TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00684740

Standard Name
FLP5 (FLiPpase)

Aliases
PreTt18187 | 104.m00119 | 3732.m00033

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

( TIGR00099 ) Cof-like hydrolase
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR00022 ) conserved hypothetical protein
( PF00702 ) haloacid dehalogenase-like hydrolase
( TIGR01482 ) Sucrose-phosphate phosphatase subfamily
( TIGR01525 ) heavy metal translocating 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,
( TIGR00173 ) 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase

Gene Expression Profile

Tetrahymena Functional Genomics Database: TTHERM_00684740

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Oxytricha Contig899.1.g81 9.99709313703352e-262 E1-E2 ATPase

Tetrahymena borealis EI9_17367.2 9.99709313703352e-262 phospholipid-translocating...

ParameciumDB GSPATP00029621001 9.99976367231303e-177 Paramecium tetraurelia GSPATP0
0029621001 protein

ToxoDB 42.m03340 1.00032797994599e-139 Toxoplasma gondii phospholipid
-transporting ATPase, putative

FlyBase FBgn0051729 9.99742866242852e-139

IPI(HUMAN) IPI:IPI00396022.2 9.99742866242852e-139 MP00000073082 Tax_Id=9606 ATP
ase, Class II, type 9B

WormBase F02C9.3 1.00023230219203e-132 WBGene00017174 tat-6 ATPase

SGD YIL048W 1.00038141799491e-122 NEO1 SGDID:S000001310, Chr IX
from 261436-264891, Verified O
RF, "Protein involved in the r
etrograde transport from the G
olgi complex to the ER and the
endosomal membrane traffic; p
utative aminophospholipid tran
slocase; member of the highly
conserved Drs2 family of P-typ
e ATPases"

DictyBase DDB0216656 9.99849682679538e-105 JC1V2_0_01110 P98195 Potential
phospholipid-transporting ATP
ase IIB (EC 3.6.3.1).

TAIR AT5G44240 6.0002878286772e-80 haloacid dehalogenase-like hyd
rolase family protein

CryptoDB EAK89054 4.00013929687404e-45 Cryptosporidium parvum (Iowa)
protein EAK89054

PlasmoDB PFL1125w 1.99919398481491e-44 Plasmodium falciparum PFL1125w

Source	Identifier	Score	Description
Oxytricha	Contig899.1.g81	9.99709313703352e-262	E1-E2 ATPase
Tetrahymena borealis	EI9_17367.2	9.99709313703352e-262	phospholipid-translocating...
ParameciumDB	GSPATP00029621001	9.99976367231303e-177	Paramecium tetraurelia GSPATP0 0029621001 protein
ToxoDB	42.m03340	1.00032797994599e-139	Toxoplasma gondii phospholipid -transporting ATPase, putative
FlyBase	FBgn0051729	9.99742866242852e-139
IPI(HUMAN)	IPI:IPI00396022.2	9.99742866242852e-139	MP00000073082 Tax_Id=9606 ATP ase, Class II, type 9B
WormBase	F02C9.3	1.00023230219203e-132	WBGene00017174 tat-6 ATPase
SGD	YIL048W	1.00038141799491e-122	NEO1 SGDID:S000001310, Chr IX from 261436-264891, Verified O RF, "Protein involved in the r etrograde transport from the G olgi complex to the ER and the endosomal membrane traffic; p utative aminophospholipid tran slocase; member of the highly conserved Drs2 family of P-typ e ATPases"
DictyBase	DDB0216656	9.99849682679538e-105	JC1V2_0_01110 P98195 Potential phospholipid-transporting ATP ase IIB (EC 3.6.3.1).
TAIR	AT5G44240	6.0002878286772e-80	haloacid dehalogenase-like hyd rolase family protein
CryptoDB	EAK89054	4.00013929687404e-45	Cryptosporidium parvum (Iowa) protein EAK89054
PlasmoDB	PFL1125w	1.99919398481491e-44	Plasmodium falciparum PFL1125w

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_00684740(coding)
ATGGCTTATAAAGGAATCAACGGAGAAAATTCATATAACAATAAGGAATCTCTAATCGAG
GAGTAGAAGGATGTAGTAGACTAACCCTCATTAATATTTCGAAATAATAGTTCTCGAGCA
GGAGTTCGCAATAATAAAGACAATAATAATATCTCTCTTGATATAGAGGGAAATAAATCT
AATTCAGGAAACTCTTTTAGCAGTTAAAGCAAATAAAATTAAAGATAAAAAGATAACAGC
CAAATAAAAATGCATAATTCCTCTTAATCTAGTAGCTTCCTTACAATACCAAGAGATGAT
ACGAGTTAAATAGTTGTAAATGAAAAATATAAATAAAATGTAATTAGAAATGAATAATGT
ATACACGTCAAAGAACCTTTACTCAAAGTGAGACCAAAATAAGAAGCAAACTATAAATTG
ACATTCTTCCAAAAATTAAAAAATTTAATTGGCAATCCAGATCCTTAGAAAGTTGAGAGA
TAAATATACATAAATGGAGATATATTTCCACAGAACTATTAAATAAATTAAATTAAAAAT
TCAAAATATTCTCTTTTAACATTCTTGCCACTAGTTTTATGGAATCACTTCTAAAATTTT
ATGAACCTTCTATACCTTATAATCACTATATCTTAGTTTATATACGACTTAAAGGTAGGA
TATGTCTATACTTATCTCTCGCCTGTCATTTTTATTGTTTTTCTAGTCATGGCTCGAGAA
GATAGTAAATACAACCAGACAGTTTTTAAAGTGCTCAATTATTAAAATTAATTTCAAGAA
GTTAAAATCCAAGAACTAAAAATCGGTTAGATAATTGAGCTGTAAGAAGGATAACCAGCT
CCAGCAGATTTACTAATTTTGTATTCTAGCAATATAAATGGTAATATTTTAATCAAGACT
GACCATTTTGATGGAAAAACAAAATAAATTTCAAGAAAGGCTATTAATTATTTTTAGTAA
GATATAAAAAAACGTTAAAATGATTATCTTCAACTAATTGATACAGATGGTTATGTTGAA
ATTCCACCACCATCAGCAAACTATAGCTAATTCGAAGCTACTTTCTATCTTAATGATGGA
TATAGTAAGTATAATGAAAAAATTACAATTGAAAATGCAATATGGCAAAATAGTACAGTA
TCAAATGGATTTATTTTAGGTAAATAGATTAATGTTAAGAAGTATTCAACTTAATAATTT
TTTTTATCACCAGGTTTGATTATTTACACAGGATCTGAAACAAAAACAAACATGAACATG
AAATCGCCAAGATTTAAAATAGGAAAATTTGACTTAGAAGCCAACTTTTTAATGAAAATA
TTTTTCTTAATAGTTATTTTTTATTCATGCTTGATTGTGATTATTAAAGGAAACATAATG
AGTTCTATAAGAATAGTAATTGATTTTATAAGATATTTAATTTTACTCTGTAATATTATT
CCGGTTTGCTTAAAAATAAATCTTGAAATGGTCAAAATCTATTTTACATTTAGAATCAAT
AATGACCCAGACATGGAAGGAGTTAACTTTAAGGATTAAAATATACCTGAAGAATTAGGG
CGAGTTTAATTCTTATTAGCAGATAAAACAGGAACTTTAACAAAGAATGAAATGATTTTT
AATAGAGTTGCTTTAGAATAAGCAACTTACACTCATGAAGATATGATTGTCATGCAGTCT
ATTATTATCAATTAGTGTTAAAGATACTTAGAGCCTCTGGCAAATTATCAGCTCACTTCT
TCAAATAAGCGTGCTAAAGAAGAAATATTTAGAGATTTAGTTAATGCAATGTGTATTTGT
AACACTGTATCACCTGGGATAGAGCTAATATCAAGATAGAGTAAATATTTAGGTGAATCA
TAAGAAGAAGTGGCATTTGTAGAATTTGCTGAGTAATTAGGTATTAAATTGGTGACAAGG
AATGAAGATACTATAGGGATAGAAAACTGTAGAGAAAATAAAGATTACTATTAAATACTA
GACTTATTTGAGTTCTCTTCAGAAAAAAACAGGATGGGAATCATAGTTAAGCATTTGAGT
AGCTAAAAAATTATATATTATGTAAAAGGATCAGCTAGAGAGATGTCAGAACTTGTAATT
GAGTCATCAAGAAAATTCATAAATGAAGAAAGCTCAAATATCGGAAGTGAAGGAATTAGA
GTCATGGTATTTGCATAAAAGTAAATAGACTAAAATGATTACAATAAATGGAAATAAGCA
TAACTAAATAAGAACATAAACGTTAACATGAGCTCTCCTTTAATGAGAAATAATATTTAA
AACGCTTCCCAAATGTTTGATTAATTTGAAAAAGATATGGAATTTTTAGGTATAGTTGGT
GTAGAAGATTAGCTTAGAGATGGTGTTTAATAAACTATAGAAACTCTAACATTAGCAGGT
ATTTCAGTTTGGATTGTATCTGGTGACAGTATGCAAACAACTATAAGTGCAGCTATTTAA
TCTGGAATCAAATAAAATGATTAACATTTTAACATAGTCAAGAAAGTTTACGACGATATA
GATATAAAAGCAAAGCTTATGTACATAAATAGTGACAGAAACTCTAAAAAATAAATATTA
GTTATGGATGGATAATCTCTAAGTGTAGCAATGGAAGTTGATAAAAAGTAGCTTGTTAAT
GTATGCACAAGGGCTGCATCTGTCCTTTTATGCGAAATTGCGGCTATAGGAGATGGAGCA
AATGATGTTGGAATGATATAAAGTGCTCACTTAGGAATTGGAATAAGTGATTCTGATAAT
AAATTGGCATAGCTGGCTGCAGATGTAACTATTCCTGAGTTTTATTACTTAAATCAGCTA
TTATTATGGCATGGAAGGTGTTACAAAAAAGCTGTCTCTTTGTGTTCTTTTGTATATTAA
AGAGGGTTAGTAATTGCTTTCATCGAATTGATTTTTGTCGGAGTATTTTACACTATTACA
ATATAAATATTTAATGCTTAATTACTACTCTGTTATGCTACCATATTTACTATTTTCCCA
GTGCTAACACTAGTTATGGACTCAGATATAGATATAAACACATGTATCTCATTTCCTCAA
CTTTACAAATCAGCTTTAAAAGGAAGACATTTAAATCTAAGAACATTCTTTTCATGGATC
TGGAAAGCTGTTTATCAAGCTACCGTTTTGATGATGCTAATATTCACTTTCTTCTAAAGA
TAATACTTTTTGAATATAGAAACATTTGTTCTTTTTGAATTAATATTCACAGAGTATTTT
ATGATTTTCTCTAAAATTTACTAGCCTTAGTTTGATATAGGAAACATATGGACTTTATAA
ACAATTGGAATACTTTTATTGATAATTTTAATAGCATTAATCCCTATGCTTGTAATTCAC
CTCTTAAGAATGAAAATAGAGCCCACAGATGATGAGAAGGTTTTAAGAAGTGCACTTAAT
AGAGCTAGCTCAGAGTAACTATCTCAATGA

>TTHERM_00684740(protein)
MAYKGINGENSYNNKESLIEEQKDVVDQPSLIFRNNSSRAGVRNNKDNNNISLDIEGNKS
NSGNSFSSQSKQNQRQKDNSQIKMHNSSQSSSFLTIPRDDTSQIVVNEKYKQNVIRNEQC
IHVKEPLLKVRPKQEANYKLTFFQKLKNLIGNPDPQKVERQIYINGDIFPQNYQINQIKN
SKYSLLTFLPLVLWNHFQNFMNLLYLIITISQFIYDLKVGYVYTYLSPVIFIVFLVMARE
DSKYNQTVFKVLNYQNQFQEVKIQELKIGQIIELQEGQPAPADLLILYSSNINGNILIKT
DHFDGKTKQISRKAINYFQQDIKKRQNDYLQLIDTDGYVEIPPPSANYSQFEATFYLNDG
YSKYNEKITIENAIWQNSTVSNGFILGKQINVKKYSTQQFFLSPGLIIYTGSETKTNMNM
KSPRFKIGKFDLEANFLMKIFFLIVIFYSCLIVIIKGNIMSSIRIVIDFIRYLILLCNII
PVCLKINLEMVKIYFTFRINNDPDMEGVNFKDQNIPEELGRVQFLLADKTGTLTKNEMIF
NRVALEQATYTHEDMIVMQSIIINQCQRYLEPLANYQLTSSNKRAKEEIFRDLVNAMCIC
NTVSPGIELISRQSKYLGESQEEVAFVEFAEQLGIKLVTRNEDTIGIENCRENKDYYQIL
DLFEFSSEKNRMGIIVKHLSSQKIIYYVKGSAREMSELVIESSRKFINEESSNIGSEGIR
VMVFAQKQIDQNDYNKWKQAQLNKNINVNMSSPLMRNNIQNASQMFDQFEKDMEFLGIVG
VEDQLRDGVQQTIETLTLAGISVWIVSGDSMQTTISAAIQSGIKQNDQHFNIVKKVYDDI
DIKAKLMYINSDRNSKKQILVMDGQSLSVAMEVDKKQLVNVCTRAASVLLCEIAAIGDGA
NDVGMIQSAHLGIGISDSDNKLAQLAADVTIPEFYYLNQLLLWHGRCYKKAVSLCSFVYQ
RGLVIAFIELIFVGVFYTITIQIFNAQLLLCYATIFTIFPVLTLVMDSDIDINTCISFPQ
LYKSALKGRHLNLRTFFSWIWKAVYQATVLMMLIFTFFQRQYFLNIETFVLFELIFTEYF
MIFSKIYQPQFDIGNIWTLQTIGILLLIILIALIPMLVIHLLRMKIEPTDDEKVLRSALN
RASSEQLSQ

>TTHERM_00684740(gene)
ATGGCTTATAAAGGAATCAACGGAGAAAATTCATATAACAATAAGGAATCTCTAATCGAG
GAGTAGAAGGATGTAGTAGACTAACCCTCATTAATATTTCGAAATAATAGTTCTCGAGCA
GGAGTTCGCAATAATAAAGACAATAATAATATCTCTCTTGATATAGAGGGAAATAAATCT
AATTCAGGAAACTCTTTTAGCAGTTAAAGCAAATAAAATTAAAGATAAAAAGATAACAGC
CAAATAAAAATGCATAATTCCTCTTAATCTAGTAGCTTCCTTACAATACCAAGAGATGAT
ACGAGTTAAATAGTTGTAAATGAAAAATATAAATAAAATGTAATTAGAAATGAATAATGT
ATACACGTCAAAGAACCTTTACTCAAAGTGAGACCAAAATAAGAAGCAAACTATAAATTG
ACATTCTTCCAAAAATTAAAAAATTTAATTGGCAATCCAGATCCTTAGAAAGTTGAGAGA
TAAATATACATAAATGGAGATATATTTCCACAGAACTATTAAATAAATTAAATTAAAAAT
TCAAAATATTCTCTTTTAACATTCTTGCCACTAGTTTTATGGAATCACTTCTAAAATTTT
ATGAACCTTCTATACCTTATAATCACTATATCTTAGTTTATATACGACTTAAAGGTAGGA
TATGTCTATACTTATCTCTCGCCTGTCATTTTTATTGTTTTTCTAGTCATGGCTCGAGAA
GGTAATTAATTATTCAATATTAGTTAGTATGTATCTCTCAATTTATCTAATAAGAGATAT
ATATATATTCTATTTTTAACTTTAGGTTAGCAATAAATATTTTCTCTTTTAAATCATAAA
AAACCCATCAAATTATGGTAAATAAAAGAAAGTAAGCTGAAGTGCAATCAACACCTCTAA
GCTTAACTTTTAATGTTTGGCTAACCATAGATTTAGAAAATAATTAATAAATCACAAGAT
TTTAAGATTGTGTTTTTTTAATTAAATTCTCATATTTTCAACAGAATTTTATTTAATTAT
CGCTAAAAACTGAGTTTAATTACATATATTTTTTAAAAAATAAAAGTATATGATAATATT
AAAATATTCGTGCAAGATAGTAAATACAACCAGACAGTTTTTAAAGTGCTCAATTATTAA
AATTAATTTCAAGAAGTTAAAATCCAAGAACTAAAAATCGGTTAGATAATTGAGCTGTAA
GAAGGATAACCAGCTCCAGCAGATTTACTAATTTTGTATTCTAGGTAAACTAATTTATAT
CTAGAAGAAATTTATATATTTTTTTATATAAAAATAGCAATATAAATGGTAATATTTTAA
TCAAGACTGACCATTTTGATGGAAAAACAAAATAAATTTCAAGAAAGGCTATTAATTATT
TTTAGTAAGATATAAAAAAACGTTAAAATGATTATCTTCAACTAATTGATACAGATGGTT
ATGTTGAAATTCCACCACCATCAGCAAACTATAGCTAATTCGAAGCTACTTTCTATCTTA
ATGATGGATATAGTAAGTATAATGAAAAAATTACAATTGAAAATGCAATATGGCAAAATA
GTACAGTATCAAATGGATTTATTTTAGGTAAATAGATTAATGTTAAGAAGTATTCAACTT
AATAATTTTTTTTATCACCAGGTTTGATTATTTACACAGGATCTGAAACAAAAACAAACA
TGAACATGAAATCGCCAAGATTTAAAATAGGAAAATTTGACTTAGAAGCCAACTTTTTAA
TGAAAATATTTTTCTTAATAGTTATTTTTTATTCATGCTTGATTGTGATTATTAAAGGAA
ACATAATGAGTTCTATAAGAATAGTAATTGATTTTATAAGGTAATTAAATAATTGACTTA
CAACTGAGATATATAATTCTAATTCATTTATTTATTTTATAGATATTTAATTTTACTCTG
TAATATTATTCCGGTTTGCTTAAAAATAAATCTTGAAATGGTCAAAATCTATTTTACATT
TAGAATCAATAATGACCCAGACATGGAAGGAGTTAACTTTAAGGATTAAGTAAAAAAAAT
AACTTATATTAAATTCAACATTATTGTAATTAATTAATTAATTAATTAATTTTATTTTAC
ATAGAATATACCTGAAGAATTAGGGCGAGTTTAATTCTTATTAGCAGATAAAACAGGAAC
TTTAACAAAGAATGAAATGATTTTTAATAGAGTTGCTTTAGAATAAGCAACTTACACTCA
TGAAGATATGATTGTCATGCAGTCTATTATTATCAATTAGTGTTAAAGATACTTAGAGCC
TCTGGCAAATTATCAGCTCACTTCTTCAAATGTAATAAAACTTAAATCGTTCTTATTTAT
TGATTTTTAATTTTAAATAGACCTAATCAAATGATTATAAATTTTAGAAGCGTGCTAAAG
AAGAAATATTTAGAGATTTAGTTAATGCAATGTGTATTTGTAACACTGTATCACCTGGGA
TAGAGCTAATATCAAGATAGAGTAAATATTTAGGTGAATCATAAGAAGAAGGTAAATAAA
TAAATATCTTTAGATTGATTATTTATTTGATTTATACTTAAATATCTTAGTGGCATTTGT
AGAATTTGCTGAGTAATTAGGTATTAAATTGGTGACAAGGAATGAAGATACTATAGGGAT
AGAAAACTGTAGAGAAAATAAAGATTACTATTAAATACTAGACTTATTTGAGTTCTCTTC
AGAAAAAAACAGGATGGGAATCATAGTTAAGCATTTGAGTAGCTAAAAAATTATATATTA
TGTAAAAGGATCAGCTAGAGAGATGTCAGAACTTGTAATTGAGTCATCAAGAAAATTCAT
AAATGAAGAAAGCTCAAATATCGGAAGTGAAGGAATTAGAGTCATGGTATTTGCATAAAA
GTAAATAGACTAAAATGATTACAATAAATGGAAATAAGCATAACTAAATAAGAACATAAA
CGTTAACATGAGCTCTCCTTTAATGAGAAATAATATTTAAAACGCTTCCCAAATGTTTGA
TTAATTTGAAAAAGATATGGAATTTTTAGGTATAGTTGGTGTAGAAGATTAGCTTAGAGA
TGGTGTTTAATAAACTATAGAAACTCTAACATTAGCAGGTATTTCAGTTTGGATTGTATC
TGGTATGTTTAATTTTGTTTATTTTAATTAAAATGAAATTATCTTTTTCTTAAAAAGGTG
ACAGTATGCAAACAACTATAAGTGCAGCTATTTAATCTGGAATCAAATAAAATGATTAAC
ATTTTAACATAGTCAAGAAAGTTTACGACGATATAGATATAAAAGCAAAGCTTATGTACA
TAAATAGTGACAGAAACTCTAAAAAATAAATATTAGTTATGGATGGATAATCTCTAAGTG
TAGCAATGGAAGTTGATAAAAAGTAGCTTGTTAATGTATGCACAAGGGCTGCATCTGTCC
TTTTATGCGAGTAAATAAAAAAATAAATAAATGATCAATTTAAAATTTCAAAAAAAAATT
AAAACATTCCTAAAATAAATGGATAATATTAAAAAATAACATCAATCAAATATGCATTTC
AATATTAAAAAAAAATTTATCCTTGATGAAGATGAAGAACAAGAATAAATAATTTATTAT
TTTTTAAATTAAAAACTTGTTAAGAATAAATTTTTTAATAATATTTTTCTAAAAATAACT
TTAAAACATACAGATGCACTCCTCAATAGAAGCACTAGATAATAGATCTAATTAAATAGT
ATACTGATTATAGAATTGCGGCTATAGGAGATGGAGCAAATGATGTTGGAATGATATAAA
GTGCTCACTTAGGAATTGGTATAATTTTTTTACTTTTTTTTTTTAAAAATGAAATTCTAT
TTTTTACAAATTAGGAATAAGTGATTCTGATAATAAATTGGCATAGCTGGCTGCAGATGT
AACTATTCCTGAGTTTTATTACTTAAATCAGCTATTATTATGGCATGGAAGGTGTTACAA
AAAAGCTGTCTCTTTGTGTTCTTTTGTATATTAAAGAGGGTTAGTAATTGCTTTCATCGA
ATTGATTTTTGTCGGAGTATTTTACACTATTACAATATAAATATTTAATGCTTAATTACT
ACTCTGTTATGCTACCATATTTACTATTTTCCCAGTGCTAACACTAGTTATGGACTCAGA
TATAGATGTAATCACAATTAAACTAAGTATTTGTTAAATTAAATTATAAATATTAATAAA
ATATAGATAAACACATGTATCTCATTTCCTCAACTTTACAAATCAGCTTTAAAAGGAAGA
CATTTAAATCTAAGAACATTCTTTTCATGGATCTGGAAAGCTGTTTATCAAGTAAAAAAT
TAATTTTTAATTTTGTAAAAATACTTTATTAATATTTTTGAATTGAATTAAAATTAGGCT
ACCGTTTTGATGATGCTAATATTCACTTTCTTCTAAAGATAATACTTTTTGAATATAGAA
ACATTTGTTCTTTTTGAATTAATATTCACAGAGTATTTTATGATTTTCTCTAAAATTTAC
TAGGTAAATTAATCAAAATTAAATTAAATTTAACTATGTAAAAAATTGTATTAATACAAA
GATCAAAAAGATAAAATGGATCCAGGCATTATTTATAGGTATTTCGCTGATAATCTATCT
TTTAATACTAATTTTCTTATAGCCTTAGTTTGATATAGGAAACATATGGACTTTATAAAC
AATTGGAATACTTTTATTGATAATTTTAATAGCATTAATCCCTATGCTTGTAATTCACCT
CTTAAGAATGAAAATAGAGCCCACAGATGATGAGAAGGTTTTAAGAAGTGCACTTAATAG
AGCTAGCTCAGAGTAACTATCTCAATGA

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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).