TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00316630

Standard Name
FLP7 (FLiPpase)

Aliases
PreTt20974 | 31.m00276 | 3687.m00078

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

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

Domains

( PF00122 ) E1-E2 ATPase
( TIGR00099 ) Cof-like hydrolase
( TIGR00338 ) phosphoserine phosphatase SerB
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF09229 ) Activator of Hsp90 ATPase, N-terminal
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,

Gene Expression Profile

Tetrahymena Functional Genomics Database: TTHERM_00316630

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Oxytricha Contig19960.0.g51 9.99709313703352e-262 E1-E2 ATPase

Tetrahymena borealis EI9_08413.2 9.99709313703352e-262 phospholipid-translocating...

ParameciumDB GSPATP00035083001 9.99709313703352e-262 Paramecium tetraurelia GSPATP0
0035083001 protein

DictyBase DDB0190219 9.99561556090728e-178 JC1V2_0_01058 Q9Y2Q0 Potential
phospholipid-transporting ATP
ase IA (EC 3.6.3.1) (Chromaffi
n granule ATPase II) (ATPase c
lass I type 8A member 1).

TAIR AT1G59820 9.99710571898043e-168 haloacid dehalogenase-like hyd
rolase family protein

IPI(HUMAN) IPI:IPI00412527.1 1.00019999203709e-161 Tax_Id=9606 139 kDa protein

FlyBase FBgn0033837 9.9985960992081e-158

SGD YAL026C 9.99934137263994e-153 DRS2 SGDID:S000000024, Chr I f
rom 99698-95631, reverse compl
ement, Verified ORF, "Integral
membrane Ca(2+)-ATPase involv
ed in aminophospholipid transl
ocation; required to form a sp
ecific class of secretory vesi
cles that accumulate upon acti
n cytoskeleton disruption; mut
ation affects maturation of th
e 18S rRNA"

WormBase Y49E10.11b 9.99668353155528e-144 WBGene00013034 tat-1

CryptoDB EAK89054 1.0001155149985e-113 Cryptosporidium parvum (Iowa)
protein EAK89054

ToxoDB 50.m03192 1.00026461339066e-103 Toxoplasma gondii ATPase 2, pu
tative

PlasmoDB PFL0950c 2.99962770752593e-88 Plasmodium falciparum PFL0950c

Source	Identifier	Score	Description
Oxytricha	Contig19960.0.g51	9.99709313703352e-262	E1-E2 ATPase
Tetrahymena borealis	EI9_08413.2	9.99709313703352e-262	phospholipid-translocating...
ParameciumDB	GSPATP00035083001	9.99709313703352e-262	Paramecium tetraurelia GSPATP0 0035083001 protein
DictyBase	DDB0190219	9.99561556090728e-178	JC1V2_0_01058 Q9Y2Q0 Potential phospholipid-transporting ATP ase IA (EC 3.6.3.1) (Chromaffi n granule ATPase II) (ATPase c lass I type 8A member 1).
TAIR	AT1G59820	9.99710571898043e-168	haloacid dehalogenase-like hyd rolase family protein
IPI(HUMAN)	IPI:IPI00412527.1	1.00019999203709e-161	Tax_Id=9606 139 kDa protein
FlyBase	FBgn0033837	9.9985960992081e-158
SGD	YAL026C	9.99934137263994e-153	DRS2 SGDID:S000000024, Chr I f rom 99698-95631, reverse compl ement, Verified ORF, "Integral membrane Ca(2+)-ATPase involv ed in aminophospholipid transl ocation; required to form a sp ecific class of secretory vesi cles that accumulate upon acti n cytoskeleton disruption; mut ation affects maturation of th e 18S rRNA"
WormBase	Y49E10.11b	9.99668353155528e-144	WBGene00013034 tat-1
CryptoDB	EAK89054	1.0001155149985e-113	Cryptosporidium parvum (Iowa) protein EAK89054
ToxoDB	50.m03192	1.00026461339066e-103	Toxoplasma gondii ATPase 2, pu tative
PlasmoDB	PFL0950c	2.99962770752593e-88	Plasmodium falciparum PFL0950c

General Information

Paragraph No Gene Name Paragraph Text
19 FLP11,
FLP18,
FLP17,
FLP8,
FLP16,
FLP15,
FLP14,
FLP6,
FLP13,
FLP10,
FLP2,
FLP1,
FLP3,
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_00316630(coding)
ATGGGATCCCTACTTGGCAGTTAAGCTAAGTCTTATGATTAAGATAGAATTTTTACTGCT
TTTCAAGACGAAGAAGCTTTGAAACATAAACATTAGCATCTTAACGAAAGCAACTCTAAA
AAGTTTCCATCTAATTTCATTAAAACTTCTAGGTATACAGCAGTTTCATTCTTACCTATG
AGCTTATTGCTCTAATTTTAGAGATACGCAAATATTTACTTTTTAGTTACTGCAATTCTT
CAATGCATTCCCCAAATATCTCCTTTGAGCCCTTTTGTTGCAGTTGCTCCTCTTATTTTT
GTACTTGCTGTTTCTATGGCTCGTGAAGGATATGAAGATTATCAAAGACACAAGAGTGAT
AATGAATAAAATTTTTCAGCAAAAACAAAGAGAGTCCTCCAAGATAGAGGTGAGGAAGAT
GTAGCTTGGGCTAATGTCCATGTTGGAGATATTCTACATATTTATCAAGATGAATGCTTT
CCCACTGATCTACTTGTATTAGGAAGTAACCTAGGTGGTGTGTGCTATATCGAAACAGGT
GCACTTGATGGTGAAAAAAATTTAAAGCCAAAGTCAGCCATTAATGAAACTTCATCATAT
TTCTCCACAAAAGAAGATAACGTTGCTACATTATCAACAGGAAATCTATTTACCAACAAA
TAAACAAACTTTAATTTAACCATAAAAGCTAATAAACCAGATTAGGATCCTAATCACTTT
ATTGGTAGTATAGGATTTTAGCTACAAAATGACAATAATCCTTAAAGTGCCAAGCAAATC
CCTGCAGATTCTACTTAATTTGTACCAAGAGGTGCATTCCTAAGAAATACAGAAAGTATT
TATGCTGTAGTTGTTTATACAGGTATGGATACAAAAATTATGAAAAATGCAGAAGAGGGA
AAAGCAAAATCGAGTGACATGGAAGCAAAAATGAACAAATTCATTCTAGGAATTCTTATT
TTCTAGTTTTTATGTTGTTTTGTGATGAGTTCTTGCTCATATTACTGGCTAGATAAAAAC
CATATATATTATCCCTATCTTGACTTGGACAAAGATGGTCTTTCCTATATTTCTCAATCT
GTTTTAGTCTATTTCTCTTATTTTATTCTTTTTAATACAATGATTCCAATTTCACTTGTT
GTTTCACTTGAAATGGTTAAGGTCCTACAATCATACTTCATTACAAATGATTATGAAATG
TATTCTCACCACAATTAGAGATGGCCAAGAGTACTCACATCTACAATTAACGAAGAACTA
GGTTAGGTTGAATATGTCTTTTCTGATAAGACAGGTACTCTCACTCAAAATTAAATGCAA
TTTAAAATGGCTGTAATAGGTAACACTCTTTATGGTGAAAAAGCTGCTTAAAAAAAGAAA
GCCGCTGTATAGCCTTCTAAACAATAAAAAAGTAACACCAAATAGCATCAACATACAGAA
TTTGTTTTTGAAGATGATAATTTAACTAATCTCCTTTCAAGAAAAGCTGAAAAGTCTTAG
AATCCTCCAGTTAACATCACTCTTAAATCAAAGGATGGCAAAGCTACTTACACTATTCCT
AGCTAGTACGAACTATCAAGAGAATATTTCAAAAATTTAGGTTTAGCTCATGAATGTATT
GTAGAGAAAAATAAGGATCCTAATGATACAAATTATTATTACTAAGGTCCCTCTCCGGAT
GAAATCACTCTAGTTGATGCTGCGTATCATATGGGATTTACATTTGTTGGAAAAACTAGT
AACAAACTTATGATGAATTTGACAGATACAGCTGGAAAAGAAGGCTAATAAGAATTTACT
AAAATTAATGTTTTCGAATTTAGCAGTGCGAGAAAACGTATGACTCTTTTATTAGAAGAT
AATGGAGTTTATAAAATGTACGTTAAGGGTGCTGATAATGTGATTAAAGAGCGTCTCGAT
AAGGGTATCCATTAGCCATACTTAGATTTTGCAGATAAAAAGTTAACAGAATTTTCTCTT
GTTGGTTTACGTACTTTATTGATTGGTTTTAAAATTCTCTCCAAAGATGAAGTTGATGCA
TTTGTCAATAAATATAACAATTTGGCTAACTCTGCAAATAGAAAAGAAGACTTAGAGAAA
TTAGCTGATGAAGTAGAATAAGGGTTTTTCTTATTAGGAGCAACAGCTGTGGAAGATAAA
TTGTAAGATGATGTCCCAGAAACTATTCATGATCTACTTCGTGCCATATGGATGCTTACT
GGTGATAAATTAGAGACAGCTGAAAATATTGCAAAAAGCTGTAAGCTTATTCTAGAAGAT
TTTGAATTACTTGTTATGAGTGATAAAAATCCTAAAGTTATCCGTAAAGAAATGACAGAA
ATCCTATGGAAAAGATTTAAAAAACTGAAAGAAGATAAAGTTCGTAAATGCTTTTTAGTA
GAAGGTGATTGTCTAAAGGTCATATTTGAAAAAGGTAATGAAGATATCAAAAAAAAATTT
GTTTAAATTACCAAAGATTGCGAAAGTGTTGTATGCTGCAGAGTATCTCCAGTCTAAAAA
GCATAAGTAGTTAGATCTATAAGAGAAGGACTTAACAAAATCACTTTAGCAATTGGTGAT
GGAGCCAATGATGTTAACATGATTCAGGCAGCCCACATTGGATGTGGTATATATGGTAAT
GAAGGTATGCGTGCAGTATAAAGCAGTGATTTCGCTTTTGGATAATTTAAATGCTTATGG
AGACTTCTTTTTGTACATGGAAGATGGTCATACATTAGAATCTCTGAAATGATTGTCTAT
TTCTTCTATAAAAACATGATTTTTACTATTCCTTAGCTTTATTTTGCTTTCTTTAGTGGC
TTTTCTGCACAAAGTATCTTTGATGATTACTATATATCTATGTATAATCTTATTTTTACT
GCTCTACCCTTAATCATTAGAGCTATTTTTGATTAAGACGTAAACTACATGTACATATAG
TACGATAGAAAACTTGTATAAACAGGAGATGAAAATGAAAAGAGAAGATTATAAAAGCTT
ATAAATAAACGTAAAGACTATATTAGAGATAGATTACCCAATCTCTATTATTTAGGTCAA
AAGCAATAACTTTTTTCAACAAGAATATTCCTTGAGTGGTTAATTTAAGGTATTGTACAT
GGTAATATAACATTAGCTTCTGATGGCTATACCTCAGATATGTGGTCATTCTCATTAATT
ATATTCACATCTGTTGTATTTATTGCTGATCTTAAGTTAGCTATTTACACAAGGTACTGG
ACTTTAATAAATTATTTAGCCTTCTACATCACAAGTATAGGTCTCTACATAGCTGCCTTC
TTTATCACTGGTGTTTTGTATAACAGTTATGTTTATGAAACACCAAACTATTTGGTATAA
ACACCTCATTTCTATCTAGTTATTTTCTTCATAGTAGCAGGAATATTTGCATTTGATATG
TTTGTCTATGCTTCTAAAGAATTATTCCATAATAAGACAAAAGAAAAAGCCCTTAGAAGG
CTAATGAAGGAGCAGCCTAAGAAGAGTAATGAAAATAAATGGATTTTCTAAGGCTCAGCA
ATCGAATTAGAGAGTAACTTGAACAGCTTTAAAGACAAATTTGATGAGGAAAGCTAAATC
ATGCTCAGTGCAATAAATTTAAATAAAAAAGATGAAAAATAATACATCGAACCCTAAACT
ATCTTCATGAATGGTTAAGGAAACAAAGGTACTGAAGTTTAATTTTTGTCCAGCTCAAAC
TAAGATTTTGACGAGAGGAAAGATAACAATATAGGATTGCCACCTTCTAAATAATTCCAT
TCTAAGCAAGAAATTGAATTAGATGACTGA

>TTHERM_00316630(protein)
MGSLLGSQAKSYDQDRIFTAFQDEEALKHKHQHLNESNSKKFPSNFIKTSRYTAVSFLPM
SLLLQFQRYANIYFLVTAILQCIPQISPLSPFVAVAPLIFVLAVSMAREGYEDYQRHKSD
NEQNFSAKTKRVLQDRGEEDVAWANVHVGDILHIYQDECFPTDLLVLGSNLGGVCYIETG
ALDGEKNLKPKSAINETSSYFSTKEDNVATLSTGNLFTNKQTNFNLTIKANKPDQDPNHF
IGSIGFQLQNDNNPQSAKQIPADSTQFVPRGAFLRNTESIYAVVVYTGMDTKIMKNAEEG
KAKSSDMEAKMNKFILGILIFQFLCCFVMSSCSYYWLDKNHIYYPYLDLDKDGLSYISQS
VLVYFSYFILFNTMIPISLVVSLEMVKVLQSYFITNDYEMYSHHNQRWPRVLTSTINEEL
GQVEYVFSDKTGTLTQNQMQFKMAVIGNTLYGEKAAQKKKAAVQPSKQQKSNTKQHQHTE
FVFEDDNLTNLLSRKAEKSQNPPVNITLKSKDGKATYTIPSQYELSREYFKNLGLAHECI
VEKNKDPNDTNYYYQGPSPDEITLVDAAYHMGFTFVGKTSNKLMMNLTDTAGKEGQQEFT
KINVFEFSSARKRMTLLLEDNGVYKMYVKGADNVIKERLDKGIHQPYLDFADKKLTEFSL
VGLRTLLIGFKILSKDEVDAFVNKYNNLANSANRKEDLEKLADEVEQGFFLLGATAVEDK
LQDDVPETIHDLLRAIWMLTGDKLETAENIAKSCKLILEDFELLVMSDKNPKVIRKEMTE
ILWKRFKKLKEDKVRKCFLVEGDCLKVIFEKGNEDIKKKFVQITKDCESVVCCRVSPVQK
AQVVRSIREGLNKITLAIGDGANDVNMIQAAHIGCGIYGNEGMRAVQSSDFAFGQFKCLW
RLLFVHGRWSYIRISEMIVYFFYKNMIFTIPQLYFAFFSGFSAQSIFDDYYISMYNLIFT
ALPLIIRAIFDQDVNYMYIQYDRKLVQTGDENEKRRLQKLINKRKDYIRDRLPNLYYLGQ
KQQLFSTRIFLEWLIQGIVHGNITLASDGYTSDMWSFSLIIFTSVVFIADLKLAIYTRYW
TLINYLAFYITSIGLYIAAFFITGVLYNSYVYETPNYLVQTPHFYLVIFFIVAGIFAFDM
FVYASKELFHNKTKEKALRRLMKEQPKKSNENKWIFQGSAIELESNLNSFKDKFDEESQI
MLSAINLNKKDEKQYIEPQTIFMNGQGNKGTEVQFLSSSNQDFDERKDNNIGLPPSKQFH
SKQEIELDD

>TTHERM_00316630(gene)
ATGGGATCCCTACTTGGCAGTTAAGCTAAGTCTTATGATTAAGATAGAATTTTTACTGCT
TTTCAAGACGAAGAAGCTTTGAAACATAAACATTAGCATCTTAACGAAAGCAACTCTAAA
AAGTTTCCATCTAATTTCATTAAAACTTCTAGGTATACAGCAGTTTCATTCTTACCTATG
AGCTTATTGCTCTAATTTTAGAGATACGCAAATATTTACTTTTTAGTTACTGCAATTCTT
CAATGCATTCCCCAAATATCTCCTTTGAGCCCTTTTGTTGCAGTTGCTCCTCTTATTTTT
GTACTTGCTGTTTCTATGGCTCGTGAAGGATATGAAGATTATCAAAGACACAAGAGTGAT
AATGAATAAAATTTTTCAGCAAAAACAAAGAGAGTCCTCCAAGATAGAGGTGAGGAAGAT
GTAGCTTGGGCTAATGTCCATGTTGGAGATATTCTACATATTTATCAAGATGAATGCTTT
CCCACTGATCTACTTGTATTAGGAAGTAACCTAGGTGGTGTGTGCTATATCGAAACAGGT
GCACTTGATGGTGAAAAAAATTTAAAGCCAAAGTCAGCCATTAATGAAACTTCATCATAT
TTCTCCACAAAAGAAGATAACGTTGCTACATTATCAACAGGAAATCTATTTACCAACAAA
TAAACAAACTTTAATTTAACCATAAAAGCTAATAAACCAGATTAGGATCCTAATCACTTT
ATTGGTAGTATAGGATTTTAGCTACAAAATGACAATAATCCTTAAAGTGCCAAGCAAATC
CCTGCAGATTCTACTTAATTTGTACCAAGAGGTGCATTCCTAAGAAATACAGAAAGTATT
TATGCTGTAGTTGTTTATACAGGTATGGATACAAAAATTATGAAAAATGCAGAAGAGGGA
AAAGCAAAATCGAGTGACATGGAAGCAAAAATGAACAAATTCATTCTAGGAATTCTTATT
TTCTAGTTTTTATGTTGTTTTGTGATGAGTTCTTGCTCATATTACTGGCTAGATAAAAAC
CATATATATTATCCCTATCTTGACTTGGACAAAGATGGTCTTTCCTATATTTCTCAATCT
GTTTTAGTCTATTTCTCTTATTTTATTCTTTTTAATACAATGATTCCAATTTCACTTGTT
GTTTCACTTGAAATGGTTAAGGTCCTACAATCATACTTCATTACAAATGATTATGGTAAG
AATTTATTTATTCATTTTATATTAAAAATCAATAGGTATTAAGCAATTAATTTTTTATTA
ATTTTTAAAATAAACAAAAAAATTTTCTATCTTTGAGTAAAGGTGAAAATATTTTTTTTG
TCTCCAATATTATTCTACATTTTCTCACTTAAATTTACAGAAAAATACACAAAAAGATTT
TTTTAATTTCACAGTTTACAATTAATTATTCTTAAATTTAATTTTAGTTGGTTCAATTTT
TCAAACGCAAAATTTTTAATTCGAATATATTTTTGACAATTAATTATTTTGCGTTAAATT
CATCAAAAATCTTAATATCTATTTAGAAAATTTAGATTTTTTTCTAATTAATCATATTAT
CAGTTGATTACTTCTTAATAATTCAAAAAAAATTTAATTTAAATAAAAATACTACCTATT
TATTTAATATCCTTTTTTTATCTTTGACTTCAACATAAAATTTTAATGACATTTAGAAAT
GTATTCTCACCACAATTAGAGATGGCCAAGAGTACTCACATCTACAATTAACGAAGAACT
AGGTTAGGTTGAATATGTCTTTTCTGATAAGACAGGTACTCTCACTCAAAATTAAATGCA
ATTTAAAATGGCTGTAATAGGTAACACTCTTTATGGTGAAAAAGCTGCTTAAAAAAAGAA
AGCCGCTGTATAGCCTTCTAAACAATAAAAAAGTAACACCAAATAGCATCAACATACAGA
ATTTGTTTTTGAAGATGATAATTTAACTAATCTCCTTTCAAGAAAAGCTGAAAAGTCTTA
GAATCCTCCAGTTAACATCACTCTTAAATCAAAGGATGGTAATTAATTTTTATTTCGATC
CTTCAATATTATTTACCTTAAAATAAAATACAAAAATCTTACAAACATTTTAATTAATTA
ATTAAAAAGGCAAAGCTACTTACACTATTCCTAGCTAGTACGAACTATCAAGAGAATATT
TCAAAAATTTAGGTTTAGCTCATGAATGTATTGTAGAGAAAAATAAGGATCCTAATGATA
CAAATTATTATTACTAAGGTCCCTCTCCGGATGAAATCACTCTAGTTGATGCTGCGTATC
ATATGGGATTTACATTTGTTGGAAAAACTAGTAACAAACTTATGATGAATTTGACAGATA
CAGCTGGAAAAGAAGGCTAATAAGAATTTACTAAAATTAATGTTTTCGAATTTAGCAGTG
CGAGAAAACGTATGACTCTTTTATTAGAAGATAATGGAGTTTATAAAATGTACGTTAAGG
GTGCTGATAATGTGATTAAAGAGCGTCTCGATAAGGGTATCCATTAGCCATACTTAGATT
TTGCAGATAAAAAGTTAACAGAATTTTCTCTTGTTGGTTTACGTACTTTATTGATTGGTT
TTAAAATTCTCTCCAAAGATGAAGTTGATGCATTTGTCAATAAATATAACAATTTGGCTA
ACTCTGCAAATAGAAAAGAAGACTTAGGTAAAGTTTTTTTATTTTTCATATTTTCTAACT
TGATTGCTTGTTACTATGAATGAAAATTAACTTCTATCCACTAAATACAACAGAGAAATT
AGCTGATGAAGTAGAATAAGGGTTTTTCTTATTAGGAGCAACAGCTGTGGAAGATAAATT
GTAAGATGATGTCCCAGAAACTATTCATGATCTACTTCGTGCCAGTAATAAATTTTTATT
ATTTGAAAATTAATTGAGAGTTGAAAAAACAAAAAAATTCTACAAGTTTAAAAATTAATC
TATTAATTTATTTATATTTTATTGAATAAAAAAAGATATTAAAGTATGGATGCTTACTGG
TGATAAATTAGAGACAGCTGAAAATATTGCAAAAAGCTGTAAGCTTATTCTAGAAGATTT
TGAATTACTTGTTATGAGTGATAAAAATCCTAAAGTTATCCGTAAAGAAATGACAGAAAT
CCTATGGAAAAGATTTAAAAAACTGAAAGAAGATAAAGTTCGTAAATGCTTTTTAGTAGA
AGGTGATTGTCTAAAGGTCATATTTGAAAAAGGTAATGAAGATATCAAAAAAAAATTTGT
TTAAATTACCAAAGATTGCGAAAGTGTTGTATGCTGCAGAGTATCTCCAGTCTAAAAAGC
ATAAGTAGTTAGATCTATAAGAGAAGGACTTAACAAAATCACTTTAGCAATTGGTGATGG
AGCCAATGATGTTAACATGATTCAGGCAGCCCACATTGGTAAAATTATTAAAATATTTCA
TTTCTTACATCACCATAATATTATGTTCATTTAAAAAAAGGATGTGGTATATATGGTAAT
GAAGGTATGCGTGCAGTATAAAGCAGTGATTTCGCTTTTGGATAATTTAAATGCTTATGG
AGACTTCTTTTTGTACATGGAAGATGGTCATACATTAGAATCTCTGAAATGATTGTCTAT
TTCTTCTATAAAAACATGTAAAATCAATTAATAATATTAAAAATTTTGAACTTAATTATC
AATGTTTTATTTTTTTAATTTATTTAATGGATTAATTTTATTAACTTTAAGAAAATATAC
CATAAGCTAATATTTTTTTAATCATCAATACCATTGTGTAATATGGATTATTAATACAAT
CAAAAAGATAAAAATATTTTTATTATTATTTTGATTAATGCAAAAAAATGAATATTATTT
ATTGTTAGTGATTATTAATGAATTTATGAAATTGTTAATAATCAAAAATAGGATTTTTAC
TATTCCTTAGCTTTATTTTGCTTTCTTTAGTGGCTTTTCTGCACAAAGTATCTTTGATGA
TTACTATATATCTATGTATAATCTTATTTTTACTGCTCTACCCTTAATCATTAGAGCTAT
TTTTGATTAAGACGTAAACTACATGTACATATAGTACGATAGAAAACTTGTATAAACAGG
AGATGAAAATGAAAAGAGAAGATTATAAAAGCTTATAAATAAACGTAAAGACTATATTAG
AGATAGATTACCCAATCTCTATTATTTAGGTCAAAAGCAATAACTTTTTTCAACAAGAAT
ATTCCTTGAGTGGTTAATTTAAGGTATTGTACATGGTATATTCATATTCTTTGGTAGCTA
TTTCACAGTAGGTAATATAACATTAGCTTCTGATGGCTATACCTCAGATATGTGGTCATT
CTCATTAATTATATTCACATCTGTTGTATTTGTAAGTTTTATAACAAAATCAAATAATTA
GCTGTAATTTTTAATATTAACATTTAACAATTTAAAAGATTGCTGATCTTAAGTTAGCTA
TTTACACAAGGTACTGGACTTTAATAAATTATTTAGCCTTCTACATCACAAGTATAGGTC
TCTACATAGCTGCCTTCTTTATCACTGGTGTTTTGTATAACAGTTATGTTTATGAAACAC
CAAACTATTTGGTATAAACACCTCATTTCTATCTAGTTATTTTCTTCATAGTAGCAGGAA
TATTTGCATTTGATATGTTTGTCTATGCTTCTAAAGAATTATTCCATAATAAGACAAAAG
AAAAAGCCCTTAGAAGGCTAATGAAGGAGCAGCCTAAGAAGAGTAATGAAAATAAATGGA
TTTTCTAAGGCTCAGCAATCGAATTAGAGAGTAACTTGAACAGCTTTAAAGACAAATTTG
ATGAGGAAAGCTAAATCATGCTCAGTGCAATAAATTTAAATAAAAAAGATGAAAAATAAT
ACATCGAACCCTAAACTATCTTCATGAATGGTTAAGGAAACAAAGGTACTGAAGTTTAAT
TTTTGTCCAGCTCAAACTAAGATTGTAAAAAAAATAATAATACTCTGCCTAAGAGCACAA
TCAAAGAAAATGTCAGTGGTCATCATCTTTAAGTTTAAACTTCCCCTACTCCATTATATA
ATAATATTTAAAATACACCAAACTCAAATAGGAATGGTGATGAATTAATTTAATTTACAT
TCACTGACAGCAATGATGATGATTACGATATTTATTATAAATAATAATTCAATTTTAATA
CGGATTTATAACCCTAAACTATATAAAAAGTTGACGAGAGGAAAGATAACAATATAGGAT
TGCCACCTTCTAAATAATTCCATTCTAAGCAAGAAATTGAATTAGATGACTGAAAGTCTT
GCTGAGAGAATAGTTGGAAAGATAGGTAGATTAATTGAACGATTCTTACATACATTAGTA
GATACATACATAGAGAGAGAGAAAGAAAGAATGATAGATTGATATTACAAGATGACAATT
ATCTCTCGATTATGCAATGCTTATAGAGTATCATTATTATAATATTAGTTAACTTATAAA
TTAAATTTTTTTGGATAAAATTAGCTTCCAATTAACTACCTTCATTCCTAACAGCATTAC
TTATTAAATAAAACACATATATACTTACTAACTCTCCAAAAAAAAATATCTTAAATCTCT
TTCATCACATTATGATGAATTTTATAAATAAAAAAAGATTGTTTAAATTTTGTTCCTTTA
GCTGTTTATTTATTTAACGAATCGCTAAAAATTTTAATAAAAACAAATAACAAAAAACAA
TCTATCCAATATATATTATTATTATTATTTCTTTGTTTCTATTTTCCTTTCGTATTCCTA
ATAATTCAATACATTTTTT

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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

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, FLP3, 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).