TGD | Tetrahymena Genome Database Wiki

Identifiers and Description

Gene Model Identifier
TTHERM_00600310

Standard Name
FLP14 (FLiPpase)

Aliases
PreTt22094 | 83.m00163 | 3685.m00055

Description
FLP14 phospholipid-translocating P-type ATPase flippase family protein

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

Molecular Function
catalytic activity (IEA) | GO:0003824
Biological Process
metabolic process (IEA) | GO:0008152

Domains

( PF00702 ) haloacid dehalogenase-like hydrolase
( PF08282 ) haloacid dehalogenase-like hydrolase
( TIGR00099 ) Cof-like hydrolase
( TIGR00338 ) phosphoserine phosphatase SerB
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase

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

Stentor Coeruleus SteCoe_21684 0

Description: None

Tetrahymena borealis EI9_14898.1 9.997093137033517e-262

Description: phospholipid-translocating P-type ATPase, flippase (912 aa)

Oxytricha Contig11192.0.g81 9.997093137033517e-262

Description: haloacid dehalogenase-like hydrolase

DictyBase DDB_G0269380 3.999622461503957e-161

Description: DDB_G0269380 on chromosome: 1 position 2645714 to 2650717

SGD YAL026C 6.002069467939404e-154

Description: DRS2 Aminophospholipid translocase (flippase) that maintains membrane lipid asymmetry in post-Golgi secretory vesicles; contributes to clathrin-coated vesicle formation and endocytosis; mutations in human homolog ATP8B1 result in liver disease

WormBase WBGene00013034 9.995938456217754e-149

Description: locus:tat-1 status:Partially_confirmed UniProt:Q9U280 protein_id:CAE54923.1

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

No Data fetched for Associated Literature

Sequences

>TTHERM_00600310(coding)
ATGCAATAAGACATGCAAAACACGGACAATATTGTTGATGAAATTTAAAAATCCTACCAA
AATTAAATAGAAGAATCTTATTTTTTTTGCTTAAGGAGATAGAAAGTTAGAGATCAAGAT
AAAAGAGCTATCTACTTAGGAGTTCCAGATAATTAAGTTTGTGATAATAGAATTTAAACA
TCAAAATACAATTATATTACATTTATACCTAAAAATTTACTTGTATAGTTTAGCAAACTT
GCAAATATCTACTTTTTAATTATTGGAATATTTTAAATACTTCCTTCAATTACAACGACT
GAGGGAAAGCCTATTGTTTATACACCTTTAACAATTATAGTTGTTATTAGTATGATAAAG
GATTTTATTGAGGATAGAAAAAGGAGAAAATAAGATTAGTTTGAAAATCAGTCTGATACT
AAGAAGCTCAATGTAAAAACAGGCTAATTTGAGAAAGTAAAATGGTAAGATCTAAGGATA
GGCGATATAATATAAGTAAATTTAAATGAGAGATTTCCAGCAGATATTTTGGTGTTATCT
AGTACTAATCAATATGGAATTTGTTACATAGAAACAAAAAACTTAGACGGTGAAGTCAAT
TTAAAGCAAAGATAGAGTTGTGCTCCTAATTTATTTCAAGATGAATAGTTTACATAAAAT
ATAAATAATATTGGAAGATTTTAATTCATATATGAAGACCCTAATATTCGTATTCACAGT
TTTAATGGAATAATGATTGACAAGCAGGATACAGACAGTTAATAAAATCAGTATCTTCTA
TCTTTATAAAACATTTGCTTAAGAGGTTGTACTCTCAAGCGTACTAAATCTCTAATTGGG
ATTGTTATTTATTCTGGACATGATTGCAAATCTCTAAAATATGCAAATAGAGGACAGTAC
AAGTTTGGCACAGTTGAAAAATTAATGAATAAGATGGTGCTTTATGTATTTATTATATTG
GTTTTAATAAGTATTTTCTGTGCATCATACTACACTATTTGGTACAAATAGAAAAAAGAT
GAGCTTCCATATTTAGTTATCGGAAAAAGTGATATAGAATCTCACCTAGTCGTTAGCTTT
TTTATTAGAATTCCAATGTGGATTTTATTACTTAATCCCTTTGTTCCTATATCTTTAATG
GTAACACTTGAAATTGTAAAATACCTTTAAGGCTAGTTGCTGAGTAAAGACAAAAATTTT
GTGAACAGCATTAGTGATGAATTAGTAGAAGTAAATGGTAGTAATTTAATAGATTAGCTT
GGACAAGTAAAGTACATTCTAACTGACAAAACAGGGACTCTAACAGCTAATATTATGAAA
TTTAAGGCTCTATCATTAAACAGTGTTTGTTATGAATATAATTATTAACAAGATGATCAT
GGAATTTTAATGAGCTAGAAACTTATTGATCTTTTAAAAAATGCTTAAGAGAATTAAATA
GAGTACGAAGCACTTATGTGTATGAATTTATGCCATGAGCTGTTAATAGAATAATAAGAG
GGAAAAAGATTGTATCTTGGAACAAGTCCTGATGAAGAATGCATCATGGACTTTTGTGTT
TAAACAGGTATTTATTTAGAGAGCGTAGACGAGCATAAAGTGATGACTATTTATGATTCT
ATCAACGATAAGAGGCTTTAATTTAAGATAATAGCCTTGCATGAATATCGTTCGGATATT
AGAAAAATGTCGATTTTGGTTTAAAATTTATAGACAAAATAATATAAAATTTACTAGAAA
GGAGCTATGAACACAATATTTCAATGCTGTAGATAAGATTAAAAAAATAAAATGATAGCT
GTTGAAGAGCATTTAAATAATTTCGCTAGCAACATGCTTAGGACTCTTTGTCTCTCATAT
AGAAACTTGAGTGAAAATGAAATCACAAAATTCTTTGATAAGAGGAGCAAAGATCTAGAA
GGTGGAAATTTAAATATTCAAGAAATGAATGATGGTCTGTTTGCAGAAATCGAAAATGAA
CAAATTTTGATAGGCGGTACCGGAGTTAATGATGAATTTGCAGACTAAGTTGTTCAAACT
CTTTCTAATTTAAAGTAAGCTGGAATTAAAATTTGGATGATTACTGGAGATAAAAGAGAA
ACAGCTTTGAGTATTGGTATCAAATCAAATATAGTAGAGTAAGGTGTTGAATTAAAAGTT
ATTTAAGATGCTACTGAAAGCATCATTAATGAATAATTAGTAATTAATGAGCTTAAGATG
TTCGAAGATTAATTAAAGTAATAATAAAAGTTAAGCATAGGTATCTCTGGATTAACTTTT
TATGGAATTAATATATCAACAAATACTGAAATAAAACAAACATTTAGCTACATAATGAAG
CATGCTGATTCAGTCATAGCATATCATTTCACTCCCAATTAAAAAAAATAACTTGTAGAT
TTAGTTCATAACATAAGTCCAGGTCAATGTGTATTAGCAATAGGAGATGGAGCTAATGAT
ATTAATATGTTATAGGTTGCTGATGTCGGCATAGGAATACGTGGAAAAGAAGGTAGAGAG
GCAGCAAAAGCTTCAGATTTTTCAATTGCAGAATTTAAACATTTAAACAGGCTAATACTT
TATGTAGGATAAGAGGCTTATAGAAAAAACAGTCATCTAATTTTATTCAATTTTTATAAA
AATCAAGCTTGGATACTTGTTTATTTTTGGATCAATTTTTATTCTGGTTAAAGTGGTTAG
TATGTTTACGATTAATGGATTTCTCAATTTTTCAATTTATTCTACTCATCTCTTCCTATC
ATAATTTATGCTTTGTTTGATGAAATCCACCCTTCAAATTAATTCTTTAAAGCTATACAA
ACTGATAAAAATATTTTAGAATCAAGACCTCAAGATTACAAAAAATTTACCAACAATCTC
ATATTTTAACAAAAAAATTTTTGGAAATGGTTTTTCTATGGTTCTTTCCATGCACTGATA
ATAACTTTTATCTCATTTTTCAGTGTTGGGGATAATTCTGATTAACATGGAAGATAAACG
GATATATTTTATTAAGGAATGCTTGCATTTACTTGTTGTGTTATAGTTACAAATTTAAAG
GTGTAATAATTGCACTAAACTCACTGTTTTTTGAACATATTTTTTATATATGCGAGTATT
GCTTTTTATCTATTAAACCTATTTATTGCTAGTAAGATAATTAAAATAGAAATATACGAA
GTTTATTCACGCTTATTCTGCTAACCAAATACTTACCTTGCTATAGCTTTATCAATAATG
ACTGCATATGGGGCTGATTCTGCATATTAAGTTTTTAAATAACTTAATATCCCAGAAAAA
GCTTAAATTTAGGAGCCATTAAAAAGCAAGTAAAGTATTAGATTTAGTTAAGAAGAAAAA
GTGGTATGCTAGGAAATAGATATTGAAGATATGATAAAAAACTATCCAGAAAATCGCTAT
AGTAGTGGCTTGCATGAAAAGCTTATTTCAAAATAACAACAACAATTAAAAGATTTAAGA
ATAAGTAATTAATCTAGTGCTAGTATAAATAAGGCTTATGAAGAGCCATATGAAAACGAT
ATTGGTTTTTAAAATTTATTATAAAATTAAAATTCATATGCTTAATCATCAATCAGATAT
TCGAATATCCCATCCATTAAGATATAAAGAGTGGATACATTATGA

>TTHERM_00600310(gene)
ATGCAATAAGACATGCAAAACACGGACAATATTGTTGATGAAATTTAAAAATCCTACCAA
AATTAAATAGAAGAATCTTATTTTTTTTGCTTAAGGAGATAGAAAGTTAGAGATCAAGAT
AAAAGAGCTATCTACTTAGGAGTTCCAGATAATTAAGTTTGTGATAATAGAATTTAAACA
TCAAAATACAATTATATTACATTTATACCTAAAAATTTACTTGTATAGTTTAGCAAACTT
GCAAATATCTACTTTTTAATTATTGGAATATTTTAAATACTTCCTTCAATTACAACGACT
GAGGGAAAGCCTATTGTTTATACACCTTTAACAATTATAGTTGTTATTAGTATGATAAAG
GATTTTATTGAGGATAGAAAAAGGAGAAAATAAGATTAGTTTGAAAATCAGTCTGATACT
AAGAAGCTCAATGTAAAAACAGGCTAATTTGAGAAAGTAAAATGGTAAGATCTAAGGATA
GGCGATATAATATAAGTAAATTTAAATGAGAGATTTCCAGCAGATATTTTGGTGTTATCT
AGTACTAATCAATATGTAATTTCTTTATAGACTTATTAATTAAAAAGTTAATCAAATTAT
TAGTGATTATCATGTGTAAAAGCATTGATTTTTTTATTTAATTATTTTGTAAACTGGATA
AAAATCTTATAAAATCTTATAATCCATTTATTTTCTTTTATTATTTATAAAGGGAATTTG
TTACATAGAAACAAAAAACTTAGACGGTGAAGTCAATTTAAAGCAAAGATAGAGTTGTGC
TCCTAATTTATTTCAAGATGAATAGTTTACATAAAATATAAATAATATTGGAAGATTTTA
ATTCATATATGAAGACCCTAATATTCGTATTCACAGTTTTAATGGAATAATGATTGACAA
GCAGGATACAGACAGTTAATAAAATCAGTATCTTCTATCTTTATAAAACATTTGCTTAAG
AGGTTGTACTCTCAAGCGTACTAAATCTCTAATTGGGATTGTTATTTATTCTGGACATGA
TTGCAAATCTCTAAAATATGCAAATAGAGGACAGTAAAATTAAAATTTATTTATTTATTT
ATTAAAATAAAAATAAAAAATATTTATTTTCATAGGTACAAGTTTGGCACAGTTGAAAAA
TTAATGAATAAGATGGTGCTTTATGTATTTATTATATTGGTTTTAATAAGTATTTTCTGT
GCATCATACTACACTATTTGGTACAAATAGAAAAAAGATGAGCTTCCATATTTAGTTATC
GGAAAAAGTGATATAGAATCTCACCTAGTCGTTAGCTTTTTTATTAGAATTCCAATGTGG
ATTTTATTACTTAATCCCTTTGTTCCTATATCTTTAATGGTAACACTTGAAATTGTAAAA
TACCTTTAAGGCTAGTTGCTGAGTAAAGACAAAAATTTTGTGAACAGCATTAGTGATGAA
TTAGTAGAAGTAAATGGTAGTAATTTAATAGATTAGCTTGGACAAGTAAAGTACATTCTA
ACTGACAAAACAGGGACTCTAACAGCTAATATTATGAAATTTAAGGCTCTATCATTAAAC
AGTGTTTGTTATGAATATAATTATTAACAAGATGATCATGGAATTTTAATGAGCTAGAAA
CTTATTGATCTTTTAAAAAATGCTTAAGAGAATTAAGTATTTTATTAATTATGATTTATC
ACTGAAATGCATATTTTATTTATTTATTATTAAATTTTAGATAGAGTACGAAGCACTTAT
GTGTATGAATTTATGCCATGAGCTGTTAATAGAATAATAAGAGGGAAAAAGATTGTATCT
TGGAACAAGTCCTGATGAAGAATGCATCATGGACTTTTGTGTTTAAACAGGTATTTATTT
AGAGAGCGTAGACGAGCATAAAGTGATGACTATTTATGATTCTATCAACGATAAGAGGCT
TTAATTTAAGATAATAGCCTTGCATGAATATCGTTCGGATATTAGAAAAATGTCGATTTT
GGTTTAAAATTTATAGACAAAATAATATAAAATTTACTAGAAAGGAGCTATGAACACAAT
ATTTCAATGCTGTAGATAAGATTAAAAAAATAAAATGATAGCTGTTGAAGAGCATTTAAA
TAATTTCGCTAGCAACATGCTTAGGACTCTTTGTCTCTCATATAGAAACTTGAGTGAAAA
TGAAATCACAAAATTCTTTGATAAGTATTTATCTATTAATAGCTATAAAGCAAATCATTT
ATTTTTAAAAATATTTAAGGAGGAGCAAAGATCTAGAAGGTGGAAATTTAAATATTCAAG
AAATGAATGATGGTCTGTTTGCAGAAATCGAAAATGAACAAATTTTGATAGGCGGTACCG
GAGTTAATGATGAATTTGCAGACTAAGTTGTTCAAACTCTTTCTAATTTAAAGTAAGCTG
GAATTAAAATTTGGATGATTACTGGAGATAAAAGAGAAACAGCTTTGAGTATTGGTATCA
AATCAAATATAGTAGAGTAAGGTGTTGAATTAAAAGTTATTTAAGATGCTACTGAAAGCA
TCATTAATGAATAATTAGTAATTAATGAGCTTAAGATGTTCGAAGATTAATTAAAGTAAT
AATAAAAGTTAAGCATAGGTATCTCTGGATTAACTTTTTATGGAATTAATATATCAACAA
ATACTGAAATAAAACAAACATTTAGCTACATAATGAAGCATGCTGATTCAGTCATAGCAT
ATCATTTCACTCCCAATTAAAAAAAATAACTTGTAGATTTAGTTCATAACATAAGTCCAG
GTCAATGTGTATTAGCAATAGGAGATGGAGCTAATGATATTAATATGTTATAGGTTGCTG
ATGTCGGCATAGGAATACGTGGAAAAGAAGTAATTTTAATAGTAAAAAGCAACTATTTAA
TTAGTATTTTATAAAAATAAATTAGGGTAGAGAGGCAGCAAAAGCTTCAGATTTTTCAAT
TGCAGAATTTAAACATTTAAACAGGCTAATACTTTATGTAGGATAAGAGGCTTATAGAAA
AAACAGTCATCTAATTTTATTCAATTTTTATAAAAATCAAGCTTGGATACTTGTTTATTT
TTGGATCAATTTTTATTCTGGTTAAAGTGGTTAGTATGTTTACGATTAATGGATTTCTCA
ATTTTTCAATTTATTCTACTCATCTCTTCCTATCATAATTTATGCTTTGTTTGATGAAAT
CCACCCTTCAAATTAATTCTTTAAAGCTATACAAACTGATAAAAATATTTTAGAATCAAG
ACCTCAAGATTACAAAAAATTTACCAACAATCTCATATTTTAACAAAAAAATTTTTGGAA
ATGGTTTTTCTATGGTTCTTTCCATGCACTGATAATAACTTTTATCTCGTAAAACAATCA
ATTCTATTGATTTTATTTATTTAGTTACAAAAAATTAATTTAGTATTAGAAAAAAAATAT
AGTAAATTAAATTTTTCTACAAAATTTTTTAGTTTTTAAATTCATAATTATAATTTAATT
TAAAAAAATATTTAGATTTTTCAGTGTTGGGGATAATTCTGATTAACATGGAAGATAAAC
GGATATATTTTATTAAGGAATGCTTGCATTTACTTGTTGTGTTATAGTTACAAATTTAAA
GGTGTAATAATTGCACTAAACTCACTGTTTTTTGAACATATTTTTTATATATGCGAGTAT
TGCTTTTTATCTATTAAACCTATTTATTGCTAGTAAGATAATTAAAATAGAAATATACGA
AGTTTATTCACGCTTATTCTGCTAACCAAATACTTACCTTGCTATAGCTTTATCAATAAT
GACTGCATATGGGGCTGATTCTGCATATTAAGTTTTTAAATAACTTAATATCCCAGAAAA
AGCTTAAATTTAGGAGCCATTAAAAAGCAAGTAAAGTATTAGATTTAGTTAAGAAGAAAA
AGTGGTATGCTAGGAAATAGATATTGAAGATATGATAAAAAACTATCCAGAAAATCGCTA
TAGTAGTGGCTTGCATGAAAAGCTTATTTCAAAATAACAACAACAATTAAAAGATTTAAG
AATAAGTAATTAATCTAGTGCTAGTATAAATAAGGCTTATGAAGAGCCATATGAAAACGA
TATTGGTTTTTAAAATTTATTATAAAATTAAAATTCATATGCTTAATCATCAATCAGATA
TTCGAATATCCCATCCATTAAGATATAAAGAGTGGATACATTATGA

>TTHERM_00600310(protein)
MQQDMQNTDNIVDEIQKSYQNQIEESYFFCLRRQKVRDQDKRAIYLGVPDNQVCDNRIQT
SKYNYITFIPKNLLVQFSKLANIYFLIIGIFQILPSITTTEGKPIVYTPLTIIVVISMIK
DFIEDRKRRKQDQFENQSDTKKLNVKTGQFEKVKWQDLRIGDIIQVNLNERFPADILVLS
STNQYGICYIETKNLDGEVNLKQRQSCAPNLFQDEQFTQNINNIGRFQFIYEDPNIRIHS
FNGIMIDKQDTDSQQNQYLLSLQNICLRGCTLKRTKSLIGIVIYSGHDCKSLKYANRGQY
KFGTVEKLMNKMVLYVFIILVLISIFCASYYTIWYKQKKDELPYLVIGKSDIESHLVVSF
FIRIPMWILLLNPFVPISLMVTLEIVKYLQGQLLSKDKNFVNSISDELVEVNGSNLIDQL
GQVKYILTDKTGTLTANIMKFKALSLNSVCYEYNYQQDDHGILMSQKLIDLLKNAQENQI
EYEALMCMNLCHELLIEQQEGKRLYLGTSPDEECIMDFCVQTGIYLESVDEHKVMTIYDS
INDKRLQFKIIALHEYRSDIRKMSILVQNLQTKQYKIYQKGAMNTIFQCCRQDQKNKMIA
VEEHLNNFASNMLRTLCLSYRNLSENEITKFFDKRSKDLEGGNLNIQEMNDGLFAEIENE
QILIGGTGVNDEFADQVVQTLSNLKQAGIKIWMITGDKRETALSIGIKSNIVEQGVELKV
IQDATESIINEQLVINELKMFEDQLKQQQKLSIGISGLTFYGINISTNTEIKQTFSYIMK
HADSVIAYHFTPNQKKQLVDLVHNISPGQCVLAIGDGANDINMLQVADVGIGIRGKEGRE
AAKASDFSIAEFKHLNRLILYVGQEAYRKNSHLILFNFYKNQAWILVYFWINFYSGQSGQ
YVYDQWISQFFNLFYSSLPIIIYALFDEIHPSNQFFKAIQTDKNILESRPQDYKKFTNNL
IFQQKNFWKWFFYGSFHALIITFISFFSVGDNSDQHGRQTDIFYQGMLAFTCCVIVTNLK
VQQLHQTHCFLNIFFIYASIAFYLLNLFIASKIIKIEIYEVYSRLFCQPNTYLAIALSIM
TAYGADSAYQVFKQLNIPEKAQIQEPLKSKQSIRFSQEEKVVCQEIDIEDMIKNYPENRY
SSGLHEKLISKQQQQLKDLRISNQSSASINKAYEEPYENDIGFQNLLQNQNSYAQSSIRY
SNIPSIKIQRVDTL

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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

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
Stentor Coeruleus	SteCoe_21684	0
	Description: None
Tetrahymena borealis	EI9_14898.1	9.997093137033517e-262
	Description: phospholipid-translocating P-type ATPase, flippase (912 aa)
Oxytricha	Contig11192.0.g81	9.997093137033517e-262
	Description: haloacid dehalogenase-like hydrolase
DictyBase	DDB_G0269380	3.999622461503957e-161
	Description: DDB_G0269380 on chromosome: 1 position 2645714 to 2650717
SGD	YAL026C	6.002069467939404e-154
	Description: DRS2 Aminophospholipid translocase (flippase) that maintains membrane lipid asymmetry in post-Golgi secretory vesicles; contributes to clathrin-coated vesicle formation and endocytosis; mutations in human homolog ATP8B1 result in liver disease
WormBase	WBGene00013034	9.995938456217754e-149
	Description: locus:tat-1 status:Partially_confirmed UniProt:Q9U280 protein_id:CAE54923.1

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).