TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00294760

Standard Name
DNF1 (Drs2 Neo1 Family )

Aliases
PreTt15586 | 27.m00246 | 3692.m00049

Description
Aminophospholipid translocase (flippase)

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

( PF00122 ) E1-E2 ATPase
( TIGR00099 ) Cof-like hydrolase
( TIGR00012 ) ribosomal protein L29
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF08282 ) haloacid dehalogenase-like hydrolase
( TIGR01484 ) HAD-superfamily hydrolase, subfamily IIB
( TIGR01647 ) plasma-membrane proton-efflux P-type ATPase
( 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:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 11.8%

TetraMine Data

TTHERM_00294760

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_25323 0

WormBase WBGene00019166 9.997093137033517e-262 locus:tat-2 status:Partially
_confirmed UniProt:U4PRL1
protein_id:CDH93216.1

Tetrahymena borealis EI9_08733.1 9.997093137033517e-262 phospholipid-translocating P-t
ype ATPase, flippase (1229 aa)

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

Oxytricha Contig10125.0.g35 9.997093137033517e-262 haloacid dehalogenase-like hyd
rolase

SGD YAL026C 9.997093137033517e-262 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_25323	0
WormBase	WBGene00019166	9.997093137033517e-262	locus:tat-2 status:Partially _confirmed UniProt:U4PRL1 protein_id:CDH93216.1
Tetrahymena borealis	EI9_08733.1	9.997093137033517e-262	phospholipid-translocating P-t ype ATPase, flippase (1229 aa)
DictyBase	DDB_G0269380	9.997093137033517e-262	DDB_G0269380 on chromosome: 1 position 2645714 to 2650717
Oxytricha	Contig10125.0.g35	9.997093137033517e-262	haloacid dehalogenase-like hyd rolase
SGD	YAL026C	9.997093137033517e-262	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_00294760(coding)
ATGCCTAGAAAAAGATGGTAAGACATGCCTGATAGGACTATTGTTAGTAATTGTCCTGAG
CATGTTAAATTTTGTAATAATAGTATCTCAACCACAAAGTACACTCTCTTCACTTTTATT
CCCATGAATCTAGTTGAGTAATTTAGTAAGTTAGCAAATGTCTACTTTTTATTTATTGGA
ATGATGCAAATGATAAATGAAATATCTATTTCGAATGGTTAGCCGGTTATATATGTTCCG
CTTTTTGTTGTTTTGATGATATCTGGAATTAAAGATCTATTTGAAGATATGAAAAGGAAC
AAGTCAGATTAAGAAGAGAATCAAAGATTGGTATGGACTTATAGAAATGGCATGTGGATA
AGAGTATATTGGTAGAGTTTATTAGTAGGAGAAATAGTAAAAGTAGAAAAAAACTAACTC
TTTCCTGCAGATATTTTATGTATGTATACAACTGATTCTAAGGGCCTTTGCTATGTAGAA
ACTAAAAACCTAGATGGCGAAACCAATTTGAAGCGCAAAATATCGAATAAATCTTTATAG
CAATTAGGAGAAGCTGCTATTCTACATTAAAAATTTACTTTTAATTGTGAAAAACCAAAC
CCCTACTTATATAAATTTTAAGGAAACATGGAAATAACAGATGGTTACGATTAATAGTAG
AAAATATCCCTAGATTACAACAATTTTATACTTAGAGGATGCTCTCTGAAAAATACAGAC
TATGTAATTGGCTTGGTTTCTTATACTGGAAGAGATTCTAAAATAATGATGAATACAGTA
AACGCAAGATCAAAGAGATCTCATATAGAAAAAAAAATGAATGTTTTTATTAGTTTGGTC
TTCTTGCTTTAAATAGTAGTATGCTTGTCATTTGCATTAGGTGCTGCAATTTGGTTTAAT
TAAAATAAATCAAGCCTCATTTTTATGCTTGGAGTCAGTAGTACAGCAGAAATAGACAAC
AGTTTTGGTTATTTATTAGTTGTGCAGTGGGGTGCTTGGATTCTTATATTTACTAACTTT
GTTCCTATCAGCTTAATTGTAACCTTGGAAATGGTGAAATTTATGTAAGGAATCAGAATT
ACATAAGATCCAAATACATATTCAAAAACTTATGATATTCAGTGCACTGTGTAATGCAGT
GGATTGAATGAAGAATTAGGATAAGTAGAGTATGTTTTTTCTGATAAAACTGGAACATTA
ACAAGCAACACGATGAAATATAAATGCTTAACAGTGAATGGCGTATCTTATGGTGAGTAA
GATAATATGACTGAATAAGAGTTGATAGATAAGCCTAATGTAACAAATGTTAAATTTTTA
GATAAAAAGTTATTTGAAGACATGTAAGGTAAAAAAGCTATGGGTTCAGAATAGCAACAA
CATCTTTTTACAGCTTTAAAAGTACTCTCTGCTTGCCATACTGTGATTACAGAAAAGACA
TCAGAAGGAATAGAATACAATGCTTCCTCACCAGATGAGCTGGCACTTATAAATTTTGCT
AAATTTTGTGGATTCGAGTATCTTGGAATTGACGAAGACAGTGTTATGAGAATTAAGTAA
GAAAATATAATGCACAGATTTAAGGTATTGAATGTATTAGACTTTAATTCAGTAAGAAAG
CGCATGAGTATTATTGTGGAAGATTCTAATGGCAAGATTTTCTTGTTTTGTAAAGGTGCA
GACAGTGTCTTACAAAAGCTACTTGACTAAAAATTAAATGAAGATCATATAATAGAGTAG
ACATGGATTAACTTAGAAAGGTATGCATCTGTTGGTCTCCGTACTCTTGTTTTAGCATAA
AAAGAAATTTAAAAAGATGAGTACCATTTATGGAATGAACAGTACTAAGTAGCATGCTGC
AGCCTTAAAGACAGAGAAGAAGAAATGGAAAGGTTACAAAAAAAGATAGAAAAAAATCTT
ATCTTAGTAGGAGCTACTGCGATAGAAGATTAATTACAAGACGAAGTTTCTTCAACTATC
TAGCTTATGAAGAAAGCTGGAATAAAAGTTTGGGTGCTGACAGGAGATAAAGTTGAAACA
GCAGTTAATATAGGCTACGCTTGCTCACTTTTGAATGATTAGTTAAGGAGAATTCTTGTT
GATGGTTATAGTTTAGAAGAAGTATAAAAATCTTTACAGGCAGCTTACAAGTCTATCCTA
AATGAAGTTGAAAATCATAACTAAACTATCCTTTAAAGCAATAGAAAAAAGTCATAAAAG
AACGAAATGATAAAGAACTTTAGTTTAGATCTCGCTCTAATCCTGACAGGAGATGCTTTG
ATACACTGTACAGAAAATAAAGAGAATAATGAAACTCTAATGAAAATATCAGAACATTGT
AAAGTAGTTCTTGCTTGTAGAGTTTCGCCTAAACAGAAGTAAGAAATTGTGCATTTAGTT
AGAGTTGCTAAACCAGAGTCAACAACTTTAGCAATTGGAGATGGAGCTAATGATGTGAAT
ATGATAAGTGCTGCTCATGTTGGTGTTGGCATTAGAGGAAAAGAAGGATAACAAGCAGCT
AGAGCAAGCGATTTTGCTGTTGGAGAATTTAAAATATTAAAATCCTTACTTTTTAATCAT
GGAAGAGAATCTTATAGAAAAAATTCAACTTTGATATGCTACAATTTTTACAAAAATATG
CTATTAGTCTTACCATAGTGGTGGTATGCCTTCATTAGTGGGTATTCGGGTTCTTCCATG
TATGACCCTTGGATTTATTAACTTTATAATATGTGTTACACTTCTCTTCCAATTGTTGTA
TATGCTATTTTTGACCAAGAGTTTAGTGATGAATATTTGGTTGAAAATCCTGATCTTTAT
GTCCAAGGTATAAAAGGTTTACTTTTTAATCAAAGAGAATACTGGCTTTGGATAATAAAT
GGATCTTGGCATGCTTTCTTAAGTTGTTTCATAAGCTTTGTAGGTTTAGATGGAACATTT
TAGGTTAATGGAAAAGATTTCTTTTTCTAAGCCACAGGAACTGTTACTTTCGGAGCTACT
GTCTTCATTGGAAATTTAAAAGTTTATATTTTCAGCAACACTTACAACCCAGCTTTATTG
ATAAGTGTTTTTGGAAGTATTATCTTCTATATTTCAAATCATGGGCTGGCAAGCTATTTC
TATGTCACATCTGATATATTCAATACTTTTTCAAACACTTATTCAAGCCCTTACTTTTGG
TTTTGTTCAATAATAATTATAGGAATCGCTACTATATTTGATTCTACTGATAGAAGATGG
GAATATTTTAGCTAAGTACTTAAAAGACAAGATGAAAAGAAATTAGCTTTACTTAATGAG
GCTCTAACATATTAATAAAATGAAGGATTAAATCTTGAAGGTTCAAAAAGTAATTCAGCA
GAAAATAAAAATTATTAACAAGAAAACAGAGACGAGATTATAACGTGTGTTGGGATGCTC
AAAAATGGATACTAAACTTAAGAACCAATAAATCTAAAGTAGCACAAGCCTCTATATGGA
GAAGAAGAAAAGGTGCCTTCCAGCGAATCTCTTAGCAATCCTCCTTATCCAAATAAATCC
GCTAAGACTGTATCTAACCATTAAAATTCCCACATGAATTCTAATTATCTTACTAGCACT
AAGCCATACACAGGATATGCTTTTTCTCAAATAGAGCCCATCACAGAAGCTTAATAAAAG
TATACTTACTGA

>TTHERM_00294760(protein)
MPRKRWQDMPDRTIVSNCPEHVKFCNNSISTTKYTLFTFIPMNLVEQFSKLANVYFLFIG
MMQMINEISISNGQPVIYVPLFVVLMISGIKDLFEDMKRNKSDQEENQRLVWTYRNGMWI
RVYWQSLLVGEIVKVEKNQLFPADILCMYTTDSKGLCYVETKNLDGETNLKRKISNKSLQ
QLGEAAILHQKFTFNCEKPNPYLYKFQGNMEITDGYDQQQKISLDYNNFILRGCSLKNTD
YVIGLVSYTGRDSKIMMNTVNARSKRSHIEKKMNVFISLVFLLQIVVCLSFALGAAIWFN
QNKSSLIFMLGVSSTAEIDNSFGYLLVVQWGAWILIFTNFVPISLIVTLEMVKFMQGIRI
TQDPNTYSKTYDIQCTVQCSGLNEELGQVEYVFSDKTGTLTSNTMKYKCLTVNGVSYGEQ
DNMTEQELIDKPNVTNVKFLDKKLFEDMQGKKAMGSEQQQHLFTALKVLSACHTVITEKT
SEGIEYNASSPDELALINFAKFCGFEYLGIDEDSVMRIKQENIMHRFKVLNVLDFNSVRK
RMSIIVEDSNGKIFLFCKGADSVLQKLLDQKLNEDHIIEQTWINLERYASVGLRTLVLAQ
KEIQKDEYHLWNEQYQVACCSLKDREEEMERLQKKIEKNLILVGATAIEDQLQDEVSSTI
QLMKKAGIKVWVLTGDKVETAVNIGYACSLLNDQLRRILVDGYSLEEVQKSLQAAYKSIL
NEVENHNQTILQSNRKKSQKNEMIKNFSLDLALILTGDALIHCTENKENNETLMKISEHC
KVVLACRVSPKQKQEIVHLVRVAKPESTTLAIGDGANDVNMISAAHVGVGIRGKEGQQAA
RASDFAVGEFKILKSLLFNHGRESYRKNSTLICYNFYKNMLLVLPQWWYAFISGYSGSSM
YDPWIYQLYNMCYTSLPIVVYAIFDQEFSDEYLVENPDLYVQGIKGLLFNQREYWLWIIN
GSWHAFLSCFISFVGLDGTFQVNGKDFFFQATGTVTFGATVFIGNLKVYIFSNTYNPALL
ISVFGSIIFYISNHGLASYFYVTSDIFNTFSNTYSSPYFWFCSIIIIGIATIFDSTDRRW
EYFSQVLKRQDEKKLALLNEALTYQQNEGLNLEGSKSNSAENKNYQQENRDEIITCVGML
KNGYQTQEPINLKQHKPLYGEEEKVPSSESLSNPPYPNKSAKTVSNHQNSHMNSNYLTST
KPYTGYAFSQIEPITEAQQKYTY

>TTHERM_00294760(gene)
ATGCCTAGAAAAAGATGGTAAGACATGCCTGATAGGACTATTGTTAGTAATTGTCCTGAG
CATGTTAAATTTTGTAATAATAGTATCTCAACCACAAAGTACACTCTCTTCACTTTTATT
CCCATGAATCTAGTTGAGTAATTTAGTAAGTTAGCAAATGTCTACTTTTTATTTATTGGA
ATGATGCAAATGATAAATGAAATATCTATTTCGAATGGTTAGCCGGTTATATATGTTCCG
CTTTTTGTTGTTTTGATGATATCTGGAATTAAAGATCTATTTGAAGATATGAAAAGGAAC
AAGTCAGATTAAGAAGAGAATCAAAGATTGGTAAATTTTTGTTTCAACTTAAAATCTAAT
TTCCTCCAATTAGCAATTAAGTTTATTTAGATGCATAAGGAGGAATTTATTCATAAATTC
ATTTATTTATATGATATTTCTACGAAAAAATTACTTTTTTAATAATATTTGGCAATTTAT
TAATAGGTATGGACTTATAGAAATGGCATGTGGATAAGAGTATATTGGTAGAGTTTATTA
GTAGGAGAAATAGTAAAAGTAGAAAAAAACTAACTCTTTCCTGCAGATATTTTATGTATG
TATACAACTGATTCTAAGGGCCTTTGCTATGTAGAAACTAAAAACCTAGATGGCGAAACC
AATTTGAAGCGCAAAATATCGAATAAATCTTTATAGCAATTAGGAGAAGCTGCTATTCTA
CATTAAAAATTTACTTTTAATTGTGAAAAACCAAACCCCTACTTATATAAATTTTAAGGA
AACATGGAAATAACAGATGGTTACGATTAATAGTAGAAAATATCCCTAGATTACAACAAT
TTTATACTTAGAGGATGCTCTCTGAAAAATACAGACTATGTAATTGGCTTGGTTTCTTAT
ACTGGAAGAGATTCTAAAATAATGATGAATACAGTAAACGCAAGATCAAAGAGATCTCAT
ATAGAAAAAAAAATGAATGTTTTTATTAGTTTGGTCTTCTTGCTTTAAATAGTAGTATGC
TTGTCATTTGCATTAGGTGCTGCAATTTGGTTTAATTAAAATAAATCAAGCCTCATTTTT
ATGCTTGGAGTCAGTAGTACAGCAGAAATAGACAACAGTTTTGGTTATTTATTAGTTGTG
CAGTGGGGTGCTTGGATTCTTATATTTACTAACTTTGTTCCTATCAGTAACTTACTTTTA
GTTATTAATTTAAATCATTCAAATTTGAATGAATGCTGTGTTACATTATTATTTTATAAT
TAATTAAATTAAAAGAAATCATAAAATTCTTTTTTCTTCAAATTTAATTAAATTCATTTG
CACACATACACTCAAGCAAATAAACAAATATTGGCTATTTTATTAATTCTAATTTTATTC
GTTTCTTGCTGACTCTATTCTTTTCTGGCTTTTTTTTTATTTTTATTAAAAATCAAATTA
ACTTCAATTTTTTTTTTTGAAAAATATTAATAGGCTTAATTGTAACCTTGGAAATGGTGA
AATTTATGTAAGGAATCAGAATTACATAAGATCCAAATACATATTCAAAAACTTATGATA
TTCAGTGCACTGTGTAATGCAGTGGATTGAATGAAGAATTAGGATAAGTAGAGTATGTTT
TTTCTGATAAAACTGGAACATTAACAAGCAACACGATGAAATATAAATGCTTAACAGTGA
ATGGCGTATCTTATGGTGAGTAAGATAATATGACTGAATAAGAGTTGATAGATAAGCCTA
ATGTAACAAATGTTAAATTTTTAGATAAAAAGTTATTTGAAGACATGTAAGGTAAAAAAG
CTATGGGTTCAGAATAGCAACAACATCTTTTTACAGCTTTAAAAGTACTCTCTGCTTGCC
ATACTGTGATTACAGAAAAGACATCAGAAGGAATAGAATACAATGCTTCCTCACCAGATG
AGCTGGCACTTATAAATTTTGCTAAATTTTGTGGATTCGAGTATCTTGGAATTGACGAAG
ACAGTGTTATGAGAATTAAGTAAGAAAATATAATGCACAGATTTAAGGTATTGAATGTAT
TAGACTTTAATTCAGTAAGAAAGCGCATGAGTATTATTGTGGAAGATTCTAATGGCAAGA
TTTTCTTGTTTTGTAAAGGTGCAGACAGTGTCTTACAAAAGCTACTTGACTAAAAATTAA
ATGAAGATCATATAATAGAGTAGACATGGATTAACTTAGAAAGGTATTTATTTATTTATT
TATAATAAATAATTACCAATTTTTTTATTTCTAATTAATTTAAAAATATAATTTTATTAG
GTATGCATCTGTTGGTCTCCGTACTCTTGTTTTAGCATAAAAAGAAATTTAAAAAGATGA
GTACCATTTATGGAATGAACAGTACTAAGTAGCATGCTGCAGCCTTAAAGACAGAGAAGA
AGAAATGGAAAGGTTACAAAAAAAGATAGAAAAAAATCTTATCTTAGTAGGAGCTACTGC
GATAGAAGATTAATTACAAGACGAAGTTTCTTCAACTATCTAGCTTATGAAGAAAGCTGG
AATAAAAGTAAGATAATTATATAAATATAGATTTAGATTAATATTTAATAAATCATAAAA
GGTTTGGGTGCTGACAGGAGATAAAGTTGAAACAGCAGTTAATATAGGCTACGCTTGCTC
ACTTTTGAATGATTAGTTAAGGAGAATTCTTGTTGATGGTTATAGTTTAGAAGAAGTATA
AAAATCTTTACAGGCAGCTTACAAGTCTATCCTAAATGAAGTTGAAAATCATAACTAAAC
TATCCTTTAAAGCAATAGAAAAAAGTCATAAAAGAACGAAATGATAAAGAACTTTAGTTT
AGATCTCGCTCTAATCCTGACAGGAGATGCTTTGATACACTGTACAGAAAATAAAGAGAA
TAATGAAACTCTAATGAAAATATCAGAACATTGTAAAGTAGTTCTTGCTTGTAGAGTTTC
GCCTAAACAGAAGTAAGAAATTGTGCATTTAGTTAGAGTTGCTAAACCAGAGTCAACAAC
TTTAGCAATTGGAGATGGAGCTAATGATGTGAATATGATAAGTGCTGCTCATGTTGGTGT
TGGCATTAGAGGAAAAGAAGGATAACAAGCAGCTAGAGCAAGCGATTTTGCTGTTGGAGA
ATTTAAAATATTAAAATCCTTACTTTTTAATCATGGAAGAGAATCTTATAGAAAAAATTC
AACTTTGATATGCTACAATTTTTACAAAAATATGCTATTAGTCTTACCATAGTGGTGGTA
TGCCTTCATTAGTGGGTATTCGGGTTCTTCCATGTATGACCCTTGGATTTATTAACTTTA
TAATATGTGTTACACTTCTCTTCCAATTGTTGGTAAATAATAAATAAATTAACTTATTAA
TTCCTTTATTATTGAATAAGCTTTTAATAAATCAAAATAGAATTATTATTAATATTCAAT
TTATAAAAAAACAAATTTAATATTATTTATAATAAAGTATATGCTATTTTTGACCAAGAG
TTTAGTGATGAATATTTGGTTGAAAATCCTGATCTTTATGTCCAAGGTATAAAAGGTTTA
CTTTTTAATCAAAGAGAATACTGGCTTTGGATAATAAATGGATCTTGGCATGCTTTCTTA
AGTTGTTTCATAAGCTTTGTAGGTTTAGATGGAACATTTTAGGTTAATGGAAAAGATTTC
TTTTTCTAAGCCACAGGAACTGTTACTTTCGGAGCTACTGTCTTCATTGGAAATTTAAAA
GTTTATATTTTCAGCAACACTTACAACCCAGCTTTATTGATAAGTGTTTTTGGAAGTATT
ATCTTCTATATTTCAAATCATGGGCTGGCAAGCTATTTCTATGTCACATCTGATATATTC
AATACTTTTTCAAACACTTATTCAAGCCCTTACTTTTGGTTTTGTTCAATAATAATTATA
GGAATCGCTACTATATTTGATTCTACTGATAGAAGATGGGAATATTTTAGCTAAGTACTT
AAAAGACAAGATGAAAAGAAATTAGCTTTACTTAATGAGGCTCTAACATATTAATAAAAT
GAAGGATTAAATCTTGAAGGTTCAAAAAGTAATTCAGCAGAAAATAAAAATTATTAACAA
GAAAACAGAGACGAGATTATAACGTGTGTTGGGATGCTCAAAAATGGATACTAAACTTAA
GAACCAATAAATCTAAAGTAGCACAAGCCTCTATATGGAGAAGAAGAAAAGGTGCCTTCC
AGCGAATCTCTTAGCAATCCTCCTTATCCAAATAAATCCGCTAAGACTGTATCTAACCAT
TAAAATTCCCACATGAATTCTAATTATCTTACTAGCACTAAGCCATACACAGGATATGCT
TTTTCTCAAATAGAGCCCATCACAGAAGCTTAATAAAAGTATACTTACTGA

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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

Wiki Links

External Links

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).