TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00977720

Standard Name
FLP15 (FLiPpase)

Aliases
PreTt21759 | 182.m00069

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Molecular Function
4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase activity (IEA) | GO:0046429
Biological Process
terpenoid biosynthetic process (IEA) | GO:0016114
oxidation-reduction process (IEA) | GO:0055114

Domains

( PF00122 ) E1-E2 ATPase
( TIGR00099 ) Cof-like hydrolase
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR00338 ) phosphoserine phosphatase SerB
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF08282 ) haloacid dehalogenase-like hydrolase
( PF07198 ) Protein of unknown function (DUF1410)
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( 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
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,

Gene Expression Profile

Tetrahymena Functional Genomics Database: TTHERM_00977720

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Oxytricha Contig10125.0.g35 9.99709313703352e-262 haloacid dehalogenase-like hyd
rolase

Tetrahymena borealis EI9_13903.1 9.99709313703352e-262 phospholipid-translocating...

ParameciumDB GSPATP00003854001 1.00014656367952e-178 Paramecium tetraurelia GSPATP0
0003854001 protein

IPI(HUMAN) IPI:IPI00221038.1 9.99742866242852e-139 2|TREMBL:Q32M36;Q4G1C1;Q4W5J7
;Q4W5P2|ENSEMBL:ENSP00000264 4
49|H-INV:HIT000057322 Tax_Id=9
606 Splice Isoform Short of Pr
obable phospholipid-transporti
ng ATPase IA

FlyBase FBgn0033837 9.99742866242852e-139

WormBase Y49E10.11b 9.99647244452848e-132 WBGene00013034 tat-1

DictyBase DDB0190219 9.99647244452848e-132 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).

SGD YAL026C 1.00047711001267e-129 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"

TAIR AT1G59820 9.99891909080098e-129 haloacid dehalogenase-like hyd
rolase family protein

CryptoDB EAK89054 1.00009439685371e-101 Cryptosporidium parvum (Iowa)
protein EAK89054

ToxoDB 42.m03340 6.99928107019952e-80 Toxoplasma gondii phospholipid
-transporting ATPase, putative

PlasmoDB PFL0950c 8.00003527959048e-64 Plasmodium falciparum PFL0950c

Source	Identifier	Score	Description
Oxytricha	Contig10125.0.g35	9.99709313703352e-262	haloacid dehalogenase-like hyd rolase
Tetrahymena borealis	EI9_13903.1	9.99709313703352e-262	phospholipid-translocating...
ParameciumDB	GSPATP00003854001	1.00014656367952e-178	Paramecium tetraurelia GSPATP0 0003854001 protein
IPI(HUMAN)	IPI:IPI00221038.1	9.99742866242852e-139	2\|TREMBL:Q32M36;Q4G1C1;Q4W5J7 ;Q4W5P2\|ENSEMBL:ENSP00000264 4 49\|H-INV:HIT000057322 Tax_Id=9 606 Splice Isoform Short of Pr obable phospholipid-transporti ng ATPase IA
FlyBase	FBgn0033837	9.99742866242852e-139
WormBase	Y49E10.11b	9.99647244452848e-132	WBGene00013034 tat-1
DictyBase	DDB0190219	9.99647244452848e-132	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).
SGD	YAL026C	1.00047711001267e-129	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"
TAIR	AT1G59820	9.99891909080098e-129	haloacid dehalogenase-like hyd rolase family protein
CryptoDB	EAK89054	1.00009439685371e-101	Cryptosporidium parvum (Iowa) protein EAK89054
ToxoDB	42.m03340	6.99928107019952e-80	Toxoplasma gondii phospholipid -transporting ATPase, putative
PlasmoDB	PFL0950c	8.00003527959048e-64	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_00977720(coding)
ATGAGCCAAAAAAACAAGGATCAAAACAAGAGCTAACTTTAGCTCAAAATAGATTAAATT
TCTTAGCAATACTAAAACGACGAATGGGAAACTTATTTCTACTTTTTTAAAAGGCATAAG
AATTATTTAACAGGCCCAAAAAGTCAGCAGTTAAGGAACCTAACGCCAGGTGTTAGTGAT
TTAAAAGTAGCAAGTAATAGGATTGAAACATCACAGTACAATTGGCTTACATTTTTGCCT
AAAAATCTATTCATTTAATTTAGTAGGCTAGCAAATATATACTTCGTGCTTATAGGTGTT
TGCTAGACGGTGAATGTAATATCTACAACAAATGGAAAGCCTGCGATATATCTCACTCTA
TCCATAATCACTGTTGTTTGCATGATTAAAGACATTATTGAAGATCGAAAAAAACATATA
GCTGACCGCAAAGAAAATGAATCGAAGGTCAAAAGACTCAACACTAATACTAATCAATTT
GAGGAGATCTATTGGTAAAACCTCTATATTGGTGATATTGTTAGAGTAGAAGAAAGTGAG
TAATTTCCAGCTGATATTTTAATACTTCAAACGACATTGCCAAATGGAGATTGCTACGTT
GAAACAAAAAATCTTGATGGTGAAACCAATTTAAAAAGGAAAATAGGTTTTGCGCCTTAG
ATTCTTTAGTCTGTAGATATTAATAACAATTTCGAATAGCTACTCAATTATTAGCTTAAG
TACGAATAGCCAAATTAGTAGATGTACAACTTTAATGGTATAATGACTAACAATTAATCT
GGAAGTTAATATCCAATCAACATCAATAATATATGTCTTAGAGGTTCTTGTTTAAAAGCA
ACAGATTATATCTATGGAATGATTATATACACTGGTCATCAATCTAAAATTCTTCTAAAC
TCTTAAAGATCGAGATATAAATTCAGTGGGATAGAATTAAATTTGAATAAAATGATCATT
TGGATTTTTATTCTTCTTATCTTAATTTGTTTGTTTTCTGCTTCATATTATCAAATTTGG
GTTAAGGATTATGAAAATTAAGCTGTATATCTCTAAATTGATAACAAATCATTTGGTGGA
AACAATGTTGAAACATTTTTTGTTTACATTCCTTTATGGATTTTGCTGCTTGCCCATTTT
GTTCCAATTTCTTTAATGGTTACTTTAGAAATAGTCAAGTTCGGATAAGGATTGATTCTG
TAGTTAGATAGAAATTACAAGAATATTAATGACGATGAATTCGTAGACGTTAAAAGTTGT
AATTTATGTGAAGAATTAGGCAGAGTCAAGTACGTATTTAGTGACAAAACAGGTACATTA
ACTATCAACTAAATGAACTTCAAAGCTTTATGCTTAAATAAAAAAATATATGAAAAATAA
AATGAAACTGTTCATTCAGAAACTATTTTAAAGAGTGAAGAACTTGACGTAGCTCTTGCC
CAGAGCGTAAAAACTCAGAGCTTGGTACATATAAATATATATATATATTTATTTTATTTA
TTTTTTATAAAATATATTTAATAAAAGGAATTGGAAGGAATGAATTGTTTGAATCTATGT
CACACTTTGATTATAGAAAAGAAGAATAACTCTCTTATCTACAATGGTACTTCGCCTGAT
GAAGAGAGTATTTTAAAGTTCTGCTACAATTAAGGGTATTATTTCTAGGAAGAGGATATC
AATAAAGTTATGTACATTTAATCTAACTAATTGAAAGAAACTTTAAAATTTTAAAGAATC
GCTGTGCTTGAGTTTGATTTTGAAAGAAAAAGAATGTCAGTAATTGTTTAAGACATGTAA
ACATAAGAATACAAATTGTATTGCAAAGGGGCTGATTTAAATATTTTTGAAACTTGTGCT
CCTAATTAAGATGATGTCATTGAAATTACTAAAAATAACTTATCGTATTTCTCTTTAAAA
GGACTAAGAACACTAGCTTTTGGATATAAAATCCTGACTAAATAGCAGGTGGATTATTAT
CTAAATAGGATATAGCAAATTAAGTTAGAAATTTCAGAATAGGATTAAAAAGAATAGCAA
CTTAATATCCAAATGGAAAAAGATTTAATTTTGTTAGGCGGAACAGGCATTAATGACAGA
CTTCAAGATGATGTTGAATACACACTAAAAAATTTAAAAACTGCAGGTATAAAAGTGTGG
ATGCTAACAGGAGATAAAGTAGAAACAGCTCAAAATATCGCTTAATAATGCAATTTAACC
ACTCCAACAACAGACTTGGCAATACTCAGTTTTGATAAGTTTGATGAAACTGTTGAGACT
TTAATTGATGAATACTACAATAAAATAGGAAAATCAGATTATAGTGTCTTAATTACAGGT
TATTCTTTATACGCAATTGATTCACATTTTAATCCTATGAATATCATAAGATTATCTCAA
TCTGGTACACTAACAAATAATCGAACAAAGGCTCTGAATTCTAGATAAAAGTTACTTAAG
ATATTAGTTAATTCACAAACTGTCATTGCTTGTAAAGTTACTCCTAGACAAAAGGCAGAA
CTAGTTAGCTTTGTAAAAAAACTCTGCCCCTAAGATACTACTTTAGCAATCGGAGATGGT
GCTAATGATGTATCAATGATTACAACAGCTCACATTGGTATCGGAATAAGAGGAAAAGAA
GGAAGACAAGCTGCTAAGATATCCGATTTTTCGATTGGTGAATTCAGACATTTAAATAGG
TTAATTTTATACCAAGGGTAAGAGTGCTATAGAAAAAATACATAGCTTGTTTTTTACAAT
TTTTATAAAAATTAAGTTACTTTCTTGGTAACTTTTTGGTACAACTTTTTCTCAGCTTAA
AGTGGTATTTATATCTATGATCAATGGGTTAAGGAGTTATATAATTTATTATTTACTTCT
TTGCCAATCATTCTCTATTGCTGGTTCGATGAGATGTATCCTGCCCACGAATACTGCACT
GTATTCTAATGTCTACCAAATAGATTAGAAAAAATGCCACTATTATATAAAAGAAATTTA
GAAAAACCTTAATTTACTACCTTTAACTTTTGGAAAGAATTTTTCAAAGGGTCCATTCAA
TCAATATTGATATTATTTATTGGCATGTTGTGTTTAAACGATGTCTCGGATAAACACCAA
CACTAAGCAAGCCATTTAGATATGGGCACACTTGTATTTACTTTAGCAGTAATAGCTCCA
AACTTAAGAGTGTTTTAATTACATAAAACACACTATCCCTTTACTTTATTTTTTTTATCT
GCTAGCGTTTTAATTTATTTTGTTGCTCTTCTCATAGCAAGCAAAATTTTAGCTCTCGAC
AGTTTCGGAATGGCTCATAGTGTCCTTGGAGTAGGAGGAACATATATAGGTATACTTTTG
ATGGTTGTAACCTTCTACATTATTCAAAGGGCATTTGATGACTGGTCCTACTTTACTGAA
AAAATGAAATCTTAAGATTTTGAACAAATTTTTGAAAAAGAAGAATTAGAAAAATAAACA
GTAATTTCTTCAGATTAAAAAAGCGTACGCTAGTAATCTTCTCAATAAAATATGATTGAA
ATAATGTGCTTTAATAAAAACAGCAACATCAACAATAATAATATGGATTATGTAGACGAA
TCAAACACATTTAAAAAGTGA

>TTHERM_00977720(protein)
MSQKNKDQNKSQLQLKIDQISQQYQNDEWETYFYFFKRHKNYLTGPKSQQLRNLTPGVSD
LKVASNRIETSQYNWLTFLPKNLFIQFSRLANIYFVLIGVCQTVNVISTTNGKPAIYLTL
SIITVVCMIKDIIEDRKKHIADRKENESKVKRLNTNTNQFEEIYWQNLYIGDIVRVEESE
QFPADILILQTTLPNGDCYVETKNLDGETNLKRKIGFAPQILQSVDINNNFEQLLNYQLK
YEQPNQQMYNFNGIMTNNQSGSQYPININNICLRGSCLKATDYIYGMIIYTGHQSKILLN
SQRSRYKFSGIELNLNKMIIWIFILLILICLFSASYYQIWVKDYENQAVYLQIDNKSFGG
NNVETFFVYIPLWILLLAHFVPISLMVTLEIVKFGQGLILQLDRNYKNINDDEFVDVKSC
NLCEELGRVKYVFSDKTGTLTINQMNFKALCLNKKIYEKQNETVHSETILKSEELDVALA
QSVKTQSLVHINIYIYLFYLFFIKYIQQKELEGMNCLNLCHTLIIEKKNNSLIYNGTSPD
EESILKFCYNQGYYFQEEDINKVMYIQSNQLKETLKFQRIAVLEFDFERKRMSVIVQDMQ
TQEYKLYCKGADLNIFETCAPNQDDVIEITKNNLSYFSLKGLRTLAFGYKILTKQQVDYY
LNRIQQIKLEISEQDQKEQQLNIQMEKDLILLGGTGINDRLQDDVEYTLKNLKTAGIKVW
MLTGDKVETAQNIAQQCNLTTPTTDLAILSFDKFDETVETLIDEYYNKIGKSDYSVLITG
YSLYAIDSHFNPMNIIRLSQSGTLTNNRTKALNSRQKLLKILVNSQTVIACKVTPRQKAE
LVSFVKKLCPQDTTLAIGDGANDVSMITTAHIGIGIRGKEGRQAAKISDFSIGEFRHLNR
LILYQGQECYRKNTQLVFYNFYKNQVTFLVTFWYNFFSAQSGIYIYDQWVKELYNLLFTS
LPIILYCWFDEMYPAHEYCTVFQCLPNRLEKMPLLYKRNLEKPQFTTFNFWKEFFKGSIQ
SILILFIGMLCLNDVSDKHQHQASHLDMGTLVFTLAVIAPNLRVFQLHKTHYPFTLFFLS
ASVLIYFVALLIASKILALDSFGMAHSVLGVGGTYIGILLMVVTFYIIQRAFDDWSYFTE
KMKSQDFEQIFEKEELEKQTVISSDQKSVRQQSSQQNMIEIMCFNKNSNINNNNMDYVDE
SNTFKK

>TTHERM_00977720(gene)
ATGAGCCAAAAAAACAAGGATCAAAACAAGAGCTAACTTTAGCTCAAAATAGATTAAATT
TCTTAGCAATACTAAAACGACGAATGGGAAACTTATTTCTACTTTTTTAAAAGGCATAAG
AATTATTTAACAGGCCCAAAAAGTCAGCAGTTAAGGAACCTAACGCCAGGTGTTAGTGAT
TTAAAAGTAGCAAGTAATAGGATTGAAACATCACAGTACAATTGGCTTACATTTTTGCCT
AAAAATCTATTCATTTAATTTAGTAGGCTAGCAAATATATACTTCGTGCTTATAGGTGTT
TGCTAGACGGTGAATGTAATATCTACAACAAATGGAAAGCCTGCGATATATCTCACTCTA
TCCATAATCACTGTTGTTTGCATGATTAAAGACATTATTGAAGATCGAAAAAAACATATA
GCTGACCGCAAAGAAAATGAATCGAAGGTCAAAAGACTCAACACTAATACTAATCAATTT
GAGGAGATCTATTGGTAAAACCTCTATATTGGTGATATTGTTAGAGTAGAAGAAAGTGAG
TAATTTCCAGCTGATATTTTAATACTTCAAACGACATTGCCAAATGTAAAAACATTTAAA
AAATTACATTTAATTTGTTTAAGTTAACTAGAAAACATTTTGATGCTTCTGATTTATTTA
TGTATGTATTGCCAGTTTAAATGATTAATTTTTTTCTACTTTGCGAAATTTAGCGCTTTT
AAAAAGATTTTTATTGATAAAATATTCGATTGATTGATTTATTTATTGAAATACTTATTA
CCAAATTAATTTAAGTTAAAATAATTCTATAATACTAATTTTTTAATTACATTTTATAGG
GAGATTGCTACGTTGAAACAAAAAATCTTGATGGTGAAACCAATTTAAAAAGGAAAATAG
GTTTTGCGCCTTAGATTCTTTAGTCTGTAGATATTAATAACAATTTCGAATAGCTACTCA
ATTATTAGCTTAAGTACGAATAGCCAAATTAGTAGATGTACAACTTTAATGGTATAATGA
CTAACAATTAATCTGGAAGTTAATATCCAATCAACATCAATAATATATGTCTTAGAGGTT
CTTGTTTAAAAGCAACAGATTATATCTATGGAATGATTATATACACTGGTCATCAATCTA
AAATTCTTCTAAACTCTTAAAGATCGAGGTAGATTATTGATTTATTGCATTTAAAACATT
TTGAATGATTTAAAAACATATTTTTATCATCGAATTCATCATTTTTATTTAAATCAATTA
GATATAAATTCAGTGGGATAGAATTAAATTTGAATAAAATGATCATTTGGATTTTTATTC
TTCTTATCTTAATTTGTTTGTTTTCTGCTTCATATTATCAAATTTGGGTTAAGGATTATG
AAAATTAAGCTGTATATCTCTAAATTGATAACAAATCATTTGGTGGAAACAATGTTGAAA
CATTTTTTGTTTACATTCCTTTATGGATTTTGCTGCTTGCCCATTTTGTTCCAATTTCTT
TAATGGTTACTTTAGAAATAGTCAAGTTCGGATAAGGATTGATTCTGTAGTTAGATAGAA
ATTACAAGAATATTAATGACGATGAATTCGTAGACGTTAAAAGTTGTAATTTATGTGAAG
AATTAGGCAGAGTCAAGTACGTATTTAGTGACAAAACAGGTACATTAACTATCAACTAAA
TGAACTTCAAAGCTTTATGCTTAAATAAAAAAATATATGAAAAATAAAATGAAACTGTTC
ATTCAGAAACTATTTTAAAGAGTGAAGAACTTGACGTAGCTCTTGCCCAGAGCGTAAAAA
CTCAGAGCTTGGTACATATAAATATATATATATATTTATTTTATTTATTTTTTATAAAAT
ATATTTAATAAAAGGAATTGGAAGGAATGAATTGTTTGAATCTATGTCACACTTTGATTA
TAGAAAAGAAGAATAACTCTCTTATCTACAATGGTACTTCGCCTGATGAAGAGAGTATTT
TAAAGTTCTGCTACAATTAAGGGTATTATTTCTAGGAAGAGGATATCAATAAAGTTATGT
ACATTTAATCTAACTAATTGAAAGAAACTTTAAAATTTTAAAGAATCGCTGTGCTTGAGT
TTGATTTTGAAAGAAAAAGAATGTCAGTAATTGTTTAAGACATGTAAACATAAGAATACA
AATTGTATTGCAAAGGGGCTGATTTAAATATTTTTGAAACTTGTGCTCCTAATTAAGATG
ATGTCATTGAAATTACTAAAAATAACTTATCGTATTTCTCTTTAAAAGGACTAAGAACAC
TAGCTTTTGGATATAAAATCCTGACTAAATAGCAGGTGGATTATTATCTAAATAGGTATT
TTATTTACATTTATTTTTTAAACATTTTTCAAAATATAAATAAATATTTTATTGACTTTT
AGGATATAGCAAATTAAGTTAGAAATTTCAGAATAGGATTAAAAAGAATAGCAACTTAAT
ATCCAAATGGAAAAAGATTTAATTTTGTTAGGCGGAACAGGCATTAATGACAGACTTCAA
GATGATGTTGAATACACACTAAAAAATTTAAAAACTGCAGGTATAAAAGTGTGGATGCTA
ACAGGAGATAAAGTAGAAACAGCTCAAAATATCGCTTAATAATGCAATTTAACCACTCCA
ACAACAGACTTGGCAATACTCAGTTTTGATAAGTTTGATGAAACTGTTGAGACTTTAATT
GATGAATACTACAATAAAATAGGAAAATCAGATTATAGTGTCTTAATTACAGGTTATTCT
TTATACGCAATTGATTCACATTTTAATCCTATGAATATCATAAGATTATCTCAATCTGGT
ACACTAACAAATAATCGAACAAAGGCTCTGAATTCTAGATAAAAGTTACTTAAGATATTA
GTTAATTCACAAACTGTCATTGCTTGTAAAGTTACTCCTAGACAAAAGGCAGAACTAGTT
AGCTTTGTAAAAAAACTCTGCCCCTAAGATACTACTTTAGCAATCGGAGATGGTGCTAAT
GATGTATCAATGATTACAACAGCTCACATTGGTATCGGAATAAGAGGAAAAGAAGTAATT
CATAAATATTTCTTTCTATTTAAAAATATAATTTGTTTTAAAATGAAACTTGAAGGGAAG
ACAAGCTGCTAAGATATCCGATTTTTCGATTGGTGAATTCAGACATTTAAATAGGTTAAT
TTTATACCAAGGGTAAGAGTGCTATAGAAAAAATACATAGCTTGTTTTTTACAATTTTTA
TAAAAATTAAGTTACTTTCTTGGTAACTTTTTGGTACAACTTTTTCTCAGCTTAAAGTGG
TATTTATATCTATGATCAATGGGTTAAGGAGTTATATAATTTATTATTTACTTCTTTGCC
AATCATTCTCTATTGCTGGTTCGATGAGATGTATCCTGCCCACGAATACTGCACTGTATT
CTAATGTCTACCAAATAGATTAGAAAAAATGCCACTATTATATAAAAGAAATTTAGAAAA
ACCTTAATTTACTACCTTTAACTTTTGGAAAGAATTTTTCAAAGGGTCCATTCAATCAAT
ATTGATATTATTTATTGGGTAAAATATTTATTTATTTTTTTTTGTTTGTTTTTTTTACTA
ATTTAAATTAAATTGCAAATAAATTTAAATAAAAATATTAAAGCATGTTGTGTTTAAACG
ATGTCTCGGATAAACACCAACACTAAGCAAGCCATTTAGATATGGGCACACTTGTATTTA
CTTTAGCAGTAATAGCTCCAAACTTAAGAGTGTTTTAATTACATAAAACACACTATCCCT
TTACTTTATTTTTTTTATCTGCTAGCGTTTTAATTTATTTTGTTGCTCTTCTCATAGCAA
GCAAAATTTTAGCTCTCGACAGTTTCGGAATGGCTCATAGTGTCCTTGGAGTAGGAGGAA
CATATATAGGTATACTTTTGATGGTTGTAACCTTCTACATTATTCAAAGGGCATTTGATG
ACTGGTCCTACTTTACTGAAAAAATGAAATCTTAAGATTTTGAACAAATTTTTGAAAAAG
AAGAATTAGAAAAATAAACAGTAATTTCTTCAGATTAAAAAAGCGTACGCTAGTAATCTT
CTCAATAAAATATGATTGAAATAATGTGCTTTAATAAAAACAGCAACATCAACAATAATA
ATATGGATTATGTAGACGAAGTAAATAATAATTTATGATATTATTTTATATAAATATATA
TATATATTTTATTTATAGTCAAACACATTTAAAAAGTGA

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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

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).