TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00497900

Standard Name
FLP1 (FLiPpase)

Aliases
PreTt06955 | 62.m00239 | 3715.m00100

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

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

Domains

( PF00122 ) E1-E2 ATPase
( PF06637 ) PV-1 protein (PLVAP)
( TIGR00099 ) Cof-like hydrolase
( TIGR00338 ) phosphoserine phosphatase SerB
( TIGR02886 ) anti-sigma F factor antagonist
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF08282 ) haloacid dehalogenase-like hydrolase
( TIGR01524 ) magnesium-translocating P-type ATPase
( TIGR01482 ) Sucrose-phosphate phosphatase subfamily
( TIGR01525 ) heavy metal translocating P-type ATPase
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( PF06686 ) Stage III sporulation protein AC
( TIGR01647 ) plasma-membrane proton-efflux P-type ATPase
( TIGR01522 ) calcium-transporting P-type ATPase, PMR1-type
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR01488 ) HAD-superfamily hydrolase, subfamily IB (PSPase-like)
( 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: 10.3%

TetraMine Data

TTHERM_00497900

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_29926 0

WormBase WBGene00009498 9.997093137033517e-262 locus:tat-5 status:Confirmed
UniProt:G5EGE0 protein_id
:CAD92377.1

Tetrahymena borealis EI9_12681.1 9.997093137033517e-262 phospholipid-translocating P-t
ype ATPase, flippase (1090 aa)

Oxytricha Contig899.1.g81 9.997093137033517e-262 E1-E2 ATPase

SGD YIL048W 9.997093137033517e-262 NEO1 Putative aminophospholipi
d translocase (flippase) invol
ved in endocytosis and vacuola
r biogenesis; localizes to end
osomes and the Golgi aparatus

DictyBase DDB_G0270870 6.998081184481452e-172 atp9b on chromosome: 1 positio
n 2777615 to 2781943

Source	Identifier	Score	Description
Stentor Coeruleus	SteCoe_29926	0
WormBase	WBGene00009498	9.997093137033517e-262	locus:tat-5 status:Confirmed UniProt:G5EGE0 protein_id :CAD92377.1
Tetrahymena borealis	EI9_12681.1	9.997093137033517e-262	phospholipid-translocating P-t ype ATPase, flippase (1090 aa)
Oxytricha	Contig899.1.g81	9.997093137033517e-262	E1-E2 ATPase
SGD	YIL048W	9.997093137033517e-262	NEO1 Putative aminophospholipi d translocase (flippase) invol ved in endocytosis and vacuola r biogenesis; localizes to end osomes and the Golgi aparatus
DictyBase	DDB_G0270870	6.998081184481452e-172	atp9b on chromosome: 1 positio n 2777615 to 2781943

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_00497900(coding)
ATGGCTGAGGACTCAGGTGATGAGATAGAACTTTAAATGAAGGATTAGAATGATGTTAGT
GATGGGAAAAATTATTTAGAGCCTAATGGGCAAGAAGAGGATCTTTTGTTTAAAAAGAAT
AAAAATAAAAAGAAATCAGTTAGTTTTTTTTCCAAGCTGTACAATTGCTTGAGTGGTAAT
TCTTAGCATGAAGGAGATAGAAAAATTTACTTAGATGGGCATTCAGTGCCTAAAATAAAT
GTGCAAAATGTTGTGAGAAATCAAAAATATAACATTTTTACTTTTATTCCTTGTGTGCTT
TACAATCAATTCAAGTTTTTCTTCAACTTTTTTTATTTATTAATATGCATTTCTCAGTTT
ATTCCAGCCTTAACTGTAGGGTTTCTCTTCACTTACATAGCTCCTTTAGCTTTTGTGCTA
ATTTTAACTATGATTAAAGATGCATACGACGATTACAAAAGATATAAAAGAGACAAAGAA
GCAAATAGTTCACTTTATGAAGTTATTGTCAACGGACAAATAAAATTAATTCCTAGTATG
AACTTAAAAGTAGGATAAATCGTAAAAGTAAATTTAAAATAAAGAATTCCTGCTGATTTA
ATTATACTCACTGCTTCTGAGCCAAATGGTACTGTTTTTATCCGTACAGACTAGCTTGAT
GGTGAAACAGACTGGAAAATTAGAAAATGTATCAGACATACACAAAACGAAGTCGACTTT
TAAAATGCTGTAAGTCTTTAAAAGCTGGGAGGTCACGTTGTCATTAACTAGCCTTAAGAA
AATATCTATGAGTTTTCAGGTTTATATAAATTTAATGATCACTAAGAACCACTTAATTTA
GAAAACACTCTCTGGTGCAACACAATTTTAGCATCTGGACATATATGGGGTTTGGTCATA
CACACAGGAAAGGAAACAAGAATGGCTATGAATTCAAGGCATCCTAGAAGCAAATTTGGG
CTCTTTGATGAAGAAGTCAACTAGCTATCAAAAATATTATTTTACTTTATGATTATCCTT
TCATTTGTAATGATACTTTTCCATGGATTCACATCTCTATGGGTAATTTAGTATTTCCGT
TACCTACTTTTGCTAAGTAGCATCATACCCATTTCCTTAAGAGTTAACAATGACTTTGCA
AAAGCAGTATTCTCCTATTAAATTCAAAACGATAAGTCTATTGAAGGTACAGTCGCAAGA
AACTCTAATATACCAGAAGAATTAGGAAGAATATAATACGTTTTGGCAGATAAAACAGGA
ACTCTCACACAAAACGATATGATATTTAAAAAGATTATTATCAGTGAGAAATAATATACA
GAAGAAGACTTCAATGAAATTAGATCCATTCTTTCCAAACATTGCCAAAAACACAAAGGT
CCACTTTCTGATGTAGAAGGTGATACAATTGCAGAAAATAAAAGGCATTTGCGCAGAAAA
AATGATTATTTACTTAGAGATGCAATCACAGCACTAGCAGTCTGCCACAACGTTACTCCA
GTTATTGAAGACGGAGAAACCGTTCTTTAAGCATCAAGTCCTGATGAGCATGCACTTGTG
AAATTCGCACAAAGCTTAAATATAACTCTGCTTTCAAGAGATGAGCAAAAAGTAGTTGTA
AGAAATGCTGCTAAAGAAGAAGAGCACTTTGAAATTCTTGCTTGCTTTCCCTTCAGCTCC
GAAACCAAAAGAATGGGTATACTTGTTAGACACTAAAAGACCAATAAAATTATATACTAC
TTGAAAGGTGCTGATGCTATCATGGTAACGAGAGTAAGAAAAGTTTACCATCCACTTATC
AATGATGACTGTGACAATCTAGCTAGAGAAGGTCTTCGTACTCTTGTTGTTGCACAAAAG
CTGATTTCAGAAGAGTTTTACAAGGATTGGAGAGCCAAGTACAATAAAGCATAAGAACAC
ATGCAAAATAGAAATGCAAAAATTAGAGAAGTTGCTGAGTTATTAGAAGTAGATATGGAG
CTTTTAGCTGTTACAGGTGTAGAAGATAAACTTCAAGATGAAGTCTGCTCTACAATTGAA
AGTATGAGGTAAGGTGGGATAAAAGTGTGGATGCTTACAGGAGATAAAGTAGAAACAGCT
AAATGTATAGCAATCAGTGCAGGTTTGTAATCAAGAAATTAAGAAATATTTGAAATCAAA
GATGAAACAGATGAAATGGCTATAAGAGAACTGATTAATAAATTTTCTCATAAATCTGAT
TGTGTTTTACTAATTGATGGTGTATCACTGACTAGAGTAATATAATCTTGCTCAAAAATT
TTCTTTGAAACTGCTTGCCAAGCTCCAGCTGTAATTTGTTGTAGATGTGCACCCAAATAA
AAGGCTGAAGTTACAGAGATGCTTAAAAAATACTCCAAAAAAAGAGTACTTTGTATTGGT
GATGGTGGTAATGATGTCGGTATGATATAATGTGCTCATGTAGGAGTAGGTATTGTAGGA
AAAGAAGGAAAACAAGCTGCTTTAGCCTCTGATTTTTCAATTTTAGAATTCAAACACATC
AAGTAGTTATTATTTTGGCATGGTAGAAACTCATATAAAAAAGCAACCACATTAAGTTTG
TTTGTCATCCATAGAGGTTTAATTATAAGTATTATCTAATTTGTTTTCAGTAGTGTCTTC
TATTTTGTAGCCATTCCTATTTACAATGGTATGCTGATGCTTGGTTATTCAACTTTTTAT
ACATCTTTACCTGTCTTCTGTTTGATTTTTGACTAAGATATTTCTTAAAAAATGGTTCAA
CAGTACCCTTAATTATATAAAACTCTATAAAGAAACAAAAGAATGAGCACAAAATCAATA
TTAGTATGGATCTGGATTAGCATTTACTAAGGAGCTTTAATCATGCTTATGACTTTAACT
ATGTTTAAAGAAGCCTTTTTAAATATTGTGACCATTACATTTACGTCATTAATTTTTATT
GAGCTTTTGAATGTATACTCATAGATTCATACATTCCATTTTGCAATGGTAGTAAGTCAG
GTATTCACGTTCCTTTTATATGTTCTAAGTATCATATTCTTAAATAATTATATTGATACT
GCTTAAATAAATATTCACTTCTTTGTTAAAGTTTCTTTGATTTGCTTATGCACATGGCTA
CCTGTTCATACATTTAAGATAATTTAATAAGCTTGTTATCCTAGTGAAGAAAAAAAAATA
ATGCGTCAAGTATTTACCTTAAAAGATTTCTTAGGAGTTTTAATAGGATTTGCTAGCTTA
TTGATATTTGTATTTTTATATGCAAATTGA

>TTHERM_00497900(protein)
MAEDSGDEIELQMKDQNDVSDGKNYLEPNGQEEDLLFKKNKNKKKSVSFFSKLYNCLSGN
SQHEGDRKIYLDGHSVPKINVQNVVRNQKYNIFTFIPCVLYNQFKFFFNFFYLLICISQF
IPALTVGFLFTYIAPLAFVLILTMIKDAYDDYKRYKRDKEANSSLYEVIVNGQIKLIPSM
NLKVGQIVKVNLKQRIPADLIILTASEPNGTVFIRTDQLDGETDWKIRKCIRHTQNEVDF
QNAVSLQKLGGHVVINQPQENIYEFSGLYKFNDHQEPLNLENTLWCNTILASGHIWGLVI
HTGKETRMAMNSRHPRSKFGLFDEEVNQLSKILFYFMIILSFVMILFHGFTSLWVIQYFR
YLLLLSSIIPISLRVNNDFAKAVFSYQIQNDKSIEGTVARNSNIPEELGRIQYVLADKTG
TLTQNDMIFKKIIISEKQYTEEDFNEIRSILSKHCQKHKGPLSDVEGDTIAENKRHLRRK
NDYLLRDAITALAVCHNVTPVIEDGETVLQASSPDEHALVKFAQSLNITLLSRDEQKVVV
RNAAKEEEHFEILACFPFSSETKRMGILVRHQKTNKIIYYLKGADAIMVTRVRKVYHPLI
NDDCDNLAREGLRTLVVAQKLISEEFYKDWRAKYNKAQEHMQNRNAKIREVAELLEVDME
LLAVTGVEDKLQDEVCSTIESMRQGGIKVWMLTGDKVETAKCIAISAGLQSRNQEIFEIK
DETDEMAIRELINKFSHKSDCVLLIDGVSLTRVIQSCSKIFFETACQAPAVICCRCAPKQ
KAEVTEMLKKYSKKRVLCIGDGGNDVGMIQCAHVGVGIVGKEGKQAALASDFSILEFKHI
KQLLFWHGRNSYKKATTLSLFVIHRGLIISIIQFVFSSVFYFVAIPIYNGMLMLGYSTFY
TSLPVFCLIFDQDISQKMVQQYPQLYKTLQRNKRMSTKSILVWIWISIYQGALIMLMTLT
MFKEAFLNIVTITFTSLIFIELLNVYSQIHTFHFAMVVSQVFTFLLYVLSIIFLNNYIDT
AQINIHFFVKVSLICLCTWLPVHTFKIIQQACYPSEEKKIMRQVFTLKDFLGVLIGFASL
LIFVFLYAN

>TTHERM_00497900(gene)
AAAAATTAATATCTCATAAAAAATCAGCAATAAGCACTTTAATACTTTAAGAAATTAAAA
TTAATAAATACCCTTTAGATAAATTGAATTACTCTCCCCCTTAAAAGATAACCCAATCTC
CGAGGCCATTAAATAAATAAAAAGTTAGGCTAAATAAAATGGCTGAGGACTCAGGTGATG
AGATAGAACTTTAAATGAAGGATTAGAATGATGTTAGTGATGGGAAAAATTATTTAGAGC
CTAATGGGCAAGAAGAGGATCTTTTGTTTAAAAAGAATAAAAATGTAGAAATTAAATTCT
TATATTTTAAAAGCGAATCCAATAGAATGAAAGTGATTAAAGCATTTAAATTTAACAGTT
TTTCTAAGTAGAAAAGCAAAAATAAAACATTTTTTTATTTGAAATTTGGAAACAAAGCCA
TATTTATTTATTTAGAACTAAAATATATTTGTAATATTAGATTTATGAAAATATTTATCA
TTAATTTTAATAGAAAAAGAAATCAGTTAGTTTTTTTTCCAAGCTGTACAATTGCTTGAG
TGGTAATTCTTAGCATGAAGGAGATAGAAAAATTTACTTAGATGGGCATTCAGTGCCTAA
AATAAATGTGCAAAATGTTGTGAGAAATCAAAAATATAACATTTTTACTTTTATTCCTTG
TGTGCTTTACAATCAATTCAAGTTTTTCTTCAACTTTTTTTATTTATTAATATGCATTTC
TCAGTTTATTCCAGCCTTAACTGTAGGTAAATAGAGTTCATTTAATTATTTGAAATGTCT
TTTGAGAAATAAATATTAGCCCTAATTGTATTTTGAGAATATAGATGGTAAAAACTATTT
TTTTTAATTTATAGGGTTTCTCTTCACTTACATAGCTCCTTTAGCTTTTGTGCTAATTTT
AACTATGATTAAAGATGCATACGACGATTACAAAAGATATAAAAGAGACAAAGAAGCAAA
TAGTTCACTTTATGAAGTTATTGTCAACGGACAAATAAAATTAATTCCTAGTATGAACTT
AAAAGTAGGATAAATCGTAAAAGTAAATTTAAAATAAAGAATTCCTGCTGATTTAATTAT
ACTCACTGCTTCTGAGCCAAATGGTACTGTTTTTATCCGTACAGACTAGCTTGATGGTGA
AACAGACTGGAAAATTAGAAAATGTATCAGACATACACAAAGTAAAAATAGTTTAAAATA
AACTATTACGTTTATTATTACAATTTTTTGTTACTTTGAATATTTTTGTGATTTACGAGA
AATAAATAAATAAAAAAATAAATAGACTGGTTTCGTAATTTACTGATAAATTAAGGTTGT
GTTGTAATTCAAAAATTTTAATGTTATTGAGTAACTAAATTTTCATAAATAATTTGTCTA
TTAGATATGCTTTTTATTTAAATTTAACAAGAACCAGCTTTTATCAATAATTTTACTTTT
TTATTCTTACTATAACTATTTTAAATTAATAGACGAAGTCGACTTTTAAAATGCTGTAAG
TCTTTAAAAGCTGGGAGGTCACGTTGTCATTAACTAGCCTTAAGAAAATATCTATGAGTT
TTCAGGTTTATATAAATTTAATGATCACTAAGAACCACTTAATTTAGAAAACACTCTCTG
GTGCAACACAATTTTAGCATCTGGACATATATGGGGTTTGGTCATACACACAGGAAAGGA
AACAAGAATGGCTATGAATTCAAGGCATCCTAGAAGCAAATTTGGGCTCTTTGATGAAGA
AGTCAACTAGCTATCAAAAATATTATTTTACTTTATGATTATCCTTTCATTTGTAATGAT
ACTTTTCCATGGATTCACATCTCTATGGGTAATTTAGTATTTCCGTTACCTACTTTTGCT
AAGTAGCATCATACCCATTTCCTTAAGAGTTAACAATGACTTTGCAAAAGCAGTATTCTC
CTATTAAATTCAAAACGATAAGTCTATTGAAGGTACAGTCGCAAGAAACTCTAATATACC
AGAAGAATTAGGAAGAATATAATACGTTTTGGCAGATAAAACAGGAACTCTCACACAAAA
CGATATGATATTTAAAAAGATTATTATCAGTGAGAAATAATATACAGAAGAAGACTTCAA
TGAAATTAGATCCATTCTTTCCAAACATTGCCAAAAACACAAAGGTCCACTTTCTGATGT
AGAAGGTGATACAATTGCAGAAAATAAAAGGCATTTGCGCAGAAAAAATGATTATTTACT
TAGAGATGCAATCACAGCACTAGCAGTCTGCCACAACGTTACTCCAGTTATTGAAGACGG
AGAAACCGTTCTTTAAGTAAACATACTTTTTTTCTCAAATTTAATTATTTAGCAAATAAT
AAATAATAAAGGCATCAAGTCCTGATGAGCATGCACTTGTGAAATTCGCACAAAGCTTAA
ATATAACTCTGCTTTCAAGAGATGAGCAAAAAGTAGTTGTAAGAAATGCTGCTAAAGAAG
AAGAGCACTTTGAAATTCTTGCTTGCTTTCCCTTCAGCTCCGAAACCAAAAGAATGGGTA
TACTTGTTAGACACTAAAAGACCAATAAAATTATATACTACTTGAAAGGTGCTGATGCTA
TCATGGTAACGAGAGTAAGAAAAGTTTACCATCCACTTATCAATGATGACTGTGACAATC
TAGCTAGAGAAGGTCTTCGTACTCTTGTTGTTGCACAAAAGCTGATTTCAGAAGAGTTTT
ACAAGGATTGGAGAGCCAAGTACAATAAAGCATAAGAACACATGCAAAATAGAAATGCAA
AAATTAGAGAAGTTGCTGAGTTATTAGAAGTAGATATGGAGCTTTTAGGTAATTATTAAT
ATCTATTTGTATATTAAGTAAATTAAAATAAATTAATAATTTTAATAGCTGTTACAGGTG
TAGAAGATAAACTTCAAGATGAAGTCTGCTCTACAATTGAAAGTATGAGGTAAGGTGGGA
TAAAAGTGTGGATGCTTACAGGAGATAAAGTAGAAACAGCTAAATGTATAGCAATCAGTG
CAGGTTTGTAATCAAGAAATTAAGAAATATTTGAAATCAAAGATGAAACAGATGAAATGG
CTATAAGAGAACTGATTAATAAATTTTCTCATAAATCTGATTGTGTTTTACTAATTGATG
GTGTATCACTGACTAGAGTAATATAATCTTGCTCAAAAATTTTCTTTGAAACTGCTTGCC
AAGCTCCAGCTGTAATTTGTTGTAGATGTGCACCCAAATAAAAGGCTGAAGTTACAGAGA
TGCTTAAAAAATACTCCAAAAAAAGAGTACTTTGTATTGGTGATGGTGGTAATGATGTCG
GTATGATATAATGTGCTCATGTAGGAGTAGGTATTGTAGGAAAAGAAGGAAAACAAGCTG
CTTTAGCCTCTGATTTTTCAATTTTAGAATTCAAACACATCAAGTAGTTATTATTTTGGC
ATGGTAGAAACTCATATAAAAAAGGTAAATAAACATTTTTTTAATTACTATGATTTAAAT
CTACCTAAAAAATAATTAAGATAAATATTGATTCTAAAAGAAAATTTAAATGTTAAATTT
TAAAGAATAAAATTTTATTTCAGCATTTTAAGTTTGCTGTTCAGCATCTTAAAATTTATT
AATGATTTTGAAAAAAAATCTATTTATAAAATTACATTTTTATAAGACAATTAACAAATT
ATTGAAATTAAGAATTAATTTTGAACAAAAATATAACAAAGATTTTAAATTTAATTTTCT
AAATTCTAAAATTTAAATAAATTTAATATTTTACTATAAAGCAACCACATTAAGTTTGTT
TGTCATCCATAGAGGTTTAATTATAAGTATTATCTAATTTGTTTTCAGTAGTGTCTTCTA
TTTTGTAGCCATTCCTATTTACAATGGTATGCTGATGCTTGGTTATTCAACTTTTTATAC
ATCTTTACCTGTCTTCTGTTTGATTTTTGACTAAGATATTTCTTAAAAAATGGTTCAACA
GTACCCTTAATTATATAAAACTCTATAAAGAAACAAAAGAATGAGCACAAAATCAATATT
AGTATGGATCTGGATTAGCATTTACTAAGTAATTAAGTTAATCAAATTATATTTATCTAA
TAATTTTTACTACTAACAGGGAGCTTTAATCATGCTTATGACTTTAACTATGTTTAAAGA
AGCCTTTTTAAATATTGTGACCATTACATTTACGTCATTAATTTTTATTGAGCTTTTGAA
TGTATACTCATAGGTAAATTAACACTTTTAAAAATATTCTATAATAAATACAAATTTTAA
TGTTAACAAACCAAAGTTTATTAGCTTTGAGATATAATATAACAAAGAATTTAGAAATTA
TTTACTAAACTAAAATTGAAAAAAATTATTATTAAAATAGATTCATACATTCCATTTTGC
AATGGTAGTAAGTCAGGTATTCACGTTCCTTTTATATGTTCTAAGTATCATATTCTTAAA
TAATTATATTGATACTGCTTAAATAAATATTCACTTCTTTGTTAAAGTTTCTTTGATTTG
CTTATGCACATGGCTACCTGTTCATACATTTAAGATAATTTAATAAGCTTGTTATCCTAG
TGAAGAAAAAAAAATAATGCGTCAAGTATTTACCTTAAAAGATTTCTTAGGAGTTTTAAT
AGGATTTGCTAGCTTATTGATATTTGTATTTTTATATGCAAATTGATTTATAATTTTAAT
TGTTTAATATAAATAAATTATGTAGTTTTAATATTTTATTTTTAATAAAAATACTTTAAT
GTTAATTATACTTCGTTTACATCTATAATTATTATCTTAAATGTTTGTCAGTTATTTCCA
ATTTATTTATAC

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

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).