TGD | Tetrahymena Genome Database Wiki

Identifiers and Description

Gene Model Identifier
TTHERM_00797940

Standard Name
FLP11 (FLiPpase)

Aliases
PreTt23233 | 135.m00084

Description
FLP11 phospholipid-translocating P-type ATPase flippase family protein; Phospholipid-translocating P-type ATPase- flippase family protein. Sequence similarity to the HisK protein kinase family (Eisen et al.- 2006).

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
membrane (IEA) | GO:0016020
Molecular Function
ATP binding (IEA) | GO:0005524
phosphorelay response regulator activity (IEA) | GO:0000156
phosphorelay sensor kinase activity (IEA) | GO:0000155
Biological Process
phosphorelay signal transduction system (IEA) | GO:0000160
regulation of DNA-templated transcription (IEA) | GO:0006355
signal transduction (IEA) | GO:0007165

Domains

( PF00072 ) response regulator receiver domain
( PF00122 ) E1-E2 ATPase
( PF00512 ) His Kinase A (phosphoacceptor) domain
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF00902 ) Sec-independent protein translocase protein (TatC)
( PF02518 ) ATPase, histidine kinase-, DNA gyrase
( PF04971 ) Lysis protein S
( PF08513 ) LisH
( TIGR00099 ) Cof-like hydrolase
( TIGR00188 ) ribonuclease P protein component
( TIGR00338 ) phosphoserine phosphatase SerB
( TIGR00864 ) polycystin cation channel protein
( TIGR01257 ) rim ABC transporter
( TIGR01386 ) heavy metal sensor kinase
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,
( TIGR01612 ) rhoptry protein
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR02791 ) P-type DNA transfer protein VirB5
( TIGR02938 ) nitrogen fixation negative regulator NifL
( TIGR02956 ) TMAO reductase sytem sensor TorS
( TIGR02966 ) phosphate regulon sensor kinase PhoR

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

Source Identifier Score

Tetrahymena borealis EI9_10535.1 9.997093137033517e-262

Description: phospholipid-translocating P-type ATPase, flippase (1573 aa)

Oxytricha Contig7971.0.g57 5.000307300873256e-47

Description: Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase

DictyBase DDB_G0282927 9.99648502569394e-38

Description: dhkL on chromosome: 4 position 127874 to 133086

Stentor Coeruleus SteCoe_18800 1.5628821893349888e-18

Description: None

SGD YIL147C 0.000000000007996637300921877

Description: SLN1 Histidine kinase osmosensor that regulates a MAP kinase cascade; transmembrane protein with an intracellular kinase domain that signals to Ypd1p and Ssk1p, thereby forming a phosphorelay system similar to bacterial two-component regulators

General Information

No. Gene Name(s) Paragraph Text

19 FLP10, FLP19, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP11, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5 The phospholipid flippase family of genes in Tetrahymena contains 20 members, FLP1-FLP20. Preliminary studies show that many of these genes are differentially regulated in response to temperature and/or the presence of a polycyclic aromatic hydrocarbon (pyrene).

Associated Literature

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,

Sequences

>TTHERM_00797940(coding)
ATGGAGATATCAGATTAAAAATTACCAAAGATGGTAATTTCGTCTTCTCAAATACTAAAT
TTGTACTACAGCTTTAATTTTAGGTTTTTCACGCACTCAATAGCACTGATGGCAATGGCA
ATTATAGATTTAGTGGCGAGTTGCTATTCTAATAATGATAATTCTAAAAAAATGGCAATT
GTATCATGGATTTAGACATGCTTATTTTTTATAGAAATAGTTGCGATTTGTCTTATTAAT
ACTGGAAAAATTCCTAGTTTTTAAAAGTTCTTTTAGGAATGGCAGATCAGCTTATTTAAA
AATTGTTTGTGCATAGGAGAAGTATCTCTTCAGATTGAGTATTTAATGCAGGAAGATATG
GGAATGAAAATCATGGTCTCTTTTTTTAGGATAGTTTTTATTTTAGCCACCTTCACTTAG
TGGGAGAAAAAGAACATTTATCGCTTTTTAAATCTAATTTTTACTTTTATCTATTTATAA
CTCAGGTGTATAACTTATACAATGGACTCAATCGCTTCAAGAATTAATCTTCTACTATTA
TTTTTAATTTTTTTGCAAACAATTAACGGAGATGTTTAGCACATTCTAGATTCTCCACAT
TTGATATCTCAAGAATAAGACCTAATCCTGACCCAAAAAAGGATGACATTTAGCGAGTAG
AATTATTAAAACCCAAGGTAGAACACCAGAGGTATCACGTTTGGAGGAAGTTTAGGTGGT
CTTTTTAGTTTTATTAACAAGCCAAAAACTATGACTAATAGTTCTATTTCCAAAGAATGT
TAATAACAAGGGAAAACCTCAATTGCAAGCAACCACATATAAAATAATGGCACTCATACT
TTATTAGCAAATGAAGTTAATTAAAAAGGTTTGCATAAAAATGGGCAGTAAATTAATGAG
TAGCATATAGCAACAGATAAAAATGGTTAAGCCTGCTATCAATTTACTTTATAAACGAAT
GGACCTGCTAATTCCGAAAACAACACTAGTAGCAACTTGGTATAAAATACTGAGTAATTT
ACAGTGAGAAAAAATTTAGAAAAATCTCTTACTGCGAAATTCGGCAGTCCGAAGTTGGTA
TGCTAGTAGAATTCAAACGAGGTAGATGACATCAATTTATCTGAAAATAATAATGAAGAT
TTTGTCAAAATCTAAAATGCAAATAGTGAATTTTGTAGTCCTAAAACTTGTTAAGAATAT
TCGAAATAAAGGAAAAAGAGCAATTTTTAGATGTATGCTACTCAGGAAAACAGTAAAGAA
AATCACCAAGAAATTGAAGATAAATAAATTTAAAAACCAAATAAAAGCCATTAAGATTTG
TAAACTTCAGTTTTGAGTCCAGATTTTCTTGCCAACAGGAAAAATAATAAAAATGAAAAC
AGCATTCAAAGTATACATTAATATTAAAATAGCAAGATGATTGAACAAGAAAAGCAAAGC
GATAAAAGACTTTAAGAAATAAAACTGTTCAAATTACCTTTAACCACAAAAGATGAAGAA
AATTATGCTCAAATTAACCAAATCAAATAGAACTATCAATCTTAGGAATACTCAAAAAAT
ACTCAGATTTCAATTAGTCCTAAAAGTATTTAATCATATGAACTCTCCTTATCTCCAGTC
TTACAGCTCAGTGTCCCCAATAACTCACAATTCTATTAGATGTTTTTTTAAATTTTGCCT
GAAGGTATTCTTTTACTTGGCTCCAAGTAAAATAAAGTGCATGTCCAGAATAGAATGTTA
GAGAGACTAATGAATATCAAAGGAGGCTCCTTAATTGATAAATTTTTCAAATTAGAAAAT
AATTTAAATTTAGGAGAAACTAGCGACACTTCAGGAACACTAGACATACTCCCCATGATT
ATGAATATGAAAACAATACTGAATGAATCTACTTCACAATAAAGGATATCTTCAATTCAA
TAGCTTAATTAAAACATTTTGCCAAATTAGCAATAAAACGTTGATTCTAAAATGACTTAG
CCATCTCAGTTCTAGCCTAAGCCTTAAGCAGGATCAGACAATGACGAAAGGACTAACACT
TAAGGCAGTAACAATCAAATACCATCCATGCCAAATGTTAGCATTTTACAATTAGAAGAT
CCTAAATATAACCAACAAGCATATGGACAGAGCTTGTAAAATAGTCCTAGTATAGGCTAA
CAGCAAAACTAAATTGATGAGTCGATTCTATCTAAATCTAATTTAAAGTACATCCCTTAG
CCTATAAGATAGAATATGAATCAAAAATTAAATATGAATGCTTAATATAATAATAATATT
ATGAATCGTAAGGAAAAAGACTTAGCAGAAGAATAAATTATTAAACAAATTGATTAATAA
AGAAGTCAGTTTACCAATGATATGCAAAAGGAATATTCAAATTCTTATAGCAGCAATCTA
AATTAGAGCGCTCAAACATAAAATAACATAGATGTCACGTACAGCAGAAAAAAGACGATA
GGCGAATTGTACAGAAGCTTAATCAAAGAAATACAGCAAGACATAGAAATGAATGGTTCA
GCAAGTAAATACGAAGCTTTTGAGCACCAAGTTAAGATGATTTGTTCCTTCCCCTATATC
AAAAAGAAAAGAACATCAAATTCAAACTTAAAGTCCTAATTTAATATTTCATAAATGGCG
TATTCAAATATGAACTTGAATATATAATCTGTTTCTAATGTAAAAAGTGACACAAGTGAA
AATGTAGAAAATTGCAAAAAGATTTTCGAAGTCACTTGCATACCCTGCATTATTGAAGGT
CAGCCTTCCGTCCTTTTTGTAGTCAAGGATGTTACCCATTTCAACTAAATCAAGCTCCTC
AAGCACATCAACAAGAATAAATCACAGATGCTATCTTAAGTAGCCCATGAATTTAGAACA
CCTCTAAATTGTATTATATCTATGATGGACTTAGCTAGCATTACCAATCCATAGAGTCAG
ATTTAATAATACTTAAAGCCAGCTTTGACAAGCGCTAAATAGCTAAACTCAATGGTCAAT
GATTTACTAGATCTTGCATAATTAAAGGCTGGTAAGTTTTCTTTAAATATGGAGAGCTTT
AACTTGTAAGAACTAATATCTTAAATTGTTGTTTTGATGAGCATTTAATCTGAGTAAAAG
GGTCTGGCCTTAATATCAAACATAGATCCTCAAATTCCAAACTCAATATATAGCGATCCA
AATCGTCTAAGATAGATTATAATCAACTTGGTTGGAAATTCTTTAAAATTTACTAAAAAA
GGTAGTATAACAATTAAGGCTTCTTTAATCAGCACAAAAGTGATTAAAATAAGTATAATT
GATACTGGTATTGGCATAAAAGAAGAAGATATGGCCAATCTATTCTAAGCTTTTGGAAAA
ATCGCTGGTTAGGAATAAAAACAGCTTAATCCAAACGGTGTCGGATTAGGACTGATGATT
TCTCATGTTCTGGCTAAGAATTTAGGAGAAGGAGAAGGGTTAAAAGTAGAATCTTAAGTA
GGAATAGGCACTGAATTTTATTTTGAGATTGTTAATAACTTGTAAAAAATGAATATCGAT
AAGTCTTTCATTCTAAAATCGTAAATCGTTAAATCTCAATACTACAAGAAATCTCAAATA
GCTTCCATGAAAATTGACTAATAAGGATAGCAATAGCAATATTTATAGCAACAATAGTTG
TAGTATCAGCAATAACAACAATAAAAATAATAATAATAATAATTCATTCAAAAACCTCAA
AATTAAGTGAACAATGATGACCTTAAGAAATGCTCACAAAATTATAACTTTGATGATATT
TTGAAAACTTTTGGGAAAATTGATAGCTATAAAGATATAAGTGGATAAGAAAATAAAGTA
AATAAGCAAGAAGAGTGGAAAGAAAATGGTCACTAGTAGCAGTCAGCTCAAAAAAGAAAG
CCATCCATTCAATTACACAATTCATCTAAACTAAAAAATTCATCTATTCCATCATAGAAT
ACAATTTACACTCCTAAATCGAACTCTTGCAATTAATTAGCAGGTAGTTTGGAAGATCAC
TAGCCAGATATGAATGGTTAAGCTAATTTATCTATATCTGCTTCTCTAAATTAAATGCTA
AACCTTAAATAAACTAAAAATTAAATTATTACTATTCATGAGGAAGAGGGAGAATATGAA
GGAGATGGGTCTGCTAATTTCAACAATGAAAACTCGTAGAAATTTGAAGAAAGAGACCAT
TTAATCAAAAGAAGTAGTAAAAGCTAATTTAGCAATCATAAAAATTAATTCTACTACAAA
GACTAAATTGGCCCAAAAGTTTAACTTAATAGATGTCATATTAGAAATGAAAGTGTAGAT
TATGATGGTTGTGGCGAGAATTTCGGGTTTTTAAGTGATAGACCTAACTAATAAAATGCA
AGTGATAGTGAGAATATAAAAAGTTCCTTTGAAAAAATCCTATTTCCGCCAAATTAGAAA
AAATTTGACATTAGTGGTTTGTTAAACCAAAATTAAAATAATAATGTGGTGAATAGCAAT
ATTTAAAAGCTATAAGTTCAATCACAACTTGATAATTTAATTGGTAAAAATTTGAATAAC
GTAGAAGATTTGCATGATTCTTCGTCCGATGATAAAGAAAGCTCTGTTGCTGATGATGAA
AATTTAAATGATTCTTTTAATGGAAATTTCAAAAAAATGTAAAATAATTCAGATGAATAG
AAACAGCAAGATAGCACTTATAATCAAGGATAGCCAGACAAGAACTCTGATAAAAAAGAT
AACTTAAAGAAAAGAACTTAAAAAAGATATAAAACCAAAATTAAAAGATCTAGCTCATAG
GTAGAATTCTTCGAATCATCTCATAAAAGTGTGAGCTAAAGTCTAAGTGCTTCTGTCTAA
GCAGAAGTAGAAATTTTAACAATAGATGATAATGAATTTAATAATATGGTATTAAAAATG
CACATCGAAAGACTCATCAGGGCAAGAGTTCACTGCGCAATTGATGCCCATGATGCACTA
TCTAAATTGCAAGAGCAATACACGAAGACAAAATCAGGTTTCGATTTAATTTTCTTAGAT
CTCTCAATGCCTGAAATAGACGGTTATGGGACATTCAGCATGATTAAAGATTTTTGTAAC
GAAAAGAGAATCAATTAAAACGTTGTTGCATGTACTGGATACAGCAGTTTAGAAGAAAAA
GACAAGTGCATAGATATTGGCATGGTTGATTATATCTTAAAGCCAATAGAAATACCCAAA
TTAAAAGAAGTATTATCAATCTTCCTAGACGGAAATGCATTCAACAAGTGA

>TTHERM_00797940(gene)
ATGGAGATATCAGATTAAAAATTACCAAAGATGGTAATTTCGTCTTCTCAAATACTAAAT
TTGTACTACAGCTTTAATTTTAGGTTTTTCACGCACTCAATAGCACTGATGGCAATGGCA
ATTATAGATTTAGTGGCGAGTTGCTATTCTAATAATGATAATTCTAAAAAAATGGCAATT
GTATCATGGATTTAGACATGCTTATTTTTTATAGAAATAGTTGCGATTTGTCTTATTAAT
ACTGGAAAAATTCCTAGTTTTTAAAAGTTCTTTTAGGAATGGCAGATCAGCTTATTTAAA
AATTGTTTGTGCATAGGAGAAGTATCTCTTCAGATTGAGTATTTAATGCAGGAAGATATG
GGAATGAAAATCATGGTCTCTTTTTTTAGGATAGTTTTTATTTTAGCCACCTTCACTTAG
TGGGAGAAAAAGAACATTTATCGCTTTTTAAATCTAATTTTTACTTTTATCTATTTATAA
CTCAGGTGTATAACTTATACAATGGACTCAATCGCTTCAAGAATTAATCTTCTACTATTA
TTTTTAATTTTTTTGCAAACAATTAACGGAGATGTTTAGCACATTCTAGATTCTCCACAT
TTGATATCTCAAGAATAAGACCTAATCCTGACCCAAAAAAGGATGACATTTAGCGAGTAG
AATTATTAAAACCCAAGGTAGAACACCAGAGGTATCACGTTTGGAGGAAGTTTAGGTGGT
CTTTTTAGTTTTATTAACAAGCCAAAAACTATGACTAATAGTTCTATTTCCAAAGAATGT
TAATAACAAGGGAAAACCTCAATTGCAAGCAACCACATATAAAATAATGGCACTCATACT
TTATTAGCAAATGAAGTTAATTAAAAAGGTTTGCATAAAAATGGGCAGTAAATTAATGAG
TAGCATATAGCAACAGATAAAAATGGTTAAGCCTGCTATCAATTTACTTTATAAACGAAT
GGACCTGCTAATTCCGAAAACAACACTAGTAGCAACTTGGTATAAAATACTGAGTAATTT
ACAGTGAGAAAAAATTTAGAAAAATCTCTTACTGCGAAATTCGGCAGTCCGAAGTTGGTA
TGCTAGTAGAATTCAAACGAGGTAGATGACATCAATTTATCTGAAAATAATAATGAAGAT
TTTGTGTAAGTTTTATAGATTAAATATTTTATTCAAATTAACTTATTTATTTATGCTAAT
GAACTCAAATATTCATTTATCAATCAATCAATCAATCAATCAATCAAATAAATCAAATGG
AACTAAAATTTTATAGAATTTTCAAATTCTTTTACACTTCATTCATTTCTTCCTTTCCTT
ATTTGTTACAATGATATTTAAAAATAAATGAAGACTTTGATTGATTTGATACTTAAAGTA
TATTTTAAACATTTATTTGATAATGGACCAAAATATTTATTTTTTATCAGTTAAATCTGC
AAAATTTATTAAATTTTTAATTTTTAAGTGTTCGATTAATTATTTCAATCACTCAAAATT
ATTCTATTGATTTACTTGCTCGTTTGAAACAAACAAACAAACAGTAAATTAATTATCAGA
TGACGTTATTGAAAATTAGACATAAATTTATTAATTTTTAAATGACATAATAAATATGTT
GAATTATTTATCCAATTAAATAAGTTTTATGAAAAAATAGATTATTTGGATTCAAACAAA
ATTATTTTTTTTAAATAACAAAATTATATTTTTAATTATAGCAAAATCTAAAATGCAAAT
AGTGAATTTTGTAGTCCTAAAACTTGTTAAGAATATTCGAAATAAAGGAAAAAGAGCAAT
TTTTAGATGTATGCTACTCAGGAAAACAGTAAAGAAAATCACCAAGAAATTGAAGATAAA
TAAATTTAAAAACCAAATAAAAGCCATTAAGATTTGTAAACTTCAGTTTTGAGTCCAGAT
TTTCTTGCCAACAGGAAAAATAATAAAAATGAAAACAGCATTCAAAGTATACATTAATAT
TAAAATAGCAAGATGATTGAACAAGAAAAGCAAAGCGATAAAAGACTTTAAGAAATAAAA
CTGTTCAAATTACCTTTAACCACAAAAGATGAAGAAAATTATGCTCAAATTAACCAAATC
AAATAGAACTATCAATCTTAGGAATACTCAAAAAATACTCAGATTTCAATTAGTCCTAAA
AGTATTTAATCATATGAACTCTCCTTATCTCCAGTCTTACAGCTCAGTGTCCCCAATAAC
TCACAATTCTATTAGATGTTTTTTTAAATTTTGCCTGAAGGTATTCTTTTACTTGGCTCC
AAGTAAAATAAAGTGCATGTCCAGAATAGAATGTTAGAGAGACTAATGAATATCAAAGGA
GGCTCCTTAATTGATAAATTTTTCAAATTAGAAAATAATTTAAATTTAGGAGAAACTAGC
GACACTTCAGGAACACTAGACATACTCCCCATGATTATGAATATGAAAACAATACTGAAT
GAATCTACTTCACAATAAAGGATATCTTCAATTCAATAGCTTAATTAAAACATTTTGCCA
AATTAGCAATAAAACGTTGATTCTAAAATGACTTAGCCATCTCAGTTCTAGCCTAAGCCT
TAAGCAGGATCAGACAATGACGAAAGGACTAACACTTAAGGCAGTAACAATCAAATACCA
TCCATGCCAAATGTTAGCATTTTACAATTAGAAGATCCTAAATATAACCAACAAGCATAT
GGACAGAGCTTGTAAAATAGTCCTAGTATAGGCTAACAGCAAAACTAAATTGATGAGTCG
ATTCTATCTAAATCTAATTTAAAGTACATCCCTTAGCCTATAAGATAGAATATGAATCAA
AAATTAAATATGAATGCTTAATATAATAATAATATTATGAATCGTAAGGAAAAAGACTTA
GCAGAAGAATAAATTATTAAACAAATTGATTAATAAAGAAGTCAGTTTACCAATGATATG
CAAAAGGAATATTCAAATTCTTATAGCAGCAATCTAAATTAGAGCGCTCAAACATAAAAT
AACATAGATGTCACGTACAGCAGAAAAAAGACGATAGGCGAATTGTACAGAAGCTTAATC
AAAGAAATACAGCAAGACATAGAAATGAATGGTTCAGCAAGTAAATACGAAGCTTTTGAG
CACCAAGTTAAGATGATTTGTTCCTTCCCCTATATCAAAAAGAAAAGAACATCAAATTCA
AACTTAAAGTCCTAATTTAATATTTCATAAATGGCGTATTCAAATATGAACTTGAATATA
TAATCTGTTTCTAATGTAAAAAGTGACACAAGTGAAAATGTAGAAAATTGCAAAAAGATT
TTCGAAGTCACTTGCATACCCTGCATTATTGAAGGTCAGCCTTCCGTCCTTTTTGTAGTC
AAGGATGTTACCCATTTCAACTAAATCAAGCTCCTCAAGCACATCAACAAGAATAAATCA
CAGATGCTATCTTAAGTAGCCCATGAATTTAGAACACCTCTAAATTGTATTATATCTATG
ATGGACTTAGCTAGCATTACCAATCCATAGTAATTAATTTACTAATTTTTTATATATTCA
AGAATAATTAAGAGAAATAAACAAAAACAATGAATAACTTGATTGTTTTATTTCCAATTT
TTTATTAATTTATAAAAATTATTAATATTTTTAGTCTTCTATTCTATTTTATTTGAAAAT
GATGTATTAAATCCTTTTGTTTATTATTAAAGGAGTCAGATTTAATAATACTTAAAGCCA
GCTTTGACAAGCGCTAAATAGCTAAACTCAATGGTCAATGATTTACTAGATCTTGCATAA
TTAAAGGCTGGTAAGTTTTCTTTAAATATGGAGAGCTTTAACTTGTAAGAACTAATATCT
TAAATTGTTGTTTTGATGAGCATTTAATCTGAGTAAAAGGGTCTGGCCTTAATATCAAAC
ATAGATCCTCAAATTCCAAACTCAATATATAGCGATCCAAATCGTCTAAGATAGATTATA
ATCAACTTGGTTGGAAATTCTTTAAAATTTACTAAAAAAGGTAGTATAACAATTAAGGCT
TCTTTAATCAGCACAAAAGTGATTAAAATAAGTATAATTGATACTGGTATTGGCATAAAA
GAAGAAGATATGGCCAATCTATTCTAAGCTTTTGGAAAAATCGCTGGTTAGGAATAAAAA
CAGCTTAATCCAAACGGTGTCGGATTAGGACTGATGATTTCTCATGTTCTGGCTAAGAAT
TTAGGAGAAGGAGAAGGGTTAAAAGTAGAATCTTAAGTAGGAATAGGCACTGAATTTTAT
TTTGAGATTGTTAATAACTTGTAAAAAATGAATATCGATAAGTCTTTCATTCTAAAATCG
TAAATCGTTAAATCTCAATACTACAAGAAATCTCAAATAGCTTCCATGAAAATTGACTAA
TAAGGATAGCAATAGCAATATTTATAGCAACAATAGTTGTAGTATCAGCAATAACAACAA
TAAAAATAATAATAATAATAATTCATTCAAAAACCTCAAAATTAAGTGAACAATGATGAC
CTTAAGAAATGCTCACAAAATTATAACTTTGATGATATTTTGAAAACTTTTGGGAAAATT
GATAGCTATAAAGATATAAGTGGATAAGAAAATAAAGTAAATAAGCAAGAAGAGTGGAAA
GAAAATGGTCACTAGTAGCAGTCAGCTCAAAAAAGAAAGCCATCCATTCAATTACACAAT
TCATCTAAACTAAAAAATTCATCTATTCCATCATAGAATACAATTTACACTCCTAAATCG
AACTCTTGCAATTAATTAGCAGGTAGTTTGGAAGATCACTAGCCAGATATGAATGGTTAA
GCTAATTTATCTATATCTGCTTCTCTAAATTAAATGCTAAACCTTAAATAAACTAAAAAT
TAAATTATTACTATTCATGAGGAAGAGGGAGAATATGAAGGAGATGGGTCTGCTAATTTC
AACAATGAAAACTCGTAGAAATTTGAAGAAAGAGACCATTTAATCAAAAGAAGTAGTAAA
AGCTAATTTAGCAATCATAAAAATTAATTCTACTACAAAGACTAAATTGGCCCAAAAGTT
TAACTTAATAGATGTCATATTAGAAATGAAAGTGTAGATTATGATGGTTGTGGCGAGAAT
TTCGGGTTTTTAAGTGATAGACCTAACTAATAAAATGCAAGTGATAGTGAGAATATAAAA
AGTTCCTTTGAAAAAATCCTATTTCCGCCAAATTAGAAAAAATTTGACATTAGTGGTTTG
TTAAACCAAAATTAAAATAATAATGTGGTGAATAGCAATATTTAAAAGCTATAAGTTCAA
TCACAACTTGATAATTTAATTGGTAAAAATTTGAATAACGTAGAAGATTTGCATGATTCT
TCGTCCGATGATAAAGAAAGCTCTGTTGCTGATGATGAAAATTTAAATGATTCTTTTAAT
GGAAATTTCAAAAAAATGTAAAATAATTCAGATGAATAGAAACAGCAAGATAGCACTTAT
AATCAAGGATAGCCAGACAAGAACTCTGATAAAAAAGATAACTTAAAGAAAAGAACTTAA
AAAAGATATAAAACCAAAATTAAAAGATCTAGCTCATAGGTAGAATTCTTCGAATCATCT
CATAAAAGTGTGAGCTAAAGTCTAAGTGCTTCTGTCTAAGCAGAAGTAGAAATTTTAACA
ATAGATGATAATGAATTTAATAATATGGTATTAAAAATGCACATCGAAAGACTCATCAGG
GCAAGAGTTCACTGCGCAATTGATGCCCATGATGCACTATCTAAATTGCAAGAGCAATAC
ACGAAGACAAAATCAGGTTTCGATTTAATTTTCTTAGATCTCTCAATGCCTGAAATAGAC
GGTTATGGGACATTCAGCATGATTAAAGATTTTTGTAACGAAAAGAGAATCAATTAAAAC
GTTGTTGCATGTACTGGATACAGCAGTTTAGAAGAAAAAGACAAGTGCATAGATATTGGC
ATGGTTGATTATATCTTAAAGCCAATAGAAATACCCAAATTAAAAGAAGTATTATCAATC
TTCCTAGACGGAAATGCATTCAACAAGTGA

>TTHERM_00797940(protein)
MEISDQKLPKMVISSSQILNLYYSFNFRFFTHSIALMAMAIIDLVASCYSNNDNSKKMAI
VSWIQTCLFFIEIVAICLINTGKIPSFQKFFQEWQISLFKNCLCIGEVSLQIEYLMQEDM
GMKIMVSFFRIVFILATFTQWEKKNIYRFLNLIFTFIYLQLRCITYTMDSIASRINLLLL
FLIFLQTINGDVQHILDSPHLISQEQDLILTQKRMTFSEQNYQNPRQNTRGITFGGSLGG
LFSFINKPKTMTNSSISKECQQQGKTSIASNHIQNNGTHTLLANEVNQKGLHKNGQQINE
QHIATDKNGQACYQFTLQTNGPANSENNTSSNLVQNTEQFTVRKNLEKSLTAKFGSPKLV
CQQNSNEVDDINLSENNNEDFVKIQNANSEFCSPKTCQEYSKQRKKSNFQMYATQENSKE
NHQEIEDKQIQKPNKSHQDLQTSVLSPDFLANRKNNKNENSIQSIHQYQNSKMIEQEKQS
DKRLQEIKLFKLPLTTKDEENYAQINQIKQNYQSQEYSKNTQISISPKSIQSYELSLSPV
LQLSVPNNSQFYQMFFQILPEGILLLGSKQNKVHVQNRMLERLMNIKGGSLIDKFFKLEN
NLNLGETSDTSGTLDILPMIMNMKTILNESTSQQRISSIQQLNQNILPNQQQNVDSKMTQ
PSQFQPKPQAGSDNDERTNTQGSNNQIPSMPNVSILQLEDPKYNQQAYGQSLQNSPSIGQ
QQNQIDESILSKSNLKYIPQPIRQNMNQKLNMNAQYNNNIMNRKEKDLAEEQIIKQIDQQ
RSQFTNDMQKEYSNSYSSNLNQSAQTQNNIDVTYSRKKTIGELYRSLIKEIQQDIEMNGS
ASKYEAFEHQVKMICSFPYIKKKRTSNSNLKSQFNISQMAYSNMNLNIQSVSNVKSDTSE
NVENCKKIFEVTCIPCIIEGQPSVLFVVKDVTHFNQIKLLKHINKNKSQMLSQVAHEFRT
PLNCIISMMDLASITNPQSQIQQYLKPALTSAKQLNSMVNDLLDLAQLKAGKFSLNMESF
NLQELISQIVVLMSIQSEQKGLALISNIDPQIPNSIYSDPNRLRQIIINLVGNSLKFTKK
GSITIKASLISTKVIKISIIDTGIGIKEEDMANLFQAFGKIAGQEQKQLNPNGVGLGLMI
SHVLAKNLGEGEGLKVESQVGIGTEFYFEIVNNLQKMNIDKSFILKSQIVKSQYYKKSQI
ASMKIDQQGQQQQYLQQQQLQYQQQQQQKQQQQQFIQKPQNQVNNDDLKKCSQNYNFDDI
LKTFGKIDSYKDISGQENKVNKQEEWKENGHQQQSAQKRKPSIQLHNSSKLKNSSIPSQN
TIYTPKSNSCNQLAGSLEDHQPDMNGQANLSISASLNQMLNLKQTKNQIITIHEEEGEYE
GDGSANFNNENSQKFEERDHLIKRSSKSQFSNHKNQFYYKDQIGPKVQLNRCHIRNESVD
YDGCGENFGFLSDRPNQQNASDSENIKSSFEKILFPPNQKKFDISGLLNQNQNNNVVNSN
IQKLQVQSQLDNLIGKNLNNVEDLHDSSSDDKESSVADDENLNDSFNGNFKKMQNNSDEQ
KQQDSTYNQGQPDKNSDKKDNLKKRTQKRYKTKIKRSSSQVEFFESSHKSVSQSLSASVQ
AEVEILTIDDNEFNNMVLKMHIERLIRARVHCAIDAHDALSKLQEQYTKTKSGFDLIFLD
LSMPEIDGYGTFSMIKDFCNEKRINQNVVACTGYSSLEEKDKCIDIGMVDYILKPIEIPK
LKEVLSIFLDGNAFNK

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

External Links

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

General Information

Associated Literature

Sequences

Wiki Links

External Links

Source	Identifier	Score
Tetrahymena borealis	EI9_10535.1	9.997093137033517e-262
	Description: phospholipid-translocating P-type ATPase, flippase (1573 aa)
Oxytricha	Contig7971.0.g57	5.000307300873256e-47
	Description: Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase
DictyBase	DDB_G0282927	9.99648502569394e-38
	Description: dhkL on chromosome: 4 position 127874 to 133086
Stentor Coeruleus	SteCoe_18800	1.5628821893349888e-18
	Description: None
SGD	YIL147C	0.000000000007996637300921877
	Description: SLN1 Histidine kinase osmosensor that regulates a MAP kinase cascade; transmembrane protein with an intracellular kinase domain that signals to Ypd1p and Ssk1p, thereby forming a phosphorelay system similar to bacterial two-component regulators

No.	Gene Name(s)	Paragraph Text
19	FLP10, FLP19, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP11, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5	The phospholipid flippase family of genes in Tetrahymena contains 20 members, FLP1-FLP20. Preliminary studies show that many of these genes are differentially regulated in response to temperature and/or the presence of a polycyclic aromatic hydrocarbon (pyrene).