TGD | Tetrahymena Genome Database Wiki

Identifiers and Description

Gene Model Identifier
TTHERM_00684740

Standard Name
FLP5 (FLiPpase)

Aliases
PreTt18187 | 104.m00119 | 3732.m00033

Description
FLP5 phospholipid-translocating P-type ATPase flippase family protein

Genome Browser (Macronucleus)

Full Screen View

No Genome Browser Data Present

Genome Browser (Micronucleus)

Full Screen View

No Genome Browser Data Present

External Links

Uniprot

Alphafold

Gene Ontology Annotations

Molecular Function
catalytic activity (IEA) | GO:0003824
Biological Process
metabolic process (IEA) | GO:0008152

Domains

( PF00702 ) haloacid dehalogenase-like hydrolase
( TIGR00022 ) conserved hypothetical protein
( TIGR00099 ) Cof-like hydrolase
( TIGR00173 ) 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylic-acid synthase
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01482 ) Sucrose-phosphate phosphatase subfamily
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01522 ) calcium-transporting P-type ATPase, PMR1-type
( TIGR01525 ) heavy metal translocating P-type ATPase
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

No results were calculated for this gene in GeneMania.

Tetrahymena Stock Center

No Data fetched for Tetrahymena Stock Center

Homologs

Source Identifier Score

Stentor Coeruleus SteCoe_15919 0

Description: None

WormBase WBGene00017174 9.997093137033517e-262

Description: locus:tat-6 status:Partially_confirmed UniProt:P91203 protein_id:CCD66878.1

Tetrahymena borealis EI9_17367.1 9.997093137033517e-262

Description: phospholipid-translocating P-type ATPase, flippase (1196 aa)

Oxytricha Contig899.1.g81 9.997093137033517e-262

Description: E1-E2 ATPase

SGD YIL048W 9.002171346752006e-170

Description: NEO1 Putative aminophospholipid translocase (flippase) involved in endocytosis and vacuolar biogenesis; localizes to endosomes and the Golgi aparatus

DictyBase DDB_G0270870 9.997540506729281e-98

Description: atp9b on chromosome: 1 position 2777615 to 2781943

General Information

No. Gene Name(s) Paragraph Text

19 FLP10, FLP19, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP11, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5 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
GTATATGATAATATTAAAATATTCGTGCAAGATAGTAAATACAACCAGACAGTTTTTAAA
GTGCTCAATTATTAAAATTAATTTCAAGAAGTTAAAATCCAAGAACTAAAAATCGGTTAG
ATAATTGAGCTGTAAGAAGGATAACCAGCTCCAGCAGATTTACTAATTTTGTATTCTAGC
AATATAAATGGTAATATTTTAATCAAGACTGACCATTTTGATGGAAAAACAAAATAAATT
TCAAGAAAGGCTATTAATTATTTTTAGTAAGATATAAAAAAACGTTAAAATGATTATCTT
CAACTAATTGATACAGATGGTTATGTTGAAATTCCACCACCATCAGCAAACTATAGCTAA
TTCGAAGCTACTTTCTATCTTAATGATGGATATAGTAAGTATAATGAAAAAATTACAATT
GAAAATGCAATATGGCAAAATAGTACAGTATCAAATGGATTTATTTTAGGTTTGATTATT
TACACAGGATCTGAAACAAAAACAAACATGAACATGAAATCGCCAAGATTTAAAATAGGA
AAATTTGACTTAGAAGCCAACTTTTTAATGAAAATATTTTTCTTAATAGTTATTTTTTAT
TCATGCTTGATTGTGATTATTAAAGGAAACATAATGAGTTCTATAAGAATAGTAATTGAT
TTTATAAGATATTTAATTTTACTCTGTAATATTATTCCGGTTTGCTTAAAAATAAATCTT
GAAATGGTCAAAATCTATTTTACATTTAGAATCAATAATGACCCAGACATGGAAGGAGTT
AACTTTAAGGATTAAAATATACCTGAAGAATTAGGGCGAGTTTAATTCTTATTAGCAGAT
AAAACAGGAACTTTAACAAAGAATGAAATGATTTTTAATAGAGTTGCTTTAGAATAAGCA
ACTTACACTCATGAAGATATGATTGTCATGCAGTCTATTATTATCAATTAGTGTTAAAGA
TACTTAGAGCCTCTGGCAAATTATCAGCTCACTTCTTCAAATACCTAATCAAATGATTAT
AAATTTTAGAAGCGTGCTAAAGAAGAAATATTTAGAGATTTAGTTAATGCAATGTGTATT
TGTAACACTGTATCACCTGGGATAGAGCTAATATCAAGATAGAGTAAATATTTAGGTGAA
TCATAAGAAGAAGTGGCATTTGTAGAATTTGCTGAGTAATTAGGTATTAAATTGGTGACA
AGGAATGAAGATACTATAGGGATAGAAAACTGTAGAGAAAATAAAGATTACTATTAAATA
CTAGACTTATTTGAGTTCTCTTCAGAAAAAAACAGGATGGGAATCATAGTTAAGCATTTG
AGTAGCTAAAAAATTATATATTATGTAAAAGGATCAGCTAGAGAGATGTCAGAACTTGTA
ATTGAGTCATCAAGAAAATTCATAAATGAAGAAAGCTCAAATATCGGAAGTGAAGGAATT
AGAGTCATGGTATTTGCATAAAAGTAAATAGACTAAAATGATTACAATAAATGGAAATAA
GCATAACTAAATAAGAACATAAACGTTAACATGAGCTCTCCTTTAATGAGAAATAATATT
TAAAACGCTTCCCAAATGTTTGATTAATTTGAAAAAGATATGGAATTTTTAGGTATAGTT
GGTGTAGAAGATTAGCTTAGAGATGGTGTTTAATAAACTATAGAAACTCTAACATTAGCA
GGTATTTCAGTTTGGATTGTATCTGGTGACAGTATGCAAACAACTATAAGTGCAGCTATT
TAATCTGGAATCAAATAAAATGATTAACATTTTAACATAGTCAAGAAAGTTTACGACGAT
ATAGATATAAAAGCAAAGCTTATGTACATAAATAGTGACAGAAACTCTAAAAAATAAATA
TTAGTTATGGATGGATAATCTCTAAGTGTAGCAATGGAAGTTGATAAAAAGTAGCTTGTT
AATGTATGCACAAGGGCTGCATCTGTCCTTTTATGCGAATGCACTCCTCAATAGAAGCAC
TAGATAATAGATCTAATTAAATAGTATACTGATTATAGAATTGCGGCTATAGGAGATGGA
GCAAATGATGTTGGAATGATATAAAGTGCTCACTTAGGAATTGGAATAAGTGATTCTGAT
AATAAATTGGCATAGCTGGCTGCAGATGTAACTATTCCTGAGTTTTATTACTTAAATCAG
CTATTATTATGGCATGGAAGGTGTTACAAAAAAGCTGTCTCTTTGTGTTCTTTTGTATAT
TAAAGAGGGTTAGTAATTGCTTTCATCGAATTGATTTTTGTCGGAGTATTTTACACTATT
ACAATATAAATATTTAATGCTTAATTACTACTCTGTTATGCTACCATATTTACTATTTTC
CCAGTGCTAACACTAGTTATGGACTCAGATATAGATATAAACACATGTATCTCATTTCCT
CAACTTTACAAATCAGCTTTAAAAGGAAGACATTTAAATCTAAGAACATTCTTTTCATGG
ATCTGGAAAGCTGTTTATCAAGCTACCGTTTTGATGATGCTAATATTCACTTTCTTCTAA
AGATAATACTTTTTGAATATAGAAACATTTGTTCTTTTTGAATTAATATTCACAGAGTAT
TTTATGATTTTCTCTAAAATTTACTAGATCAAAAAGATAAAATGGATCCAGGCATTATTT
ATAGGTATTTCGCTGATAATCTATCTTTTAATACTAATTTTCTTATAGCCTTAGTTTGAT
ATAGGAAACATATGGACTTTATAAACAATTGGAATACTTTTATTGATAATTTTAATAGCA
TTAATCCCTATGCTTGTAATTCACCTCTTAAGAATGAAAATAGAGCCCACAGATGATGAG
AAGGTTTTAAGAAGTGCACTTAATAGAGCTAGCTCAGAGTAACTATCTCAATGA

>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

>TTHERM_00684740(protein)
MAYKGINGENSYNNKESLIEEQKDVVDQPSLIFRNNSSRAGVRNNKDNNNISLDIEGNKS
NSGNSFSSQSKQNQRQKDNSQIKMHNSSQSSSFLTIPRDDTSQIVVNEKYKQNVIRNEQC
IHVKEPLLKVRPKQEANYKLTFFQKLKNLIGNPDPQKVERQIYINGDIFPQNYQINQIKN
SKYSLLTFLPLVLWNHFQNFMNLLYLIITISQFIYDLKVGYVYTYLSPVIFIVFLVMARE
VYDNIKIFVQDSKYNQTVFKVLNYQNQFQEVKIQELKIGQIIELQEGQPAPADLLILYSS
NINGNILIKTDHFDGKTKQISRKAINYFQQDIKKRQNDYLQLIDTDGYVEIPPPSANYSQ
FEATFYLNDGYSKYNEKITIENAIWQNSTVSNGFILGLIIYTGSETKTNMNMKSPRFKIG
KFDLEANFLMKIFFLIVIFYSCLIVIIKGNIMSSIRIVIDFIRYLILLCNIIPVCLKINL
EMVKIYFTFRINNDPDMEGVNFKDQNIPEELGRVQFLLADKTGTLTKNEMIFNRVALEQA
TYTHEDMIVMQSIIINQCQRYLEPLANYQLTSSNTQSNDYKFQKRAKEEIFRDLVNAMCI
CNTVSPGIELISRQSKYLGESQEEVAFVEFAEQLGIKLVTRNEDTIGIENCRENKDYYQI
LDLFEFSSEKNRMGIIVKHLSSQKIIYYVKGSAREMSELVIESSRKFINEESSNIGSEGI
RVMVFAQKQIDQNDYNKWKQAQLNKNINVNMSSPLMRNNIQNASQMFDQFEKDMEFLGIV
GVEDQLRDGVQQTIETLTLAGISVWIVSGDSMQTTISAAIQSGIKQNDQHFNIVKKVYDD
IDIKAKLMYINSDRNSKKQILVMDGQSLSVAMEVDKKQLVNVCTRAASVLLCECTPQQKH
QIIDLIKQYTDYRIAAIGDGANDVGMIQSAHLGIGISDSDNKLAQLAADVTIPEFYYLNQ
LLLWHGRCYKKAVSLCSFVYQRGLVIAFIELIFVGVFYTITIQIFNAQLLLCYATIFTIF
PVLTLVMDSDIDINTCISFPQLYKSALKGRHLNLRTFFSWIWKAVYQATVLMMLIFTFFQ
RQYFLNIETFVLFELIFTEYFMIFSKIYQIKKIKWIQALFIGISLIIYLLILIFLQPQFD
IGNIWTLQTIGILLLIILIALIPMLVIHLLRMKIEPTDDEKVLRSALNRASSEQLSQ

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Identifiers and Description

Gene Model Identifier

Standard Name

Aliases

Description

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

External Links

Gene Ontology Annotations

Molecular Function

Biological Process

Domains

Gene Expression Profile

Vegetative Cell Cycle (Zhang et al., 2023)

GeneMania

Tetrahymena Stock Center

Homologs

General Information

Associated Literature

Sequences

Wiki Links

External Links

Source	Identifier	Score
Stentor Coeruleus	SteCoe_15919	0
	Description: None
WormBase	WBGene00017174	9.997093137033517e-262
	Description: locus:tat-6 status:Partially_confirmed UniProt:P91203 protein_id:CCD66878.1
Tetrahymena borealis	EI9_17367.1	9.997093137033517e-262
	Description: phospholipid-translocating P-type ATPase, flippase (1196 aa)
Oxytricha	Contig899.1.g81	9.997093137033517e-262
	Description: E1-E2 ATPase
SGD	YIL048W	9.002171346752006e-170
	Description: NEO1 Putative aminophospholipid translocase (flippase) involved in endocytosis and vacuolar biogenesis; localizes to endosomes and the Golgi aparatus
DictyBase	DDB_G0270870	9.997540506729281e-98
	Description: atp9b on chromosome: 1 position 2777615 to 2781943

No.	Gene Name(s)	Paragraph Text
19	FLP10, FLP19, FLP18, FLP17, FLP8, FLP16, FLP15, FLP14, FLP6, FLP13, FLP11, FLP2, FLP1, DNF1 , FLP9, FLP12, FLP4, FLP7, FLP5	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).