TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_01123860

Standard Name
FLP2 (FLiPpase)

Aliases
PreTt03040 | 244.m00026 | 3834.m00388

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

No Data fetched for Gene Ontology Annotations

Domains

( TIGR00264 ) alpha-NAC homolog
( PF04560 ) RNA polymerase Rpb2, domain 7
( PF03179 ) Vacuolar (H+)-ATPase G subunit
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR00338 ) phosphoserine phosphatase SerB
( PF00702 ) haloacid dehalogenase-like hydrolase
( 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
( TIGR01657 ) P-type ATPase of unknown pump
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,

Gene Expression Profile

Tetrahymena Functional Genomics Database: TTHERM_01123860

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_15860.1 9.99709313703352e-262 phospholipid-translocating...

ParameciumDB GSPATP00017331001 9.99709313703352e-262 Paramecium tetraurelia GSPATP0
0017331001 protein

DictyBase DDB0190219 9.99710571898043e-168 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 9.9978508813226e-163 haloacid dehalogenase-like hyd
rolase family protein

IPI(HUMAN) IPI:IPI00465166.1 9.99689462303885e-156 1|TREMBL:Q6ZSP3;Q6ZU25|ENSEMB
L:ENSP00000281620|H- INV:HIT00
0019508;HIT000025544;HIT000026
371;HIT000045904;H IT000047136
;HIT000054620|VEGA:OTTHUMP0000
0018151 Tax_Id=9606 CDNA FLJ45
330 fis, clone BRHIP3007195, h
ighly similar to Potential pho
spholipid-transporting ATPase
IB

FlyBase FBgn0033837 1.00034910302318e-151

SGD YAL026C 9.99763976964696e-151 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 9.99987554273627e-136 WBGene00013034 tat-1

CryptoDB EAK89054 1.00004097413682e-118 Cryptosporidium parvum (Iowa)
protein EAK89054

ToxoDB 50.m03192 1.00045598423258e-117 Toxoplasma gondii ATPase 2, pu
tative

PlasmoDB PFL0950c 1.00009439685371e-101 Plasmodium falciparum PFL0950c

Source	Identifier	Score	Description
Oxytricha	Contig10125.0.g35	9.99709313703352e-262	haloacid dehalogenase-like hyd rolase
Tetrahymena borealis	EI9_15860.1	9.99709313703352e-262	phospholipid-translocating...
ParameciumDB	GSPATP00017331001	9.99709313703352e-262	Paramecium tetraurelia GSPATP0 0017331001 protein
DictyBase	DDB0190219	9.99710571898043e-168	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	9.9978508813226e-163	haloacid dehalogenase-like hyd rolase family protein
IPI(HUMAN)	IPI:IPI00465166.1	9.99689462303885e-156	1\|TREMBL:Q6ZSP3;Q6ZU25\|ENSEMB L:ENSP00000281620\|H- INV:HIT00 0019508;HIT000025544;HIT000026 371;HIT000045904;H IT000047136 ;HIT000054620\|VEGA:OTTHUMP0000 0018151 Tax_Id=9606 CDNA FLJ45 330 fis, clone BRHIP3007195, h ighly similar to Potential pho spholipid-transporting ATPase IB
FlyBase	FBgn0033837	1.00034910302318e-151
SGD	YAL026C	9.99763976964696e-151	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	9.99987554273627e-136	WBGene00013034 tat-1
CryptoDB	EAK89054	1.00004097413682e-118	Cryptosporidium parvum (Iowa) protein EAK89054
ToxoDB	50.m03192	1.00045598423258e-117	Toxoplasma gondii ATPase 2, pu tative
PlasmoDB	PFL0950c	1.00009439685371e-101	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_01123860(coding)
ATGTCAAACGACGACACGGGCGTGCAAAATTTAGATGATTAGGATTCGAAGCGCTTTGGA
TATGACTACTAATATGCTAATGTCTCAAAGGACAATAGGTCTTGCCAATTTTTTTACTAT
AATTAAAACAAGTTAAAGTATTAAAGTGAACCTAGAAAAATTACCACTGGTAGACCCGAT
GAGTGTCTACCTAACAATAATATAAAGACTAACAAATACACTTGCTTAAATTTCTTTCCT
AAAAACCTCTATTTATAGTTTAGCAAATTAGCAAATATTTATTTCTTGTTTATTGGTATT
ATGTAGTCTATTCCTTAAATTTCTATTTCGAATGCTATACCTGTCATTTTTCTTCCCTTA
GCTGTCATAGTTGCAATCACTGGAGGAAAAGATTTATATGAGGATTATAAAAGAATGAAA
AGTGACAGAACAGAGAACGACTAAAAAATTTAAATTTTTGATAATAAATCAAACAGTTTT
AAAGAATTTACTTGGAAAGAAATACGACCTGGGCATATTGTCAAAGTAATGAGGGACCAT
TATTTTCCTGCTGACGTAGTTTTATTAATGACTTCAGATCCATAAGGGATTTGCTATATC
GAGACAAAAAACCTAGATGGTGAAACAAATTTAGAAAGTAAACAAGCAGATCCTCGTATA
AGAGATAAATGTATTAAAGATGAATCTAAATTAGGCTAAGAATGTGTGATTATACATTAT
GAAAGTCCTAACAAAAGAATCTATCGTTTTGATGGAAGTTTTGACACTAAAATGGGTGAA
AATTATCAATTGAGTTACACAAATGTAGTTCTTCGTGGATGTTGCCTTAAAAACACTGAA
TATGCTATTGGAATGGCTGTTTACACAGGACATTAATCTAAGATTATGTATAATCTATAT
TAAGGAAGTGCTAAGAAAAGTACTCTAGAGCAACTTATAGGAAAGCTAATCATTTAAATT
TTTTTGTTATAGTTAGTTGTTTGTATTATCTGCGCATCTATTTATATTGGATTTTATTCT
TTGGTGGGCTACGAGCTAAGTTACTTAGTTATTAAGGCTTCATCTGATGTCTACGAAGAA
GCTAATGCAATCAACTTTTTTGTAAGACTTGGTAACTGGATACTCATTTTCACTCTTATA
GTGACATTAGAAACTGTTAAATTTATTCAAGGAATGTTTATGACAGCAGATGAAAAAATG
GGAAACCCTACTGTATAAGCTTCTAATTTAAATGAATAATTAGGATAAATAAATTACATT
TTTTCTGATAAAACTGGTACTTTAACTAAGAATGTTATGTAATTTAAGCAAATAGCTATT
GGGGACACTCTTTATGGAGGAAACGAATAAAAATCTGAACAGCCTCTTACTGATGAAGAA
ATTATGTTCAATTATCCTAAAGTAGAGAACGTTGATTTTAGAGATAGATCATTTTTAGAT
AAAGTTAAGGATGAGGAAGATCCTGAGCATGTGAAAATTCGTCGAGTATTGTTTATGCTA
GCCTCTTGCCATACTGTAACTTCGACAATAGATCATTAGTAAAACACTATCTATACAGCA
TCTTCCCCTGATGAATATGCAATTATTAACTTCACTAAATTTGCTGGTGTTGAATTTTTA
AAAGTAGAGAAAGTAGATGGAAATACAAATATATTGATTAGGTTTAAGCAAAAAATATTT
TCTTTGCAATTACTGCATGTATTTGAATTTGATTCGAATAGAAAGCGCTAGTCTGTTATT
GTCAAAGACTAAGATGATAAATATTTCTTATTTTGTAAAGGAGCAGATTAAGTGATTACT
ATGAATCTCAGTGAAAATACAGACCCGATTATGCTCAGAAATTTGAATGAAAAATTAAAA
TACTTTGGTAGTCAAGGATTGCGTACCCTCATGCTTGCTGAAAGACAAATCGATAAGCAA
GCATATGAAATATGGAGTGAAAAGTATTTAAAGGCACGTTCATAAGCAGAAAACAAAGAC
TTAGAAATCGAAAAGCTTTAGGATGAAATGGAAACTGATTTAGAAATTTTAGGAGCTACT
GCTATAGAAGATAAATTGCAAGATGATGTTTCAGATACTATTAAAGCATTGAAAGATTCT
GGAATAAAAATTTGGGTATTAACTGGTGATAAAATAGAAACAGCAATAAACATTGCCTAT
TCTTGCAAATTACTTGATGATACTTTAGAAAAAGCAATTATTGATGTCGAGGAAGAAAAT
GAAGTTAACAAATTCCTCTAGGATACTCTTTAAAACCTATTAGATGCTGAAGCAACATAT
ATTTAATAATAAAAATAAAATAAAAAAGCAATAGATGAAGATGCTTTGAAAAACCATGCA
CTTATTATATCAGGTTTTGCTCTAAATCATATTTCGAAGACAGAAATAAAAACACTTATT
ATGCAAATTGTTAAATATTGCAAGTGTATTATCTGCTGCAGAGTATCCCCAAAATAAAAA
TAAGAAGTTGTTACTACAGTTCGTGAAATGGAAAAGAATGCAACAACACTCGCTATTGGT
GATGGAGCTAATGATGTAAATATGATTACAGCAGCTCATGTAGGAATTGGTATAAAAGGT
GTAGAAGGTTAGTAAGCTGCAAGAGCTAGTGATTATTCTATTAATTAATTTAAGGAATTA
AGAAGGTTGCTATTCTATCATGGTAGAGAATGTTATCGTAGAAATTCAAATTTAGTACTA
TATAACTTTTACAAGAATGTCTTGCTTGTGCTTCCTCAATTTTGGTATGGTTGGACTAAT
TGGTTTAGTGGCTAAACACTATATAACTCCTTCATCTATTAACTTTTTAACATCTTCTTT
GCATCACTTCCTATTATGGTTTATGCAATATGGGATGAAGAATATTCCGATGTAGTGCTC
GTGAAAAATGAGAAAAAGAATTACTACGAATAAGGAATAAAAAATAAGCTTTTCAACCAA
AGAGAATTCTGGAAATGGAATCTGATAGCTTCAGTACAAGCTGGATTGATTGTCATATGT
TCACTTTTCCCATTAGAGCTGAATTTTGTTACATAAAATGGATAGACTTAGTGGTTTTGG
GCTACTGGTACTATGGTTTTTGGTTTAGTTGTAGTTATTTCAAACTTAAAAATCCTAATT
ATGTCAACAGATCACTCTTTGGGTTCTTTAATGATCTTAGCTTTATCTATGCTTCTTTAT
TTGATTACTTGGGTAATCGTGAGCAATTTGAATTCCACAGAAATTTATAGAACTCTTGGA
TAGTAAAATAATTTTAAACATCAAAATAACATATAAATAAATAAATTAATTAATTAAATT
AGAATGTTCTAAACTCCTAATTTCCACCTTGGTAATATACTATGCATAATTGTTACATCA
TTCTTTGATTGGGCTTTTTGTTTGTACAAAAAATGGACTTATGAGTTTGATGAAAAGTAG
CAAGTAACTAAGATTGATAAGACACCAAAATAAGTTAAAACAAATAGTACCTTCCCAATT
AAAATGCGTACTTTTAATACAGATGTACCTAAAAAATAAAATGGTTTTGTCAAAGATCAA
ACTAAAGCAAATTATGCAACATAAGAAATGAAAAGAACTTATTATCAAGATGTCAATACT
GGTTATGCTTTTAATTAGATAGATAGACACTAATATGTCTAAAAATAGAAAGAGTAGCAA
ATGTTTTGA

>TTHERM_01123860(protein)
MSNDDTGVQNLDDQDSKRFGYDYQYANVSKDNRSCQFFYYNQNKLKYQSEPRKITTGRPD
ECLPNNNIKTNKYTCLNFFPKNLYLQFSKLANIYFLFIGIMQSIPQISISNAIPVIFLPL
AVIVAITGGKDLYEDYKRMKSDRTENDQKIQIFDNKSNSFKEFTWKEIRPGHIVKVMRDH
YFPADVVLLMTSDPQGICYIETKNLDGETNLESKQADPRIRDKCIKDESKLGQECVIIHY
ESPNKRIYRFDGSFDTKMGENYQLSYTNVVLRGCCLKNTEYAIGMAVYTGHQSKIMYNLY
QGSAKKSTLEQLIGKLIIQIFLLQLVVCIICASIYIGFYSLVGYELSYLVIKASSDVYEE
ANAINFFVRLGNWILIFTLIVTLETVKFIQGMFMTADEKMGNPTVQASNLNEQLGQINYI
FSDKTGTLTKNVMQFKQIAIGDTLYGGNEQKSEQPLTDEEIMFNYPKVENVDFRDRSFLD
KVKDEEDPEHVKIRRVLFMLASCHTVTSTIDHQQNTIYTASSPDEYAIINFTKFAGVEFL
KVEKVDGNTNILIRFKQKIFSLQLLHVFEFDSNRKRQSVIVKDQDDKYFLFCKGADQVIT
MNLSENTDPIMLRNLNEKLKYFGSQGLRTLMLAERQIDKQAYEIWSEKYLKARSQAENKD
LEIEKLQDEMETDLEILGATAIEDKLQDDVSDTIKALKDSGIKIWVLTGDKIETAINIAY
SCKLLDDTLEKAIIDVEEENEVNKFLQDTLQNLLDAEATYIQQQKQNKKAIDEDALKNHA
LIISGFALNHISKTEIKTLIMQIVKYCKCIICCRVSPKQKQEVVTTVREMEKNATTLAIG
DGANDVNMITAAHVGIGIKGVEGQQAARASDYSINQFKELRRLLFYHGRECYRRNSNLVL
YNFYKNVLLVLPQFWYGWTNWFSGQTLYNSFIYQLFNIFFASLPIMVYAIWDEEYSDVVL
VKNEKKNYYEQGIKNKLFNQREFWKWNLIASVQAGLIVICSLFPLELNFVTQNGQTQWFW
ATGTMVFGLVVVISNLKILIMSTDHSLGSLMILALSMLLYLITWVIVSNLNSTEIYRTLG
QQNNFKHQNNIQINKLINQIRMFQTPNFHLGNILCIIVTSFFDWAFCLYKKWTYEFDEKQ
QVTKIDKTPKQVKTNSTFPIKMRTFNTDVPKKQNGFVKDQTKANYATQEMKRTYYQDVNT
GYAFNQIDRHQYVQKQKEQQMF

>TTHERM_01123860(gene)
ATGTCAAACGACGACACGGGCGTGCAAAATTTAGATGATTAGGATTCGAAGCGCTTTGGA
TATGGTATAGTTATTCATTTAAGCAATTTAAGAATCGTATGAAATCAGAAATTATTCCTA
ATATTATTTCTCCTTTACTTATTGACATTTGTTTCAATCTGCAAATTAACTTAAATATAT
ACTTTACTCAAAGATTTTCTTTTTAAGGACACATTTGTTCATAAGGGAATATGTTATGTT
TTAATTTGATTTTTGGAAGGTTATGATTAAAGATAAATATTTCTTTTGCATGTAGGGGAA
AACATATTTTAGCATAAAATAAATTCTGATTACGTTTTAATTATCATATTTCAAATTATA
TTAATATATAAATAGACTACTAATATGCTAATGTCTCAAAGGACAATAGGTCTTGCCAAT
TTTTTTACTATAATTAAAACAAGTTAAAGTATTAAAGTGAACCTAGAAAAATTACCACTG
GTAGACCCGATGAGTGTCTACCTAACAATAATATAAAGACTAACAAATACACTTGCTTAA
ATTTCTTTCCTAAAAACCTCTATTTATAGTTTAGCAAATTAGCAAATATTTATTTCTTGG
TAAGCGATAAATTGTTTTAAAAATAATTTTTATAATTGAGATTGAGCTTAAGAATTTTAT
TTTGGTGAATTTCAAAACATTTTATTTGTAATGTTTAAAATAACTACAGATTAAAGACAA
TAAACAAACATATTTAAGCATATGGAGGGAGCAGATTTACTTTCCCTTTAATTTAATGTG
AAAAAAAAAAAAATTATTAAACTTAATTACTGCTCCAAAAATTAAAAAAAAAAATATATA
GACATTCACTTGATAATGTAATAATATACGAAAGGCTAATTTAATTGAAATATAAGAAAT
ACAATAAAATAGAATACGACATAAATAAACAATAAAAAATAGCTAGCAATAAATCAAACA
ATCAATAATTTATTCATTCAAGCTGTTATTAAGTTATAAGCAAATTAACTAACTAACTAA
ATAACTATTTATTCATTAATATAAAAAAATTAGTCTAATTTTTAAATTAATATAAAAAAA
TTAGTCTAATTTTTAAATACAAACCATTTAAAAAATAACGAAATCAATAAAAATTTTTAT
TATTTCAAAAAATAAACATTTTTAATTGAATGTGTTTCATGAAATTACTTTAAAATTTAC
AGATATGCTGAATCTTAAAAATATGAAACTAAAATAAATGGAAAAGCCAATCTTGAAAAT
CCCGATAGTTTTTTAATAAAAAAAATATTTTACTTTTTACAAATATTTTTATTTTTTAAA
AACTCATTTTTTTGAAATTCTAAATATTTTATAAAACAAATATTGTAGTTTATTGGTATT
ATGTAGTCTATTCCTTAAATTTCTATTTCGAATGCTATACCTGTCATTTTTCTTCCCTTA
GCTGTCATAGTTGCAATCACTGGAGGAAAAGATTTATATGAGGATTATAAAAGAATGAAA
AGTGACAGAACAGAGAACGACTAAAAAATTTAAATTTTTGATAATAAATCAAACAGTTTT
AAAGAATTTACTTGGAAAGAAATACGACCTGGGCATATTGTCAAAGTAACTATTCAAATA
ACTAAAAACTTTGAGTTTAACTTTTCTTAATTTTACTTTTTTTAAATTATTTAGGTAATG
AGGGACCATTATTTTCCTGCTGACGTAGTTTTATTAATGACTTCAGATCCATAAGGTAAC
ACAAATACACACTAATCATTTCTTTAAATTTAGCATTTTAGTAGTAGCTAATTCTTTTTT
AAAATAATTTATCATTGTCATCCATCCATCAGACATTTGATAGAAAATAAGGAAAGTTTA
TTTAGAGATTAATTTTGAAAATAGAAAAAAAAAAAAATCAAAATCTTTGCATTAAAACTT
ATATTAATTTATTGACAGTAGAACTTTAAATTTTTTGATATTGTTATTTAGTTAATCACA
TTCAATCCATTCAATACGAATTTACAATAAAATAAGAAAACAGAATGCTTTTAAAAATTT
ACTTTAAAAAATAATAAAGCAAAAAATGAAAAATTAATCAAATTTAATTATTTATTTATT
TGTTTGTTTTCTTATATAAAAGGGATTTGCTATATCGAGACAAAAAACCTAGATGGTGAA
ACAAATTTAGAAAGTAAACAAGCAGATCCTCGTATAAGAGATAAATGTATTAAAGATGAA
TCTAAATTAGGCTAAGAATGTGTGATTATACATTATGAAAGTCCTAACAAAAGAATCTAT
CGTTTTGATGGAAGTTTTGACACTAAAATGGGTGAAAATTATCAATTGAGTTACACAAAT
GTAGTTCTTCGTGGATGTTGCCTTAAAAACACTGAATATGCTATTGGAATGGCTGTTTAC
ACAGGGTAAAAAATATTAAAATTTAATTCTCAATAACTAACTATAAAGTTGTTCACAATA
TGTTTTTAAAAATTCTTTTTATTTATAAAATAGACATTAATCTAAGATTATGTATAATCT
ATATTAAGGAAGTGCTAAGAAAAGTACTCTAGAGCAACTTATAGGAAAGCTAATCATTTA
AATTTTTTTGTTATAGTTAGTTGTTTGTATTATCTGCGCATCTATTTATATTGGATTTTA
TTCTTTGGTGGGCTACGAGCTAAGTTACTTAGTTATTAAGGCTTCATCTGATGTCTACGA
AGAAGCTAATGCAATCAACTTTTTTGTAAGACTTGGTAACTGGATACTCATTTTCACGTA
AAAATAAATAAATAAATCATAATTTTATTTAATTTAATTCATTTCACTAAATGCATTCTT
TAAAAAATATAAAGGAATTTTGTCCCAATCAGTCTTATAGTGACATTAGAAACTGTTAAA
TTTATTCAAGGAATGTTTATGACAGCAGATGAAAAAATGGGAAACCCTACTGTATAAGCT
TCTAATTTAAATGAATAATTAGGATAAATAAATTACATTTTTTCTGATAAAACTGGTACT
TTAACTAAGAATGTTATGTAATTTAAGCAAATAGCTATTGGGGACACTCTTTATGGAGGA
AACGAATAAAAATCTGAACAGCCTCTTACTGATGAAGAAATTATGTTCAATTATCCTAAA
GTAGAGAACGTTGATTTTAGAGATAGATCATTTTTAGATAAAGTTAAGGATGAGGAAGAT
CCTGAGCATGTGAAAATTCGGTAATCTATTAAATTAATTTCTTAATTAAAAACAGATTAA
ACTTATGGAATTTATTTTAAGTTAAGTACTGAGTTAAAAATAAATAGATAGATGGATAGA
TTAATTAGTTTTTCACTTCTTTTTGAGAGCAATCATATTTATAAATTAGTTTATCCATTT
TTTTTTGTTTATTTAAAACGCAATTCAAAATCAATTTCTTAGTATAATTATATTTATTAA
AAAATAATAGTCGAGTATTGTTTATGCTAGCCTCTTGCCATACTGTAACTTCGACAATAG
ATCATTAGTAAAACACTATCTATACAGCATCTTCCCCTGATGAATATGCAATTATTAACT
TCACTAAATTTGCTGGTGTTGAATTTTTAAAAGTAGAGAAAGTAGATGGAAATACAAATA
TATTGATTAGGTTTAAGCAAAAAATATTTTCTTTGCAATTACTGCATGTATTTGAATTTG
ATTCGAATAGAAAGCGCTAGTCTGTTATTGTCAAAGACTAAGATGATAAATATTTCTTAT
TTTGTAAAGGAGCAGATTAAGTGATTACTATGAATCTCAGTGAAAATACAGACCCGATTA
TGCTCAGAAATTTGAATGAAAAATTAAAATACTTTGGTAGTCAAGGATTGCGTACCCTCA
TGCTTGCTGAAAGACAAATCGATAAGCAAGCATATGAAATATGGAGTGAAAAGTATTTAA
AGGCACGTTCATAAGCAGAAAACAAAGACTTAGAAATCGAAAAGCTTTAGGATGAAATGG
AAACTGATTTAGAAATTTTAGGAGCTACTGCTATAGAAGATAAATTGCAAGATGATGTTT
CAGATACTATTAAAGCATTGAAAGATTCTGGAATAAAAATTTGGGTATTAACTGGTGATA
AAATAGAAACAGCAATAAACATTGCCTATTCTTGCAAATTACTTGATGATACTTTAGAAA
AAGCAATTATTGATGTCGAGGAAGAAAATGAAGTTAACAAATTCCTCTAGGATACTCTTT
AAAACCTATTAGATGCTGAAGCAACATATATTTAATAATAAAAATAAAATAAAAAAGCAA
TAGATGAAGATGCTTTGAAAAACCATGCACTTATTATATCAGGTTTTGCTCTAAATCATA
TTTCGAAGACAGAAATAAAAACACTTGTAATTTATTTATTCATTAAAACAAAAAAATTTA
AATTAATTTTATTTTTTTGTAAAAAGATTATGCAAATTGTTAAATATTGCAAGTGTATTA
TCTGCTGCAGAGTATCCCCAAAATAAAAATAAGAAGTTGTTACTACAGTTCGTGAAATGG
TAAATTTAACTAATTGCATCCTTTACTAATTTAATTCTTTTAGTTATGAAAATATTTATC
AAAAAAATTAGTTATTGATAGATTTTTAATTCTATTAGAAAGTTATATTTTAATAATTTG
ATAGTTAAAAATCAAAAAGCTAATATAATTTGTCTTAAATATAATAATAGGAAAAGAATG
CAACAACACTCGCTATTGGTGATGGAGCTAATGATGTAAATATGATTACAGCAGCTCATG
TAGGAATTGGTATAAAAGGTGTAGAAGGTTAGTAAGCTGCAAGAGCTAGTGATTATTCTA
TTAATTAATTTAAGGAATTAAGAAGGTTGCTATTCTATCATGGTAGAGAATGTTATCGTA
GAAATTCAAATTTAGTACTATATAACTTTTACAAGAATGTCTTGCTTGTGCTTCCTCAAT
TTTGGTAATTTAATTTAAATACTTTTAATAATCATATTTTTATCGTTTTTAAATACAAAA
TTAATTAGGTATGGTTGGACTAATTGGTTTAGTGGCTAAACACTATATAACTCCTTCATC
TATTAACTTTTTAACATCTTCTTTGCATCACTTCCTATTATGGTTTATGCAATATGGGAT
GAAGAATATTCCGATGTAGTGCTCGTGAAAAATGAGAAAAAGAATTACTACGAATAAGGA
ATAAAAAGTAATTTTTTTATTTATTTACTTATATTTTAAATAATAAAATTAAAATATTTA
AACTCTAGATAAGCTTTTCAACCAAAGAGAATTCTGGAAATGGAATCTGATAGCTTCAGT
ACAAGCTGGATTGATTGTCATATGTTCACTTTTCCCATTAGAGCTGAATTTTGTTACATA
AAATGGATAGACTTAGTGGTTTTGGGCTACTGGTACTATGGTTTTTGGTTTAGTTGTAGT
TATTTCAAACTTAAAAATCCTAATTATGTCAACAGATCACTCTTTGGGTTCTTTAATGAT
CTTAGCTTTATCTATGCTTCTTTATTTGATTACTTGGGTAATCGTGAGCAATTTGAATTC
CACAGAAATTTATAGAACTCTTGGATAGTAAAATAATTTTAAACATCAAAATAACATATA
AATAAATAAATTAATTAATTAAATTAGAATGTTCTAAACTCCTAATTTCCACCTTGGTAA
TATACTATGCATAATTGTTACATCATTCTTTGATTGGGCTTTTTGTTTGTACAAAAGTAA
GCTTAGTTCATTTTTTAACTTTGTGAAATAAATTATTTTTTTAAACAGAATGGACTTATG
AGTTTGATGAAAAGTAGCAAGTAACTAAGATTGATAAGACACCAAAATAAGTTAAAACAA
ATAGTACCTTCCCAATTAAAATGCGTACTTTTAATACAGATGTACCTAAAAAATAAAATG
GTTTTGTCAAAGATCAAACTAAAGCAAATTATGCAACATAAGAAATGAAAAGAACTTATT
ATCAAGATGTCAATACTGGTTATGCTTTTAATTAGATAGATAGACACTAATATGTCTAAA
AATAGAAAGAGTAGCAAATGTTTTGA

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

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).