAGATGGTCTTGAGCTAATTTAATACTATTTTCCAT
GATAGAGACTTCAATATTTCATAAGCTGAAATAAAGTTATAAATGATTCTAAGTAAATTT
GCAAGAACAGGAGTTCCTGAGGCAAAATATCTAAATGAGTGTACAAATATCTTGTTGGAG
CATATCGAATATCTCAATTCTGACTACATTGATAAATTCTTTATGATTTATTCTTCTCTT
GACTCCAGAGTAGATTTTACTAAAATTGCCATAGAATGCATTAAATTCCATTAAAGAATC
ATAGAAAATATAGAGAGATAACAATAAGAGACCTAAGCTTTAGAAGAATAGTTGAGAGCT
AGCTAATAATACAATCCTGTTAATAAGTATTCTGAATAGCTTAAAATTTAAAAGTAAATT
TTGGATGACAATTCTTAACAAAGAGAATTCTGCTTGCAAAAAATAATTTAAATTCTTGAA
GATTTACATAAGGAATCAGAGTTTGATCCAAAAACCAAAGTTAATAAGGATCTATAAATA
CTTAATATAGTGAAACTCATTCAAAACTACCCATCAGATTTCGTTCATAGTGTTGTAATT
GATTTCTTGTTGAGAAATAAAAGAAAGAGCGAAATTCTTGAACTAAATAGTCCTTTTACA
GAATAAATATTTTCTAATTTTGGAACTGATAATGCAGAGTGTCTTAAAATCAAATTTAAG
TACCTTGAACAAATGGGAAATGTAAGAGAGGCATACAATGTAGCGTTCTAGTTATCAAAT
TTCAAGAATAGAGAAGAATCTGAGGATAGAGTTTTGCTTGATGATAGAATTTCATTTACA
GAAATTGCTATTTATGACATTTCGGTTATTCTCAGCGATTTCAATATTTCAGAGACTGAC
AAAATTAGATACTATGCTGAAAGAGAAATTCTTGTAAAGTAAGCAAGAATACTTAAAATT
TAAAAGAAAATGTATGAGAAGCTCTTAAACGGAATAAATTATGTTGAAAATAGTCTTAAA
AAATCAAAAACTTCTGGTGATAAGAAAACACTTGAATAAAAAAAACTTCTTTTGAAAGAA
AGTTATGATGTATTACAATTCATGAGGCTTGACGAGCATATGTTAGAAAAGTACTATGTA
TGGCCTTTAAATCTTGTAGAGTTTGCTCTTATATTATATGATATGACAGGGGAATAAAAA
GTTGACAGTTCAATAAATTCGATTTATGACAAGTTAATTGGTAGAATGCTTGGCAACGAT
ATTTACGAAACCAAACAATGGCCTCATAACATCTAAGATACACTAATTATGCTTAATGAA
GAAATTGAAGAGAAAGCAAGATTGTTCAACTTAGATCATATTGTAGTAAAATGCGAAAGC
AACAATGCTTAAATTTCTCAAGACATCAAATTTTAGTTAAAGGATTTCATTTATTTATAC
AACTAACTACTTGTTTAGAAAGAGGATTCAGATATAAAGATTCTTTCATCTCCACTTTGG
ATGCCTCACTTTTTAGTCACTAAATTAAACTTTTCTCCTCTTAATTTGATTTCTCACTAT
AGCGCGATAGGAAATATATTAAAGGGAGAAGTTTCTAATAGTTATAATATTCATATCAAG
AACTGTCTTTTCATTCTCCTCAGACATTCAATAAATTACATTTCTAATGTCTTACAAAAT
CACGAATAACACTCTAGAGAGTTTATTTCCATTAGAAATTCCATATAAATATTGGAAAAA
GTACTTGAGTCCTTCAATAACGAATTCATGGCACTTTTATAATCTTAGACTTAGAATAAA
TCTGAAATTATCTAATACTAATAACAATTAAGCAAATTGTAAGAAGAAATTTCTTTGTAA
ATCGGAGAAATTGAATAATTAGATAGTGATTTCTAATACTTAAATTAAGGTGCTAATTAT
AATAATTCTATTGAAAGCTAGTAAAGTTTGCTTAATGGTAGCAAAAATAAAGAAGGTAAT
AGCCAAATCTTTGAGTTTGATCAAGATTCTAAGCCTTTGAAGGAAATGCATAATGCTGAA
TATATTAGAAAAATGAAAGAGAAGCGTAACGATGCCTTACAAGATCCTGCAAATAAACTA
TAAATGGCTTATATTTTAGGAGGTTTTACATCTTCTTTATAAAATAGAAATGAAAGCAAT
GGAAGCAGCTTGAATCAAACAAACAAAAGTAAATAAAACACAAATTCTAGCAATTAACAT
CAAACTATAAGTTTTGGAGACAGTAAATTCTTTGAATCGAATAGCAATAGTAGATAAAAT
AACACAAATTCATCAGGAATAAATGAATATGCATTTTACGAATTCAATAAAATCTTAGAA
AATAAAAACGAACAAGAGATTTAATTAGAAAAGAACAAAAACTATTGA

>TTHERM_00760460(gene)
GAGAGCAGTAAAGTTGGTAGAGCTAATTGTTTAAATCATAATAGGAAAGGATAGATAATA
AATAAATAAATAATATTCTGTTTGTTTGAGGATTCATAGTGAATAAAAAATAAATATAAA
CTTTATTTTTAGAAATACAGCTTGAAAGAAATATTTGAAATGAGCATTAACTTTTAATAG
ATTTCAACATCAAACTATCCAAATTTAAATTAAGAAAAAATGTCTTCTAAATTTTTATCC
TCTGCTTAGAAGCGTAAGAGAGGGGATGATTATTTCTCTCAGCAAGGTGGATTGTCTAAT
TTTAATGCATTTAATACAAATAAAGATAGGGATTAAAAGTTCGCAGGTGATAGTTTTATA
GGCAATTAACAATCTCAGTAAGCACAATTAGGCTATTTCAATAAATTTGGGGACAATAAA
TCAACAAATTAAATGAATAACAATAATATTAGCATGATGAGTAATCATGGATTTGTAATT
TAGAATAACCTAAAAGGATATAATAGACATTCTTAGGAAACTTCTGCTAATACATTTTTA
AATTAATCTTCTAATTAGCTTTATAAATTCAATGCAAAAAATACAGAAATCAATTAGTTT
AACTTTAATAACTAATTTAACTAAATATCTAACGAAACTTTACCTATTCATTAGGATATT
CCTCCTAACCCTCAAATATTAAATCCTGGTAGCTACAATATTTCCTACAATAATGACACT
GAATTGTTAAGACGTGAAGTTATCAAAGAATAGAATCTTTAAGAAAAAATGCTTGTTGTG
CAAAAAGAGCAAAAGATTTAATCTGAAATTGCTTACTCTTTTAAATAAATGTCTCGTCTC
TTGGATGCATGCTTGAAGTAGGATGAAACAGGAGCTGGTATAACTAGTGTAAAGTAAAAT
GATTTCTAACTCCCTCATGGAAGCAACTTTATCTAATTCAAAGCCATTGAATTCCCATAA
AGGATTGTAGAGTATTACACTGATTTGTTAGAAAATTAATATGAGTCTGATTAATAGCGT
AATGATGAAGAATCTATTTCTGTTAATAAGGGAATTATTGCAGAGTTAAGTTTGGCTTGG
GTTAGCATAAATAAAAAATTATTTATGTGGAAATATGGTCCTTAATCATTTGCATAGTTT
ACAAGACTTTACAATAAAAATGAATACTACAGACAAAATAAAGACTAATATGGCACAAAA
AGAGATGATAAAATTGATAAGGATGACCTAAAGGAATTCGATTTAGAGGACACAATACTT
TATATAGCTTTTGGATAACCCAAATATGCAATTTTCAAATAAAATGAAATCAAAAATGTT
CTTGTGATCGCATTCCCTAATTATATCAAAGTTATGCATATCAAGCTAGAACATAACAAC
ATAGATATTCAAGATATCAATGTTTCAATAAGTACTGATCATGAATACGTCAATAAAATT
GTGTTCTCTAAGAAAGGAAGAATATTCTTTGGAGGATCAAGTGGAAGAGTCAAATACATA
GATTACTTTAAGTCTTAAATATTAGGAATTACAATAAGCGAAAAATTCAAAGCTAAAGAA
GGTGTGAATTGGTAATAAAAATTCAAACAATAAATTCCTCTTTTGAATCAAGATCAATAA
GTGATTGATATTAGTGTTGATGACACAAGATAGATTTTATATGCTTTGGTAGAAGTTTAG
TGTGATAAACCTTTTTTTAGAAATCCGTTTTCATATAACCCTTACTAATAAAAAACAACT
TAAAGAATTGATGTTTATGATTTAGGCGCTTTTGATGAAGATTTTACTTTAATTGGTTCC
TTAACTCATGCTCAATTTGCCGATTAACTCCTTTCTAGCTAAACAAATCATTTCCATTTA
CTTCCTACAAGCAAAGAATTAAGTATTATATCAGTATCTGCTATTGAAAAGTATCAATCA
AACGATTATAATTTTGTTATTGTAACCTAATCTGGTATTAGAGTCTACTATGTATTAAAA
ACTAAACCAGTAACTGACAAGAAAAACCAAATACTGAGTGCTCAGGAAACAAAAGAAGCA
AGAGAAAAATTCTAAATGTTTGAAAAATATAGACCGATTGCAGAGTTTTAAATTGCTATT
GTGAAGGGAATGTTAGATATTTCTCACTAGAACAGCGCATTCAGAAATCTTCATGTTTTT
TATGATCACAAAGACTATCAAACTTGCAAAGGAAGCTATGTCTAAGTTATAGATGATGAA
CAGAAAAAATACATTAAATCTGCTTTTGCTACTCGTGGTGGTGTCGTTATGTAGAAAATA
GAAAATAAATAGAACAGGTTAATTTTCATCGAAAGTAACTAGTAGTATATTGCAAGGCTC
AAGGAAAATATGTTTTCAAACCATCAAATATTTTCTGAAATACATCCCAATTTTGTAGTT
GCAACAGAGCGCATGGGAGAATTAATTCTTGATTTCCAAAACAGAGACGAGAACTCCAAT
ATTCTTAATGATTTGACATTTGCTTAAATCCCTGAAAAAAACTTACTTCCTCCTTAAATT
AGTAGCCTAATTTTACTAAATAGCTTTGAATAGCTTGAAACAAGTTAGATGATTGGAGAA
TAAAATGGTCAATAAGCTTATGTTTGCTTGAATGATTTAACTAAATAATGTTATTCTTAG
CCCTCCCATTATGTAGTACTGACTAGTAAGGGAATTTTATTGTATTACTAATAGAGACCT
ATTGATTTACTTTACCAACTTATTAAGGTACTTCCAGATTACATAACTGAGCCAAATTAG
ACTCAGGCTTAATTGTAATTTTAGCTATTAAACTAAAAGAAACTAAACAAGTTCAGTAAT
AAGCAAATTGATATTAAAAACAATCAATAACAGAAATAAAACTCATTAGAATTTTTTGAA
TAATTCATTATTACATATGGTGTAACTGAAACATTTGCTATGCTCTCATAAATGCTTTGC
CACTCTCATTTAGAATACTATCAAAATTTAAATGTCCATAACCATCTTGACAAGTAACTT
AAAAACAAGTTGTCAGATACTACACTCAACAACACAAACAACTTTACCTAGGGAACTTAA
TATGAGCAAAACACTAATAAATTCCCAGGATAAAAAAATAATGAAAAACCTCTTGACCCT
TCTCAAATACCTGAAACAATAATCACAGAAATAAGCGAATCAATATTGAAAAAGTCTCAT
TTCTTGTTCTAAAAATATGGAGATATTTTGCTCGATGAGACCAGTGAAAATTAATATCAG
TCTAAATAAATGAATGACGAATTCTAAAACACATTAGGTAAAGCTTGGGAATGGACTAGA
AGAAAATACACTTCCAAAGTAGAAGGTGTTTTATTATACTTCTCTAGATTAATTAGACCT
GTTTGGAATAAACCTCTTGTCAATTCATATGCTTTTAAGTTCTTCATTAATGAGCCTATT
GAAAATTTCAAAAGAGAAGAAATTCAAGCTTTTACTCGTCGTCTCAACGAGTTCAAGTTT
TGGTTAGAAAACGAAACTAAAGTCATTTACTGCAACGAACTAAAAAACAACACTCTTCTT
GGATCTGATTCTAACTAATCAATTAATAATATTTATATGAAAAGTGCCTCTATTTCTACT
TCTAATAGATATGGAAATTAAAATAGATATAAAAGCAACGAAGAAAGAATGTAAGAAATA
AAAGCAGATGAGGCAAAATTAATTGATGATCTCCTTCGCTTCTGCAGCAAAATAATTTAA
GTTGCAAATCTCTTCCTTTTTATTTCTGAAAATAAATTAAGGTCAAATCTGAACAACGTA
GAATTTAGAGATTTAAGAGAAGAAATTCTATAAATCCGCTTTAAAGATGTTTTTACTGAC
AAAAAGAATGAAAAAATTGTTAAAAACTATGTCTTATAAGCAATTAAGCTTGACCCTAAA
TATATGGATTAGGTAAAATATTATTTACATTTAAAGCTTATTAACACAGACTTTAAATAG
GCAAAGATGGTCTTGAGCTAATTTAATACTATTTTCCATGATAGAGACTTCAATATTTCA
TAAGCTGAAATAAAGTTATAAATGATTCTAAGTAAATTTGCAAGAACAGGAGTTCCTGAG
GCAAAATATCTAAATGAGTGTACAAATATCTTGTTGGAGCATATCGAATATCTCAATTCT
GACTACATTGATAAATTCTTTATGATTTATTCTTCTCTTGACTCCAGAGTAGATTTTACT
AAAATTGCCATAGAATGCATTAAATTCCATTAAAGAATCATAGAAAATATAGAGAGATAA
CAATAAGAGACCTAAGCTTTAGAAGAATAGTTGAGAGCTAGCTAATAATACAATCCTGTT
AATAAGTATTCTGAATAGCTTAAAATTTAAAAGTAAATTTTGGATGACAATTCTTAACAA
AGAGAATTCTGCTTGCAAAAAATAATTTAAATTCTTGAAGATTTACATAAGGAATCAGAG
TTTGATCCAAAAACCAAAGTTAATAAGGATCTATAAATACTTAATATAGTGAAACTCATT
CAAAACTACCCATCAGATTTCGTTCATAGTGTTGTAATTGATTTCTTGTTGAGAAATAAA
AGAAAGAGCGAAATTCTTGAACTAAATAGTCCTTTTACAGAATAAATATTTTCTAATTTT
GGAACTGATAATGCAGAGTGTCTTAAAATCAAATTTAAGTACCTTGAACAAATGGGAAAT
GTAAGAGAGGCATACAATGTAGCGTTCTAGTTATCAAATTTCAAGAATAGAGAAGAATCT
GAGGATAGAGTTTTGCTTGATGATAGAATTTCATTTACAGAAATTGCTATTTATGACATT
TCGGTTATTCTCAGCGATTTCAATATTTCAGAGACTGACAAAATTAGATACTATGCTGAA
AGAGAAATTCTTGTAAAGTAAGCAAGAATACTTAAAATTTAAAAGAAAATGTATGAGAAG
CTCTTAAACGGAATAAATTATGTTGAAAATAGTCTTAAAAAATCAAAAACTTCTGGTGAT
AAGAAAACACTTGAATAAAAAAAACTTCTTTTGAAAGAAAGTTATGATGTATTACAATTC
ATGAGGCTTGACGAGCATATGTTAGAAAAGTACTATGTATGGCCTTTAAATCTTGTAGAG
TTTGCTCTTATATTATATGATATGACAGGGGAATAAAAAGTTGACAGTTCAATAAATTCG
ATTTATGACAAGTTAATTGGTAGAATGCTTGGCAACGATATTTACGAAACCAAACAATGG
CCTCATAACATCTAAGATACACTAATTATGCTTAATGAAGAAATTGAAGAGAAAGCAAGA
TTGTTCAACTTAGATCATATTGTAGTAAAATGCGAAAGCAACAATGCTTAAATTTCTCAA
GACATCAAATTTTAGTTAAAGGATTTCATTTATTTATACAACTAACTACTTGTTTAGAAA
GAGGATTCAGATATAAAGATTCTTTCATCTCCACTTTGGATGCCTCACTTTTTAGTCACT
AAATTAAACTTTTCTCCTCTTAATTTGATTTCTCACTATAGCGCGATAGGAAATATATTA
AAGGGAGAAGTTTCTAATAGTTATAATATTCATATCAAGAACTGTCTTTTCATTCTCCTC
AGACATTCAATAAATTACATTTCTAATGTCTTACAAAATCACGAATAACACTCTAGAGAG
TTTATTTCCATTAGAAATTCCATATAAATATTGGAAAAAGTACTTGAGTCCTTCAATAAC
GAATTCATGGCACTTTTATAATCTTAGACTTAGAATAAATCTGAAATTATCTAATACTAA
TAACAATTAAGCAAATTGTAAGAAGAAATTTCTTTGTAAATCGGAGAAATTGAATAATTA
GATAGTGATTTCTAATACTTAAATTAAGGTGCTAATTATAATAATTCTATTGAAAGCTAG
TAAAGTTTGCTTAATGGTAGCAAAAATAAAGAAGGTAATAGCCAAATCTTTGAGTTTGAT
CAAGATTCTAAGCCTTTGAAGGAAATGCATAATGCTGAATATATTAGAAAAATGAAAGAG
AAGCGTAACGATGCCTTACAAGATCCTGCAAATAAACTATAAATGGCTTATATTTTAGGA
GGTTTTACATCTTCTTTATAAAATAGAAATGAAAGCAATGGAAGCAGCTTGAATCAAACA
AACAAAAGTAAATAAAACACAAATTCTAGCAATTAACATCAAACTATAAGTTTTGGAGAC
AGTAAATTCTTTGAATCGAATAGCAATAGTAGATAAAATAACACAAATTCATCAGGAATA
AATGAATATGCATTTTACGAATTCAATAAAATCTTAGAAAATAAAAACGAACAAGAGATT
TAATTAGAAAAGAACAAAAACTATTGAATAAATAAACCAGCCAGAGCAAACAACAAACTC
AATTAAATAAATTAATAAATCTTGAAAAGTAAGTAAGTGGTTTAAATAATAAAAATTAAA
ATTGTTTAAAAATACAGTCATAATTTAATATGTATGCATACATTCATTTTTTATATTTTT
TGATATGTTTAATGAAATATTTACTAATTT

>TTHERM_00760460(protein)
MSINFQQISTSNYPNLNQEKMSSKFLSSAQKRKRGDDYFSQQGGLSNFNAFNTNKDRDQK
FAGDSFIGNQQSQQAQLGYFNKFGDNKSTNQMNNNNISMMSNHGFVIQNNLKGYNRHSQE
TSANTFLNQSSNQLYKFNAKNTEINQFNFNNQFNQISNETLPIHQDIPPNPQILNPGSYN
ISYNNDTELLRREVIKEQNLQEKMLVVQKEQKIQSEIAYSFKQMSRLLDACLKQDETGAG
ITSVKQNDFQLPHGSNFIQFKAIEFPQRIVEYYTDLLENQYESDQQRNDEESISVNKGII
AELSLAWVSINKKLFMWKYGPQSFAQFTRLYNKNEYYRQNKDQYGTKRDDKIDKDDLKEF
DLEDTILYIAFGQPKYAIFKQNEIKNVLVIAFPNYIKVMHIKLEHNNIDIQDINVSISTD
HEYVNKIVFSKKGRIFFGGSSGRVKYIDYFKSQILGITISEKFKAKEGVNWQQKFKQQIP
LLNQDQQVIDISVDDTRQILYALVEVQCDKPFFRNPFSYNPYQQKTTQRIDVYDLGAFDE
DFTLIGSLTHAQFADQLLSSQTNHFHLLPTSKELSIISVSAIEKYQSNDYNFVIVTQSGI
RVYYVLKTKPVTDKKNQILSAQETKEAREKFQMFEKYRPIAEFQIAIVKGMLDISHQNSA
FRNLHVFYDHKDYQTCKGSYVQVIDDEQKKYIKSAFATRGGVVMQKIENKQNRLIFIESN
QQYIARLKENMFSNHQIFSEIHPNFVVATERMGELILDFQNRDENSNILNDLTFAQIPEK
NLLPPQISSLILLNSFEQLETSQMIGEQNGQQAYVCLNDLTKQCYSQPSHYVVLTSKGIL
LYYQQRPIDLLYQLIKVLPDYITEPNQTQAQLQFQLLNQKKLNKFSNKQIDIKNNQQQKQ
NSLEFFEQFIITYGVTETFAMLSQMLCHSHLEYYQNLNVHNHLDKQLKNKLSDTTLNNTN
NFTQGTQYEQNTNKFPGQKNNEKPLDPSQIPETIITEISESILKKSHFLFQKYGDILLDE
TSENQYQSKQMNDEFQNTLGKAWEWTRRKYTSKVEGVLLYFSRLIRPVWNKPLVNSYAFK
FFINEPIENFKREEIQAFTRRLNEFKFWLENETKVIYCNELKNNTLLGSDSNQSINNIYM
KSASISTSNRYGNQNRYKSNEERMQEIKADEAKLIDDLLRFCSKIIQVANLFLFISENKL
RSNLNNVEFRDLREEILQIRFKDVFTDKKNEKIVKNYVLQAIKLDPKYMDQVKYYLHLKL
INTDFKQAKMVLSQFNTIFHDRDFNISQAEIKLQMILSKFARTGVPEAKYLNECTNILLE
HIEYLNSDYIDKFFMIYSSLDSRVDFTKIAIECIKFHQRIIENIERQQQETQALEEQLRA
SQQYNPVNKYSEQLKIQKQILDDNSQQREFCLQKIIQILEDLHKESEFDPKTKVNKDLQI
LNIVKLIQNYPSDFVHSVVIDFLLRNKRKSEILELNSPFTEQIFSNFGTDNAECLKIKFK
YLEQMGNVREAYNVAFQLSNFKNREESEDRVLLDDRISFTEIAIYDISVILSDFNISETD
KIRYYAEREILVKQARILKIQKKMYEKLLNGINYVENSLKKSKTSGDKKTLEQKKLLLKE
SYDVLQFMRLDEHMLEKYYVWPLNLVEFALILYDMTGEQKVDSSINSIYDKLIGRMLGND
IYETKQWPHNIQDTLIMLNEEIEEKARLFNLDHIVVKCESNNAQISQDIKFQLKDFIYLY
NQLLVQKEDSDIKILSSPLWMPHFLVTKLNFSPLNLISHYSAIGNILKGEVSNSYNIHIK
NCLFILLRHSINYISNVLQNHEQHSREFISIRNSIQILEKVLESFNNEFMALLQSQTQNK
SEIIQYQQQLSKLQEEISLQIGEIEQLDSDFQYLNQGANYNNSIESQQSLLNGSKNKEGN
SQIFEFDQDSKPLKEMHNAEYIRKMKEKRNDALQDPANKLQMAYILGGFTSSLQNRNESN
GSSLNQTNKSKQNTNSSNQHQTISFGDSKFFESNSNSRQNNTNSSGINEYAFYEFNKILE
NKNEQEIQLEKNKNY

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Gene Model Identifier

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Description

Genome Browser (Macronucleus)

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Gene Ontology Annotations

Cellular Component

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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