TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00797970

Standard Name
FLP9 (FLiPpase)

Aliases
PreTt23236 | 135.m00087

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component
integral component of membrane (IEA) | GO:0016021
membrane (IEA) | GO:0016020
Molecular Function
ATP binding (IEA) | GO:0005524
ATPase activity (IEA) | GO:0016887
ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism (IEA) | GO:0015662
Biological Process
cation transport (IEA) | GO:0006812

Domains

( PF00702 ) haloacid dehalogenase-like hydrolase
( PF06161 ) Protein of unknown function (DUF975)
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,

Gene Expression Profile

Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10%

TetraMine Data

TTHERM_00797970

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_25323 0

Tetrahymena borealis EI9_10539.1 9.997093137033517e-262 phospholipid-translocating P-t
ype ATPase, flippase (1144 aa)

DictyBase DDB_G0269380 9.997093137033517e-262 DDB_G0269380 on chromosome: 1
position 2645714 to 2650717

Oxytricha Contig7461.0.g40 9.997093137033517e-262 Putative hydrolase of sodium-p
otassium ATPase alpha subunit

SGD YAL026C 5.9988120619233335e-177 DRS2 Aminophospholipid translo
case (flippase) that maintains
membrane lipid asymmetry in p
ost-Golgi secretory vesicles;
contributes to clathrin-coated
vesicle formation and endocyt
osis; mutations in human homol
og ATP8B1 result in liver dise
ase

WormBase WBGene00013034 6.99860280611002e-167 locus:tat-1 status:Partially
_confirmed UniProt:Q9U280
protein_id:CAE54923.1

Source	Identifier	Score	Description
Stentor Coeruleus	SteCoe_25323	0
Tetrahymena borealis	EI9_10539.1	9.997093137033517e-262	phospholipid-translocating P-t ype ATPase, flippase (1144 aa)
DictyBase	DDB_G0269380	9.997093137033517e-262	DDB_G0269380 on chromosome: 1 position 2645714 to 2650717
Oxytricha	Contig7461.0.g40	9.997093137033517e-262	Putative hydrolase of sodium-p otassium ATPase alpha subunit
SGD	YAL026C	5.9988120619233335e-177	DRS2 Aminophospholipid translo case (flippase) that maintains membrane lipid asymmetry in p ost-Golgi secretory vesicles; contributes to clathrin-coated vesicle formation and endocyt osis; mutations in human homol og ATP8B1 result in liver dise ase
WormBase	WBGene00013034	6.99860280611002e-167	locus:tat-1 status:Partially _confirmed UniProt:Q9U280 protein_id:CAE54923.1

General Information

Paragraph No Gene Name Paragraph Text
19 FLP11,
FLP18,
FLP17,
FLP8,
FLP16,
FLP15,
FLP14,
FLP6,
FLP13,
FLP10,
FLP2,
FLP1,
DNF1 ,
FLP9,
FLP12,
FLP4,
FLP7,
FLP5,
FLP19 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_00797970(coding)
ATGCAACGTAAAAAAAATAGTTCATCAAACATGGACTACATGAAGTAGAAATATGACAAT
GCTGAGTATGATAGCAAATTTTGTTTTTTTAAAAAGCACAAAAAAGGTTACAAATTGAGA
AAAACTAGGACAATCTATCCTTTGATACCTGATTATGATTTAGTTTCAAATAAAGTTTCA
ACAAGCAAATACACGATTATAACTTTTCTACCAAAAATGCTAATATATTAGTTCAGTAAG
TTAGCCAATGTATATTTTTTGATTATAGGTCTTATGTAATGCATTACAACCATTTCAATG
AGTGATGGCAAGCCAATCATGTTCTTGCCATTTAGCGTAATACTATTTATATCGGCTCTT
AAAGAGATATTTGAAGACAAAAAGCGTAAAGATTAGGATAACTTAGAAAACTCCCATCTT
GTTATTTAAAGAGAAGGTCAAAATCTCAGTTAAGTTCACAGTCACCAGCTCCATCCTGGT
CATGTTATCAAAATTATGAAAAACGAGTAAATACCTGCTGATGTTATCCTTTTACAGTCC
AGCGAAGAAAGTGGAGTTTGCTATATTGAAACTATGAATTTAGACGGAGAATCTAATCTA
AAGTTAAGACTAGCTCCAATTGAAGTCCAGCTGCTTTCATGGGAAAACTTTTCTAATATC
GAGGTCCAATACGAAGCTCCCAATAAGTATTTATATAACTTTAATGGAGCTATGGCTTAT
GACGGAAGGTTCAATATTTCAATTAAAGGTATAAATGTGCTTCTTAAGGGTAGTTCTTTA
AAAAATACTGAGTTTGTCTATGGTTTAGTCATTTACACTGGCCATGAGACTAAGATCATG
ATGAACTCTTCTGAGCCTGCTCCCAAATTAAGCAGCTTAGAAAAGACCATGAACAAACTA
ATCGTCATCCTTTTTACTGTTCAAATATTGACATGCTTCACCTCAGCTTCAATAAATTAC
TTTTTAACCAAAAATATGAATGATAGTGGATAATTGAATTACTTAGAAAAAGATTAAGAA
CATATTCAGCAAGATACAATACTTACTGTGCTGATTAGTATGGGAACATGGATGCTTATT
TTTACTAATTTTATTCCTATTTCTTTGTTAGTTACTTTGGAAGTTGTTAAGTTTTACTAA
GGATATAATTTAATGAGAGAAGAAGGATAAGGAAATATTTCAGTACAATCAAGCAGCTTA
AATGAAGAATTAGGACAAATAAATCATATATTTTCTGATAAGACAGGCACTTTGACATTG
AATAGGATGGAATTTAAGAATGTTTGTGTTAATGGTGTCAATTATGGAAGCAATTTAGAA
ATACCAAATTAACTTTACAAAAGAAGTAGTGTGCCAAACTAAGAAAACAAAAAAAAAGTT
GATTATGTAGATTTTGATGACTATGAATTTTTTAAGCTTGTTGAATCAAAGGATTAAAAA
ACAATTGATTTACTACACTGTATTTTTTTATGTCATAATGTAGTAGTTGAAAAGGACCAT
TCCAATAATCCTATGCTTTCCGATGATGTTCACTACAGCGCATCTTCTCCAGACGAACTA
GCACTTATTTCTTTTGCTAAGCTTGCTGGATACATTTTTAAAGGTAGCAAGAAGGAAAAT
GGAAAAGAATATTATATTATTAAGCATCAAAACTAAATATTTGAATACGAAGTCTTAAAA
TTCTTTGAATTTAACAGTTTTAGAAAGAGAGTTAGTATTATAGTAAAAAATTCTTAAGGA
TAAATTTAGCTTTATTGCAAAGGAGCTGACTCAATAATTGAATAAAGATTAAGTGAATAT
GAGTTTTAATAACAAAATCTATCAGTTTCTAAATCAGTTACAAATTAATATGCAAATCAA
GGTTTGAGAACTTTATTTTTGGCAAAAAAAGATTTATCTGAACAAGAATATAATCAATGG
AGTGAAAAATATAGTGAAGCAGAGAGATCCCTTTAAAATAGAGATGAACAAGTAGAAAAG
CTATAAGACTCTATGGAAAAAGATTTAAATTTCTTAGGAGTAACAGCTGTAGAAGATAAA
TTGCAAGATGAAGTTGGAAACACAATACAATCAATAAGAGATGCAGGAATAAAGTTTTGG
GTTTTAACTGGAGACAAAAAGGAAACAGCAATAAATATCAGTCATTCTGCATAAATTATA
GACTCAGATACTTAAATAATAGATATAGATGACAAGAATTTATAATTAATAAAACAAAAA
ATTAGATACTATTTTTAGAGCGTTTAAGATAATTAGCATGTTAAGTATTCATTGATAATA
AGTGGAGAGTCATTCCATACCATAGAAACAGATCAGGAAGTTTCTTATTAATTTGTATAA
CTTTCCATGATGGTATAAAGCGTTATAGGCTGCAGATTTACTCCTAGTTAAAAGAAACAC
GCAGTTTCGCTAGTAAAAAAACATACAAAAAGAAAACCAACCCTCGCAATTGGTGATGGA
GCAAACGATGTGAACATGATCTTAGAAGCACATGTTGGTGTTGGTGTTAAAGGTGTTGAA
GGGTCTCAGGCTAGTAGAGCAAGTGATTTTAGTGTAAATGAATTCAAATAACTTAAAGAG
TTACTTTTTGACTATGGTAGAGAATGCTATAGAAAAAATAGTGAATTAGTCCTCTTTAAT
TTCTTTAAAAATCTTTTATTAGTCTTACCTCAATTCTGGTTTGGAGCTATATTAAGTTTA
TTCAGTGGAACAAATTTGTATGATCCATGGATTTATCAACTTTTTAATACCATTTTTACT
GCTCTTCCTATTGTAATTTATGCTTTGACTGATAGGGAATATTCAAAGAGGACATTACTC
TCCAATTCTAACTTTTACAAATAAGGAATGAAGTTTGAATTGTTTAATACACAAATATTT
ATAAAGACATTAATTAATGGCCTTCTTTAAAGTTTTATTATAATAATTTTATCATTTTAC
TGTTTAGAAAATACAATGTTAGACTAAAATGGATAATAATCATCACTTTCTTTAACTGGA
ATGGTGTCTTTCACAATAATAACCCTTTATGCAAACTTAAAGATAATTACTTTCTCTAAC
ACTTTTTCGTTCATTTCAGTGCTTGGGATATTTTTGAGTATTTCTTTTTATATTTTAAGC
TACTATATTATGACAGATGCAACATATGCTTAGAATAATCCTCTTTGGGAAAGCTTTACT
ATAATTTTTGGAAACCTTAGAATAGTTATGACTATTTTATTAGCTTGTTCTTTATTATTT
TTATTGGATTTGTCATATTAAAGGTTCTCACATTTTTTGTATGATTAGTCCATTAACTCT
TACAGCAAAATTTATAGTAAATTAAGTGGAGATTTCACAGAAACCTCAAGCTCTTCTAAA
GAAGTTAGAGTTGAGCTTAGTGGCAAATCAAAAAAAATAGATAACTATTATAAATTTTCA
GGATCTATTAATGGTGATCAACTTTGA

>TTHERM_00797970(protein)
MQRKKNSSSNMDYMKQKYDNAEYDSKFCFFKKHKKGYKLRKTRTIYPLIPDYDLVSNKVS
TSKYTIITFLPKMLIYQFSKLANVYFLIIGLMQCITTISMSDGKPIMFLPFSVILFISAL
KEIFEDKKRKDQDNLENSHLVIQREGQNLSQVHSHQLHPGHVIKIMKNEQIPADVILLQS
SEESGVCYIETMNLDGESNLKLRLAPIEVQLLSWENFSNIEVQYEAPNKYLYNFNGAMAY
DGRFNISIKGINVLLKGSSLKNTEFVYGLVIYTGHETKIMMNSSEPAPKLSSLEKTMNKL
IVILFTVQILTCFTSASINYFLTKNMNDSGQLNYLEKDQEHIQQDTILTVLISMGTWMLI
FTNFIPISLLVTLEVVKFYQGYNLMREEGQGNISVQSSSLNEELGQINHIFSDKTGTLTL
NRMEFKNVCVNGVNYGSNLEIPNQLYKRSSVPNQENKKKVDYVDFDDYEFFKLVESKDQK
TIDLLHCIFLCHNVVVEKDHSNNPMLSDDVHYSASSPDELALISFAKLAGYIFKGSKKEN
GKEYYIIKHQNQIFEYEVLKFFEFNSFRKRVSIIVKNSQGQIQLYCKGADSIIEQRLSEY
EFQQQNLSVSKSVTNQYANQGLRTLFLAKKDLSEQEYNQWSEKYSEAERSLQNRDEQVEK
LQDSMEKDLNFLGVTAVEDKLQDEVGNTIQSIRDAGIKFWVLTGDKKETAINISHSAQII
DSDTQIIDIDDKNLQLIKQKIRYYFQSVQDNQHVKYSLIISGESFHTIETDQEVSYQFVQ
LSMMVQSVIGCRFTPSQKKHAVSLVKKHTKRKPTLAIGDGANDVNMILEAHVGVGVKGVE
GSQASRASDFSVNEFKQLKELLFDYGRECYRKNSELVLFNFFKNLLLVLPQFWFGAILSL
FSGTNLYDPWIYQLFNTIFTALPIVIYALTDREYSKRTLLSNSNFYKQGMKFELFNTQIF
IKTLINGLLQSFIIIILSFYCLENTMLDQNGQQSSLSLTGMVSFTIITLYANLKIITFSN
TFSFISVLGIFLSISFYILSYYIMTDATYAQNNPLWESFTIIFGNLRIVMTILLACSLLF
LLDLSYQRFSHFLYDQSINSYSKIYSKLSGDFTETSSSSKEVRVELSGKSKKIDNYYKFS
GSINGDQL

>TTHERM_00797970(gene)
ATGCAACGTAAAAAAAATAGTTCATCAAACATGGACTACATGAAGTAGAAATATGACAAT
GCTGAGTATGATAGCAAATTTTGTTTTTTTAAAAAGCACAAAAAAGGTTACAAATTGAGA
AAAACTAGGACAATCTATCCTTTGATACCTGATTATGATTTAGTTTCAAATAAAGTTTCA
ACAAGCAAATACACGATTATAACTTTTCTACCAAAAATGCTAATATATTAGTTCAGTAAG
TTAGCCAATGTATATTTTTTGATTATAGGTCTTATGTAATGCATTACAACCATTTCAATG
AGTGATGGCAAGCCAATCATGTTCTTGCCATTTAGCGTAATACTATTTATATCGGCTCTT
AAAGAGATATTTGAAGACAAAAAGCGTAAAGATTAGGATAACTTAGAAAACTCCCATCTT
GTTATTTAAAGAGAAGGTCAAAATCTCAGTTAAGTTCACAGTCACCAGCTCCATCCTGGT
CATGTTATCAAAATTATGAAAAACGAGTAATTTTTCTATTAAAATGATCCAAATTAATAT
CTAGTATAAAAACCAAGTATAGCAGCTATCCAGCTATTTGCGTTAAAAGATAATATCATC
TTTTTATCTTTGACCAAAATGATTTTCATTAAACTTTGAATTTACAAATTTATTATTTAA
GTTGAGTGAAGAATTAAAAAACTCTTTCGATAAGCATTAATAGTATATTTAAAGCATTAT
TTCAATATTTTAAAGACCAATAAATGAAGATAAAAAAATAAAAAAGAAAAGTAAAAAAGC
AAGCAAAAAACATAAAAGTTTTGATAAAAAGGAATAAGTTTAAGATATTAAACTAGCTAG
TTATATTGTTAGTTAGTTAAAATATATTTTAGAATATTTAATTTATAAAGTTTAAATATT
CTAAATATATTATTATTCTATATAGTCAGTCAGTCAATTACTCACTAACTAACTCGACTT
TTAATTTAAGATAGAAATTTTTTTTAAATTTTGATTTTTATCAAAAGAAGATTAAATAAA
TATCTATCTATCTATTTAATTAATTAATTAATTAATCCATTAATTTTCTTCTTTTAATCA
AATTTAAGTAGAACTTATTGTTTTTAAATAAATAAATTTATTTATTTATACATTTAGGTA
AATACCTGCTGATGTTATCCTTTTACAGTCCAGCGAAGAAAGTGGAGTTTGCTATATTGA
AACTATGAATTTAGACGGAGAATCTAATCTAAAGTTAAGACTAGCTCCAATTGAAGTCCA
GCTGCTTTCATGGGAAAACTTTTCTAATATCGAGGTCCAATACGAAGCTCCCAATAAGTA
TTTATATAACTTTAATGGAGCTATGGCTTATGACGGAAGGTTCAATATTTCAATTAAAGG
TATAAATGTGCTTCTTAAGGGTAGTTCTTTAAAAAATACTGAGTTTGTCTATGGTTTAGT
CATTTACACTGGCCATGAGACTAAGATCATGATGAACTCTTCTGAGCCTGCTCCCAAATT
AAGCAGCTTAGAAAAGACCATGAACAAACTAATCGTCATCCTTTTTACTGTTCAAATATT
GACATGCTTCACCTCAGCTTCAATAAATTACTTTTTAACCAAAAATATGAATGTAATTAA
TTAATTATTTTAATCTAAATTTTATTCAACTTTTTAATAAATTAATTTATTTTTTTTATT
TAAATTTGTGTTTTTCTTGGTTCAAAAGAAATTCAATTTAAATAAAATATTATTCTGATT
TAATTATTGACTTTAAAATTGATTTTCTTCAAAATATTAAAATAATTTATTGAGTTTTTG
TTTAAAATAAATAATTAAAAACTCTCTTTTTTTGTAATGAATTTGTTTATTTTTTTGATT
AAAATGGAATAGACTTGATTAATTTATTTTTAAATAATTAATGAAAATAGGATAGTGGAT
AATTGAATTACTTAGAAAAAGATTAAGAACATATTCAGCAAGATACAATACTTACTGTGC
TGATTAGTATGGGAACATGGATGCTTATTTTTACTAATTTTATTCCTATTTCTTTGTTAG
TTACTTTGGAAGTTGTTAAGTTTTACTAAGGATATAATTTAATGAGAGAAGAAGGATAAG
GAAATATTTCAGTACAATCAAGCAGCTTAAATGAAGAATTAGGACAAATAAATCATATAT
TTTCTGATAAGACAGGCACTTTGACATTGAATAGGATGGAATTTAAGAATGTTTGTGTTA
ATGGTGTCAATTATGGAAGCAATTTAGAAATACCAAATTAACTTTACAAAAGAAGTAGTG
TGCCAAACTAAGAAAACAAAAAAAAAGTTGATTATGTAGATTTTGATGACTATGAATTTT
TTAAGCTTGTTGAATCAAAGGATTAAAAAACAATTGATTTACTACACTGTATTTTTTTAT
GTCATAATGTAGTAGTTGAAAAGGACCATTCCAATAATCCTATGCTTTCCGATGATGTTC
ACTACAGCGCATCTTCTCCAGACGAACTAGCACTTATTTCTTTTGCTAAGCTTGCTGGAT
ACATTTTTAAAGGTAGCAAGAAGGAAAATGGAAAAGAATATTATATTATTAAGCATCAAA
ACTAAATATTTGAATACGAAGTCTTAAAATTCTTTGAATTTAACAGTTTTAGAAAGAGAG
TTAGTATTATAGTAAAAAATTCTTAAGGTAAATTTTTATTCAAAAATTATTTCAATCATT
GTTAAAATTTTAAAGAAAATTCAAGTTTATCTTTCATTAAAATTTAATTTTAAAAAAAAT
TTATATCATTTCAATTTAAATAGGATAAATTTAGCTTTATTGCAAAGGAGCTGACTCAAT
AATTGAATAAAGATTAAGTGAATATGAGTTTTAATAACAAAATCTATCAGTTTCTAAATC
AGTTACAAATTAATATGCAAATCAAGGTTTGAGAACTTTATTTTTGGCAAAAAAAGATTT
ATCTGAACAAGAATATAATCAATGGAGTGAAAAATATAGTGAAGCAGAGAGATCCCTTTA
AAATAGAGATGAACAAGTAGAAAAGCTATAAGACTCTATGGAAAAAGATTTAAATTTCTT
AGGAGTAACAGCTGTAGAAGATAAATTGCAAGATGAAGTTGGAAACACAATACAATCAAT
AAGAGATGCAGGTCAGTTTAATTTATTTCAAACTTCCAAATTAAGTTTTAATGAAAAAAT
CTTTGAAATAATTTTCAAATTAAAAAAAAATTATTTAAATAAATAAATAATTTTAAGTTC
AATAAAAAAAATGAATTTTATCTGATTCTTTGTTTTCATTCAAAATATTTAGAAATTAAT
AGAAAAGCTTTTTAATTCATAAATTTGGTTTAAAAATGTCAAGAAAAAAATTTAATACCT
AATTTTAAAATTATTTTAAATTCAGGAATAAAGTTTTGGGTTTTAACTGGAGACAAAAAG
GAAACAGCAATAAATATCAGTCATTCTGCATAAATTATAGACTCAGATACTTAAATAATA
GATATAGATGACAAGAATTTATAATTAATAAAACAAAAAATTAGATACTATTTTTAGAGC
GTTTAAGATAATTAGCATGTTAAGTATTCATTGATAATAAGTGGAGAGTCATTCCATACC
ATAGAAACAGATCAGGAAGTTTCTTATTAATTTGTATAACTTTCCATGATGGTATAAAGC
GTTATAGGCTGCAGATTTACTCCTAGTTAAAAGAAACACGCAGTTTCGCTAGTAAAAAAA
CATACAAAAAGAAAACCAACCCTCGCAATTGGTGATGGAGCAAACGATGTGAACATGATC
TTAGAAGCACATGTTGGTAAATAATGCTTTAATCATTATATTAATTTTATATCCTCATTT
TACTATTAGTTTTATTGTTAATGATTTAAATACTTATTAATTAGGTGTTGGTGTTAAAGG
TGTTGAAGGGTCTCAGGCTAGTAGAGCAAGTGATTTTAGTGTAAATGAATTCAAATAACT
TAAAGAGTTACTTTTTGACTATGGTAGAGAATGCTATAGAAAAAATAGTGAATTAGTCCT
CTTTAATTTCTTTAAAAATCTTTTATTAGTCTTACCTCAATTCTGGTTTGGAGCTATATT
AAGTTTATTCAGTGGAACAAATTTGTATGATCCATGGATTTATCAACTTTTTAATACCAT
TTTTACTGCTCTTCCTATTGTAATTTATGCTTTGACTGATAGGGAATATTCAAAGAGGAC
ATTACTCTCCAATTCTAACTTTTACAAATAAGGTTTTTATTTTTATTTTTAAATTTAATT
AATATTTTGAAGCATATCTTTTAAGCATTGTAATAGAAAAAACAACAAAAATATTTAACG
ATTTTCTAAATTTAATTTAAACAATGGGATAATTAAAATTTATTGTTTGTTTTTTTGTCC
TAATGTAAGTTACTTTAAAAAATAAAGAGTAGACTAATCCTTTAAAATGAATAAAATATG
GCAAACATTTTTGCTTGAAATAAAAGAAAATAAGAAAATTTTCAATTTATTTTAAATTAA
AAAAAATTTTTAATTATAAAAGGAATGAAGTTTGAATTGTTTAATACACAAATATTTATA
AAGACATTAATTAATGGCCTTCTTTAAAGTTTTATTATAATAATTTTATCATTTTACTGT
TTAGAAAATACAATGTTAGACTAAAATGGATAATAATCATCACTTTCTTTAACTGGAATG
GTGTCTTTCACAATAATAACCCTTTATGCAAACTTAAAGATAATTACTTTCTCTAACACT
TTTTCGTTCATTTCAGTGCTTGGGATATTTTTGAGTATTTCTTTTTATATTTTAAGCTAC
TATATTATGACAGATGCAACATATGCTTAGAATAATCCTCTTTGGGAAAGCTTTACTATA
ATTTTTGGAAACCTTAGAATAGTTATGACTATTTTATTAGCTTGTTCTTTATTATTTTTA
TTGGATTTGTCATATTAAAGGTTCTCACATTTTTTGTATGATTAGTCCATTAACTCTTAC
AGCAAAATTTATAGTAAATTAAGTGGAGATTTCACAGAAACCTCAAGCTCTTCTAAAGAA
GTTAGAGTTGAGCTTAGTGGCAAATCAAAAAAAATAGATAACTATTATAAATTTTCAGGA
TCTATTAATGGTGATCAACTTTGA

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component

Molecular Function

Biological Process

Domains

Gene Expression Profile

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

TetraMine Data

WebApollo

Tetrahymena Stock Center

Homologs (v.2006 protein sequences)

General Information

Associated Literature

Sequences

Wiki Links

External Links

Paragraph No	Gene Name	Paragraph Text
19	FLP11, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP10, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5, FLP19	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).