TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00994350

Standard Name
FLP8 (FLiPpase)

Aliases
PreTt20031 | 187.m00068

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

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

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

Domains

( PF04178 ) Got1-like family
( TIGR00099 ) Cof-like hydrolase
( TIGR00338 ) phosphoserine phosphatase SerB
( PF00702 ) haloacid dehalogenase-like hydrolase
( 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:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10.6%

TetraMine Data

TTHERM_00994350

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_7779 0

Tetrahymena borealis EI9_05563.1 9.997093137033517e-262 phospholipid-translocating P-t
ype ATPase, flippase (1538 aa)

DictyBase DDB_G0269380 9.997093137033517e-262 DDB_G0269380 on chromosome: 1
position 2645714 to 2650717

Oxytricha Contig10486.0.g72 9.997093137033517e-262 E1-E2 ATPase

WormBase WBGene00019166 8.001555777626516e-172 locus:tat-2 status:Partially
_confirmed UniProt:U4PBI0
protein_id:CDH93218.1

SGD YAL026C 1.9994249217050915e-157 DRS2 Aminophospholipid translo
case (flippase) that maintains
membrane lipid asymmetry in p
ost-Golgi secretory vesicles;
contributes to clathrin-coated
vesicle formation and endocyt
osis; mutations in human homol
og ATP8B1 result in liver dise
ase

Source	Identifier	Score	Description
Stentor Coeruleus	SteCoe_7779	0
Tetrahymena borealis	EI9_05563.1	9.997093137033517e-262	phospholipid-translocating P-t ype ATPase, flippase (1538 aa)
DictyBase	DDB_G0269380	9.997093137033517e-262	DDB_G0269380 on chromosome: 1 position 2645714 to 2650717
Oxytricha	Contig10486.0.g72	9.997093137033517e-262	E1-E2 ATPase
WormBase	WBGene00019166	8.001555777626516e-172	locus:tat-2 status:Partially _confirmed UniProt:U4PBI0 protein_id:CDH93218.1
SGD	YAL026C	1.9994249217050915e-157	DRS2 Aminophospholipid translo case (flippase) that maintains membrane lipid asymmetry in p ost-Golgi secretory vesicles; contributes to clathrin-coated vesicle formation and endocyt osis; mutations in human homol og ATP8B1 result in liver dise ase

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_00994350(coding)
ATGTGTTTAAAGCGTAGACCTCTTGTATTTAATCATGATAGGATTATTGATGTCCAAATG
GATGATCGAGTCAAGAATAAGATTAGTCCGTTTCCCTCTAATTTTATTAAGACATCGCAT
TATACATTGATTGATTTCCTACCAATGTCTTTGCTCCTTTAATTTAAGCGCTATGCAAAT
ATTTATTTTTTGATTATAGCAATTTTATAATCAATTCCTACAATATCTCCCTTAACTCCT
CTCTCAGCCATAGCTCCTCTAGTTTTTGTGCTGGGTGTTTCGATGTTGCGTGAGGGTGTT
GAAGATTATAACAGACACAAAAGTGATACTAAAATTAATTCAGAGGAAACAACAAGAATT
TTTATTTAAGATAGTCTAGTTGAGGAAAAAATAACTTGGGCACAAGTAGAAGTAGGCGAT
ATTATCAAGGTTTATAAGGATGAACCATTCCCAGCAGATTTAATAGCAGTAGATAGTAGT
TATCCCAACGGTGTTTGCTACATAGAAACAGGAGCACTTGATGGAGAAAAAAATATGAAA
CCAAAATCGTGCCTCAGAGAAACTTATCAAATTTTTAAGGAATGCAAGTTAGAGTAAATA
CGCAGCTTAAAGTTATAAGCTGAAAAACCGAACCCTGAATTATATAAATTCAATGGGAGT
ATTGAAGGTCTATTTGAGGATGAGGTAAAATTAGAAAAAAAGGCAACAACTTAAAATAGC
AAAGTAGGAGCTCCTGTTCCTGGTCTTAAATAATAAGATAGCATGTAGAAGATTATTGAA
GAAGTTGAAAAAATAGTGGATGAGGAAAATGAGAAAAAGCAAAAATAAACAAATCCTCAA
CCATATTTGAATAGCGAGCAAGATAGTGCTCATAATACTTAACAAAATAAAAGCCAAGTA
AATTAGAAAGTAAACATTTCTACTCAAAATGGTAATCAAACCAAGAGACATCAATCATAT
TCACCTTAAAAAGTGCTTGCATCTGCTAAACAATTGCTGTTAAGAGGTGCCTTTTTGAGA
AATACAGATTATATCCTTGGAATTGTTGCTTATACAGGTTTGGACTCTAAAATTATGAGA
AACTCTGAGCCACCCAAATAAAAAACATCTGATATGGAAAAAACAATGAATACATATATT
ATAGGAATTCTCATTCTTTAGATGATTTGCTCATTTTTTACTGCTGTTCTGAATTATATT
TGGAATTCTAATAACTTAGATGGACATTGGTACTTAAAAGATGATTCTTAAATTAATCAA
TATGGAGCACTGGCTATTTTATATTTTTTTACTTATTTTCTACTATATAACACTATGATA
CCTATTTCTTTGATTGTATCTCTTGAAATGGTTAAGGTGGCATAAGGTTATTTTATTACT
AATGATAAATAAATGTACTGTGAAGAGAAAGACATTTGGCCAAAAGTTATGACAACAACA
ATCAATGAAGAACTAGGATAGGTAGAATATGTATTCTCAGATAAAACAGGAACTCTTACT
TGCAATGTAATGGAGTTTAATAAAAGTGTAATTGGTCATAATTTATATGGAGACTCAGGA
GAAAAGGACCCTAAATTACAGAAAAAAAAGTAGGATCATGAAGGCGATAAACCAAAAAAG
CATAAATTAACTTCTTTTAACTTTTACGATCGCCATTTGAATGAATTATTAGCTGAAGCT
AAACACGATTCGATAGTTAATTTACAGCTAAAGAGTGAAGATGGAAATAGTTCTTATCTA
ATTAAAACTTAGCGTGACTTAGCATGCGAATATTGGAAGCTATTAGGAACTGCTCACGAA
TGCATTATTTAAAGAGACAAGGAAACTAATGAAATAGACTATCAAGGCCCATCTCCAGAT
GAAATAACTCTTGTTGATGCAGCCAGACATATGGGATTTACCTTTGAAGGAGCCTCAAGT
GATACCATAGATATAAATGTGAGAGGTATTAAGTAAAAGGTCACATTATTGAATTCATTT
GAATTCAATAGTGATAGAAAAAGAATGTCTGTTATAATAAGAGATGGAAACGTTATTAAG
CTTTATATTAAAGGAGCAGATAGTATCATAAAATCTAGGTTGCATACAGACAAATAATAG
CCTTTCTTAGATAAAACTAATGACTATCTCACACAATTCAGTCTTATAGGGCTTCGTACC
CTTATGATGGCTATGAGGGTTTTGAGTGAAGAGGAGTATTAAGATTTCAAAAGAAAAATG
AATGCTTTGGCTGATTCAGAAAATCGTGAAAGGGAAATGGATAAATTAGCTGATTCTATA
GAGAGAAATCTTATTTTAATTGGTGCTACTGCAGTTGAGGATAAACTTTAAGATAAAGTT
CCAGAAACAATTTATGATCTTATTAAGGCCAATATTAAGGTTTGGATGCTTACTGGTGAT
AAGCTAGAAACAGCAGAAAATATTGCAAAGAGCTGCAAATTAATACAAAATGACATGAAG
ATTATTCAAATATCTGAAAAAGATGAATAATCTCTCAGAAATAATTTACTTGGAACTGCT
ATGGAAAAGTTTATTCAATTAAAAAATGATTAAGCTAAAAAATCTATGCTTGTAGAAGGA
GATTCACTGACATTAATTTTTGGAGATGTTCATTTATAAAAAGCGTTTTTGAAGATCTCT
AAAGATTGCGAATCTGTTGTTTGTTGTAGAGTTACTCCAAAATAAAAAGCACTTGTAGTT
AGATTGATAAAAGACAACTTAAAAAAAATTACACTTGCTATTGGTGATGGTGCTAATGAT
GTCAATATGATACAAGAAGCTCATATAGGATGTGGTATTTTTGGTAATGAAGGTATGCAA
GCTGCATAAAGCTCAGATTTTGCATTTGGTGAATTTAAATGTCTTTGGCGTCTAGTTTTA
GTTCATGGCAGATGGTCATACATTAGAATAGCTGAAATGATTATTTACTTCTTTTACAAA
AATATGTTATTTACAATTCCATAGCTGTACTTTTCATTTTATAATGCATTTAGCGGACAA
ACTATTTTTGATGCTTGGTTTATTTCTTTGTATAATTTGATTTTTACAGCTTTACCTTTG
ATTTCTAGAGCCGTATTTGACTAGGATGTTAATTATAAAGTTACTGTCGACTAAGTAAAA
ATGGGAGAAGAAGACAATCGTCTTTAGTCAATTTTAGAAAGAAAGGAGTAGTATTTAGAA
AAGAAATTCCCTACTTTCTACTATACAAGTTAAGATAAAACAATATTTACAGATTCAAAC
TTCTTATCTTGGGTAATTTAAGGGTTGATTCATGGTCTAATCATTTTCTATTGTACTTAT
TTGACTTTTGATTCCATTACTTTTTCAAAGGATGGTCTCTCTACAGATCTTTGGAACTTC
TCTTTAATTATATTCACATCGATCATTTTAGTGGCTGATATGAAAATTGCTATGTTTACA
AGATACTGGACTTGGATTACATACTTTACTTTTATTTTTAGTAGTTTAATACTGTACTTT
GCTTTTTTATTGGGCAGTTAATCAATCGAAACAAGTGAAGTCTGGTTGACACCTTTTTAG
ATGTTTTAAAACTCACAATTTTACTTTATATTATTTGAGACTTGTGGAATAATTTTGGCT
TTTGACATGACTGTATTTGTTTCTAGACAATTTTTAACAAAGCAGAGAATATTAGGTTAC
ATGAGATTTTTAAAATAGCCAAATGTAAATCTTGAAAAAAAGCCCACATGGGCAGAAGAC
ATGAGTCTTTTTAATTCGTTTTACAATATTTAAGACGCAAAAAATCAAAATAATGGATAA
GTTTATCTCGCAAATAGTGGTGAATCTTAACCAGAAAATGGAGACTAGATGAAAAAAATA
GACAATAAAGATCTTGTAAATCAAAACTCTTAATCGCCTATGATTAATAAGTACTAACCT
TAACACAGCAATGACAACAGATCCAAAAATAACTAAACACCTTTAAATGGTAATCCAATT
TAAATTTAAATGCAATAGTATAACATAGGCGGAGGAGTAGGTTTTGGAGACTCAAGTGCT
GATAGACTGAATTAAGAATAGCAATAGATTCAAATTTAGAATAATTAAAGACCGGCATAA
CCAAACCACGCAGGAGGTATGTAAAACACTACTCAATAATTTATGTAGACGTAAGAATTA
CTAGATTTAACCAATACTACATTATTTTAAAAAAATAGTCAATCTAATAATCAGGTGATG
GAAAATCACGCATTGAATAACTACCTTGATAAGAAACAGCCACAATAATAATAGTAATAA
TAATAATAACAATATGAAAAAAGAAATAGTTAAACAGATGTTAAATAAAATATGAATAAC
TTTGGCTATGTTGAAGAAGAAATAATTACAATATAGTCCAAAAAGAAATCTTCAAATTCT
AATGGTAATACTAATACAAATAGCAATGGTATTAAAGGAAATGGGAGAACTTCTGTTGGT
AATGTTTTGGATATAGGCAATAACCAAATTAATTAATTTGGTAATGGTGAAGAAAATGTA
ATTGCTTCAAACAAAAGTATAACCAGCCTCAATAATAGCGCACCTGGATCTAAAATTCAT
CATTTGACATTTAATTTGCAATTATAAAATCGTTCTGAGAAAGTAGAAGAGACATTCATT
TATAATGAAGTCAAAAGCAGTGCTAAAAAGTCAGATAATCTCTTACTATATTAAGACCCA
CATACACCAACACCTATAAACAATTCTATTGACAATTTAAGAGATTGA

>TTHERM_00994350(protein)
MCLKRRPLVFNHDRIIDVQMDDRVKNKISPFPSNFIKTSHYTLIDFLPMSLLLQFKRYAN
IYFLIIAILQSIPTISPLTPLSAIAPLVFVLGVSMLREGVEDYNRHKSDTKINSEETTRI
FIQDSLVEEKITWAQVEVGDIIKVYKDEPFPADLIAVDSSYPNGVCYIETGALDGEKNMK
PKSCLRETYQIFKECKLEQIRSLKLQAEKPNPELYKFNGSIEGLFEDEVKLEKKATTQNS
KVGAPVPGLKQQDSMQKIIEEVEKIVDEENEKKQKQTNPQPYLNSEQDSAHNTQQNKSQV
NQKVNISTQNGNQTKRHQSYSPQKVLASAKQLLLRGAFLRNTDYILGIVAYTGLDSKIMR
NSEPPKQKTSDMEKTMNTYIIGILILQMICSFFTAVLNYIWNSNNLDGHWYLKDDSQINQ
YGALAILYFFTYFLLYNTMIPISLIVSLEMVKVAQGYFITNDKQMYCEEKDIWPKVMTTT
INEELGQVEYVFSDKTGTLTCNVMEFNKSVIGHNLYGDSGEKDPKLQKKKQDHEGDKPKK
HKLTSFNFYDRHLNELLAEAKHDSIVNLQLKSEDGNSSYLIKTQRDLACEYWKLLGTAHE
CIIQRDKETNEIDYQGPSPDEITLVDAARHMGFTFEGASSDTIDINVRGIKQKVTLLNSF
EFNSDRKRMSVIIRDGNVIKLYIKGADSIIKSRLHTDKQQPFLDKTNDYLTQFSLIGLRT
LMMAMRVLSEEEYQDFKRKMNALADSENREREMDKLADSIERNLILIGATAVEDKLQDKV
PETIYDLIKANIKVWMLTGDKLETAENIAKSCKLIQNDMKIIQISEKDEQSLRNNLLGTA
MEKFIQLKNDQAKKSMLVEGDSLTLIFGDVHLQKAFLKISKDCESVVCCRVTPKQKALVV
RLIKDNLKKITLAIGDGANDVNMIQEAHIGCGIFGNEGMQAAQSSDFAFGEFKCLWRLVL
VHGRWSYIRIAEMIIYFFYKNMLFTIPQLYFSFYNAFSGQTIFDAWFISLYNLIFTALPL
ISRAVFDQDVNYKVTVDQVKMGEEDNRLQSILERKEQYLEKKFPTFYYTSQDKTIFTDSN
FLSWVIQGLIHGLIIFYCTYLTFDSITFSKDGLSTDLWNFSLIIFTSIILVADMKIAMFT
RYWTWITYFTFIFSSLILYFAFLLGSQSIETSEVWLTPFQMFQNSQFYFILFETCGIILA
FDMTVFVSRQFLTKQRILGYMRFLKQPNVNLEKKPTWAEDMSLFNSFYNIQDAKNQNNGQ
VYLANSGESQPENGDQMKKIDNKDLVNQNSQSPMINKYQPQHSNDNRSKNNQTPLNGNPI
QIQMQQYNIGGGVGFGDSSADRLNQEQQQIQIQNNQRPAQPNHAGGMQNTTQQFMQTQEL
LDLTNTTLFQKNSQSNNQVMENHALNNYLDKKQPQQQQQQQQQQYEKRNSQTDVKQNMNN
FGYVEEEIITIQSKKKSSNSNGNTNTNSNGIKGNGRTSVGNVLDIGNNQINQFGNGEENV
IASNKSITSLNNSAPGSKIHHLTFNLQLQNRSEKVEETFIYNEVKSSAKKSDNLLLYQDP
HTPTPINNSIDNLRD

>TTHERM_00994350(gene)
ATGTGTTTAAAGCGTAGACCTCTTGTATTTAATCATGATAGGATTATTGATGTCCAAATG
GATGATCGAGTCAAGAATAAGATTAGTCCGTTTCCCTCTAATTTTATTAAGACATCGCAT
TATACATTGATTGATTTCCTACCAATGTCTTTGCTCCTTTAATTTAAGCGCTATGCAAAT
ATTTATTTTTTGATTATAGCAATTTTATAATCAATTCCTACAATATCTCCCTTAACTCCT
CTCTCAGCCATAGCTCCTCTAGTTTTTGTGCTGGGTGTTTCGATGTTGCGTGAGGGTGTT
GAAGATTATAACAGACACAAAAGTGATACTAAAATTAATTCAGAGGAAACAACAAGAATT
TTTATTTAAGATAGTCTAGTTGAGGAAAAAATAACTTGGGCACAAGTAGAAGTAGGCGAT
ATTATCAAGGTTTATAAGGATGAACCATTCCCAGCAGATTTAATAGCAGTAGATAGTAGT
TATCCCAACGGTGTTTGCTACATAGAAACAGGAGCACTTGATGGAGAAAAAAATATGAAA
CCAAAATCGTGCCTCAGAGAAACTTATCAAATTTTTAAGGAATGCAAGTTAGAGTAAATA
CGCAGCTTAAAGTTATAAGCTGAAAAACCGAACCCTGAATTATATAAATTCAATGGGAGT
ATTGAAGGTCTATTTGAGGTAATCATTTAAAAAAACTCATGGCAATTACTTTTACTTCAA
TTTAAAGTTTTAAATATATAAAATTGTTTGTTGAATCATGCAATATAAAAAGCTAATATA
TAACAAAGTGTTATTTAAGCAAAGTATTCATTTAGCAGGTGTTTCGAATTATGTATTTAA
ATATAGGTTTAAAATATATTATCAAGCCGAATAAACTTTTTGACTTCAAGTAGGAATTAG
GTATTAAATGAGAATGAGATAAAAAATTTAAAGTTGTTATTAATACTTTATTAATATTTA
ATTTACTAATAGTGAGTGATACTAGTATAATAAATTGATAACAAAAAACTAAGCCCTTAA
ACGAATAAACAAAATTTTTAAAAAACTCTACTTCATTTAGTTTTATAAAGATTCTTTTGA
AGAGATAATCATAATTATTACAAAAAAGTTGATGAATATATAATACAATTTGTAAAACAA
AAATAAATACCCAATCAATCAATCAATTCTCTTCTTTTAATTTTCTCACAAAACTAATTT
ATTTTTATCTAGAACTTAAAAAAAAACCTAACTAGAGATTGATAAGAAACCAATAAATTA
AAAAAGCATTTTTTATTCAGTATTTTTTGAATACCAAGCAAAAACATTTGATTGAAACCA
GATTAAAATTAATTAATCGAAATTAGATCCAATTTGATAGATTTTTTATCTATTTTGTGG
TTGCAAAACAAATACTTCTCAAACAATTTTTTTTCTTATTCATTAATAATAATTGGAAGT
AAACTAGTTCAGATTACATTTTTGACATTTTATTGAAATACATTCAAACAAAAAAATAAA
TAAGTGCAAATATTTTTAACATTATATTTAAATAAGAACAAATAATTTTCTTTGCTTTTA
TAATAAAGGAAAATAAAATTGATAATTTCATCATTTCTAGCTTATTAGCCATGAATTATT
TTTTTTTCAAACTATCAAAAATAACTAAAAATGAATTAAAAATGTATTTTTTTAAAAATT
AGGATGAGGTAAAATTAGAAAAAAAGGCAACAACTTAAAATAGCAAAGTAGGAGCTCCTG
TTCCTGGTCTTAAATAATAAGATAGCATGTAGAAGATTATTGAAGAAGTTGAAAAAATAG
TGGATGAGGAAAATGAGAAAAAGCAAAAATAAACAAATCCTCAACCATATTTGAATAGCG
AGCAAGATAGTGCTCATAATACTTAACAAAATAAAAGCCAAGTAAATTAGAAAGTAAACA
TTTCTACTCAAAATGGTAATCAAACCAAGAGACATCAATCATATTCACCTTAAAAAGTGC
TTGCATCTGCTAAACAATTGCTGTTAAGAGGTGCCTTTTTGAGAAATACAGATTATATCC
TTGGAATTGTTGCTTATACAGGTTTGGACTCTAAAATTATGAGAAACTCTGAGCCACCCA
AATAAAAAACATCTGATATGGAAAAAACAATGAATACATATATTATAGGTAACTTTTTTG
TAATTTATCATGATTCAATTTATTGATTTCGAGATCTCTACTTTAGTAGTTTAACTAAAT
AATTAAATACCTATTTTTAAAAGAAAATAAAATAAGCTTTAGTGAAAAAAAACATTTATG
GTATCTTTTATTTAGATTATATTGAAGGGTTACTATTAATTTTTTTTGGCTAATAAATTC
TTTTCATATATTTGAATAATTTCGAATTTTGTAAATACTTAAAATAGATAAAAAATGAAA
CCCTTTAATTATATATCATAAACAATAAATAGAATGAATGATAAATCTAATAAACAATAA
AATTAGAATGATAAATATAAGAAAAATTAAAATTAGAAAACCTTTTCTATTCTAATTGGA
GATCAAATAAAATTTATTAAAAACTAAGTTATAGCCCAATATTACTCTTACTTTTTATAT
AAAAATTGTCAATAAATTACTTGATTTCTAGTTATTTTAAACCAAAGTTACTAAAATTGA
AATTATTTTTATCACTTTAAAATTGTTTCATCATTTCTGCTTTCAAGGCATGCTTTGGAA
TTTTAAAAAGGTTGAGAAGACTTAATAATTGAAATTAAATTTTATTTTCTTTAAATAATT
TTCCAATTAAATTTAGACTATCATGTTTAATTTTTAAGACAAAATCCTTTAAAAAATGTT
TTAAATTATTTTTTTAAATAATAAATAATAGGAATTCTCATTCTTTAGATGATTTGCTCA
TTTTTTACTGCTGTTCTGAATTATATTTGGAATTCTAATAACTTAGATGGACATTGGTAC
TTAAAAGATGATTCTTAAATTAATCAATATGGAGCACTGGCTATTTTATATTTTTTTACT
TATTTTCTACTATATAACACTATGATACCTATTTCTTTGATTGTATCTCTTGAAATGGTT
AAGGTGGCATAAGGTTATTTTATTACTAATGATAAATAAATGTACTGTGAAGAGAAAGAC
ATTTGGCCAAAAGTTATGACAACAACAATCAATGAAGAACTAGGATAGGTAGAATATGTA
TTCTCAGATAAAACAGGAACTCTTACTTGCAATGTAATGGAGTTTAATAAAAGTGTAATT
GGTCATAATTTATATGGAGACTCAGGAGAAAAGGACCCTAAATTACAGAAAAAAAAGTAG
GATCATGAAGGCGATAAACCAAAAAAGCATAAATTAACTTCTTTTAACTTTTACGATCGC
CATTTGAATGAATTATTAGCTGAAGCTAAACACGATTCGATAGTTAATTTACAGCTAAAG
AGTGAAGATGGAAATAGTTCTTATCTAATTAAAACTTAGCGTGACTTAGCATGCGAATAT
TGGAAGCTATTAGGAACTGCTCACGAATGCATTATTTAAAGAGACAAGGAAACTAATGAA
ATAGACTATCAAGGCCCATCTCCAGATGAAATAACTCTTGTTGATGCAGCCAGACATATG
GGATTTACCTTTGAAGGAGCCTCAAGTGATACCATAGATATAAATGTGAGAGGTATTAAG
TAAAAGGTCACATTATTGAATTCATTTGAATTCAATAGTGATAGAAAAAGAATGTCTGTT
ATAATAAGAGATGGAAACGTTATTAAGCTTTATATTAAAGGAGCAGATAGTATCATAAAA
TCTAGGTTGCATACAGACAAATAATAGCCTTTCTTAGATAAAACTAATGACTATCTCACA
CAATTCAGTCTTATAGGGCTTCGTACCCTTATGATGGCTATGAGGGTTTTGAGTGAAGAG
GAGTATTAAGATTTCAAAAGAAAAATGAATGCTTTGGCTGATTCAGAAAATCGTGAAAGG
GAAATGGGTATAAATTATTTCATTTAATTCAATTAGAAACATTTCAAAAAAATAAAACGA
ACTTCAAAAATACTAATAAAATATTAAAATATATTTTAGATATTCAATTTTAGTATTTAA
ATATTTTTATTAAAAATTTTATTAGATAAATTAGCTGATTCTATAGAGAGAAATCTTATT
TTAATTGGTGCTACTGCAGTTGAGGATAAACTTTAAGATAAAGTTCCAGAAACAATTTAT
GATCTTATTAAGGCCAGTAATAAAATTTCAACAAATAATATATCATTAAATAAAATATAT
TTTTTTAAGATATTAAGGTTTGGATGCTTACTGGTGATAAGCTAGAAACAGCAGAAAATA
TTGCAAAGAGCTGCAAATTAATACAAAATGACATGAAGATTATTCAAATATCTGAAAAAG
ATGAATAATCTCTCAGAAATAATTTACTTGGAACTGCTATGGAAAAGTTTATTCAATTAA
AAAATGATTAAGCTAAAAAATCTATGCTTGTAGAAGGAGATTCACTGACATTAATTTTTG
GAGATGTTCATTTATAAAAAGCGTTTTTGAAGATCTCTAAAGATTGCGAATCTGTTGTTT
GTTGTAGAGTTACTCCAAAATAAAAAGCACTTGTAGTTAGATTGATAAAAGACAACTTAA
AAAAAATTACACTTGCTATTGGTGATGGTGCTAATGATGTCAATATGATACAAGAAGCTC
ATATAGGTAAAATAATTCAAATAAATTATAATTGAAATAAAAATTAAAGCAATGATCAAT
AAGCAATATTTATTAATTAATTTCAAATAATCATTAAATTAGGATGTGGTATTTTTGGTA
ATGAAGGTATGCAAGCTGCATAAAGCTCAGATTTTGCATTTGGTGAATTTAAATGTCTTT
GGCGTCTAGTTTTAGTTCATGGCAGATGGTCATACATTAGAATAGCTGAAATGATTATTT
ACTTCTTTTACAAAAATATGTAATTTTTTAACAAAAATAAATAAAGAATCAATTGAAGAA
TTCAATTATAATTTATATTATTATAATACTAGGTTATTTACAATTCCATAGCTGTACTTT
TCATTTTATAATGCATTTAGCGGACAAACTATTTTTGATGCTTGGTTTATTTCTTTGTAT
AATTTGATTTTTACAGCTTTACCTTTGATTTCTAGAGCCGTATTTGACTAGGATGTTAAT
TATAAAGTTACTGTCGACTAAGTAAAAATGGGAGAAGAAGACAATCGTCTTTAGTCAATT
TTAGAAAGAAAGGAGTAGTATTTAGAAAAGAAATTCCCTACTTTCTACTATACAAGTTAA
GATAAAACAATATTTACAGATTCAAACTTCTTATCTTGGGTAATTTAAGGGTTGATTCAT
GGTCTAATCATTTTCTATTGTACTTATTTGACTTTTGATTCCATTACTTTTTCAAAGGAT
GGTCTCTCTACAGATCTTTGGAACTTCTCTTTAATTATATTCACATCGATCATTTTAGTA
AAATCTTAATTAACATTTCATATTTTGTTTCTTATTGCAACTTTTCATAATTTATAGACA
ATTTAAAAATAAAATAAAGCAAAATTTTATATTTTACATGAAATTTTTATATCAAGATTT
TTTAATTGTTTAAAAAAAAATAATTTTTACAATTTTAAGGTTGTTATTAAAATAATAAAT
ATTAAAAATAAAAAGGTGGCTGATATGAAAATTGCTATGTTTACAAGATACTGGACTTGG
ATTACATACTTTACTTTTATTTTTAGTAGTTTAATACTGTACTTTGCTTTTTTATTGGGC
AGTTAATCAATCGAAACAAGTGAAGTCTGGTTGACACCTTTTTAGATGTTTTAAAACTCA
CAATTTTACTTTATATTATTTGAGACTTGTGGAATAATTTTGGCTTTTGACATGACTGTA
TTTGTTTCTAGACAATTTTTAACAAAGCAGAGAATATTAGGTTACATGAGATTTTTAAAA
TAGCCAAATGTAAATCTTGAAAAAAAGCCCACATGGGCAGAAGACATGAGTCTTTTTAAT
TCGTTTTACAATATTTAAGACGCAAAAAATCAAAATAATGGATAAGTTTATCTCGCAAAT
AGTGGTGAATCTTAACCAGAAAATGGAGACTAGATGAAAAAAATAGACAATAAAGATCTT
GTAAATCAAAACTCTTAATCGCCTATGATTAATAAGTACTAACCTTAACACAGCAATGAC
AACAGATCCAAAAATAACTAAACACCTTTAAATGGTAATCCAATTTAAATTTAAATGCAA
TAGTATAACATAGGCGGAGGAGTAGGTTTTGGAGACTCAAGTGCTGATAGACTGAATTAA
GAATAGCAATAGATTCAAATTTAGAATAATTAAAGACCGGCATAACCAAACCACGCAGGA
GGTATGTAAAACACTACTCAATAATTTATGTAGACGTAAGAATTACTAGATTTAACCAAT
ACTACATTATTTTAAAAAAATAGTCAATCTAATAATCAGGTGATGGAAAATCACGCATTG
AATAACTACCTTGATAAGAAACAGCCACAATAATAATAGTAATAATAATAATAACAATAT
GAAAAAAGAAATAGTTAAACAGATGTTAAATAAAATATGAATAACTTTGGCTATGTTGAA
GAAGAAATAATTACAATATAGTCCAAAAAGAAATCTTCAAATTCTAATGGTAATACTAAT
ACAAATAGCAATGGTATTAAAGGAAATGGGAGAACTTCTGTTGGTAATGTTTTGGATATA
GGCAATAACCAAATTAATTAATTTGGTAATGGTGAAGAAAATGTAATTGCTTCAAACAAA
AGTATAACCAGCCTCAATAATAGCGCACCTGGATCTAAAATTCATCATTTGACATTTAAT
TTGCAATTATAAAATCGTTCTGAGAAAGTAGAAGAGACATTCATTTATAATGAAGTCAAA
AGCAGTGCTAAAAAGTCAGATAATCTCTTACTATATTAAGACCCACATACACCAACACCT
ATAAACAATTCTATTGACAATTTAAGAGATTGA

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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

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

TetraMine Data

WebApollo

Tetrahymena Stock Center

Homologs (v.2006 protein sequences)

General Information

Associated Literature

Sequences

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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).