Identifiers and Description

Gene Model Identifier

TTHERM_00923170

Standard Name

TPA9 (Tetrahymena P-type ATPase )

Aliases

PreTt21196 | 164.m00089

Description

Novel P-type ATPase with undefined ion specificity; shares certain homology to Plasmodium ATPase-1; constitutively expressed; starvation upregulates expression

Genome Browser (Macronucleus)

GBrowse

Genome Browser (Micronucleus)

GBrowse

Gene Ontology Annotations

Cellular Component

Molecular Function

Biological Process

Domains

  • ( PF00122 ) E1-E2 ATPase
  • ( TIGR00099 ) Cof-like hydrolase
  • ( PF00702 ) haloacid dehalogenase-like hydrolase
  • ( PF00690 ) Cation transporter/ATPase, N-terminus
  • ( PF02357 ) Transcription termination factor nusG
  • ( TIGR01512 ) cadmium-translocating P-type ATPase
  • ( TIGR01524 ) magnesium-translocating P-type ATPase
  • ( TIGR01525 ) heavy metal translocating P-type ATPase
  • ( TIGR01647 ) plasma-membrane proton-efflux 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
  • ( TIGR01657 ) P-type ATPase of unknown pump
  • ( 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: 10.2%

TetraMine Data

TTHERM_00923170

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

SourceIdentifierScoreDescription
Tetrahymena borealisEI9_13231.19.997093137033517e-262E1-E2 ATPase (1120 aa)
OxytrichaContig797.1.g894.998549705704758e-84E1-E2 ATPase
WormBaseWBGene000220107.001663834819337e-84locus:catp-7 status:Partiall
y_confirmed UniProt:Q86FP2
protein_id:CCD71143.1
DictyBaseDDB_G02848495.000996804856152e-78DDB_G0284849 on chromosome: 4
position 2557758 to 2561551
SGDYOR291W8.002162267243937e-73YPK9 Vacuolar protein with a p
ossible role in sequestering h
eavy metals; has similarity to
the type V P-type ATPase Spf1
p; homolog of human ATP13A2 (P
ARK9), mutations in which are
associated with Parkinson dise
ase and Kufor-Rakeb syndrome
Stentor CoeruleusSteCoe_309164.4737793061811207e-38

General Information

No Data fetched for General Information

Associated Literature

  1. Ref:11952090: Linder JU, Schultz JE (2002) Guanylyl cyclases in unicellular organisms. Molecular and cellular biochemistry 230(1-2):149-58
  2. Ref:10428960: Linder JU, Engel P, Reimer A, Krüger T, Plattner H, Schultz A, Schultz JE (1999) Guanylyl cyclases with the topology of mammalian adenylyl cyclases and an N-terminal P-type ATPase-like domain in Paramecium, Tetrahymena and Plasmodium. The EMBO journal 18(15):4222-32
  3. Ref:9405804: Wang S, Gao D, Penny J, Krishna S, Takeyasu K (1997) P-type ATPases in Tetrahymena. Annals of the New York Academy of Sciences 834( ):158-60
  4. Ref:9124316: Wang S, Takeyasu K (1997) Primary structure and evolution of the ATP-binding domains of the P-type ATPases in Tetrahymena thermophila. The American journal of physiology 272(2 Pt 1):C715-28

Sequences

>TTHERM_00923170(coding)
ATGAGAGTTAGCTCAATTGAGGCTGAAATGGAAAACCCTATTGACGTAGATAAAACAGAC
GTAGAGGGTGAATTAAAAATTAAATAAGTCACTCTGCTCAGAGAAAATATAGTTAAAAAA
ATCGTCTTTTTCCTTGTTGCTATTTTTTGCTCCGACAGACCTAGCGTTCTAAAGAAAGTA
TTTTATGAAGAAGTATCTAAATAAGAAGAAGCCACCCATGTTTATGTTCTTGCTTCAGAT
TTGACAGATTACATAGAAGAAGCTAGCTTGAAAGAAAACCCCGAAGAAGGAGGAGAAAAG
TCTATTTATTTTGTAAACAGGCTCTAAAAGTACATCTACCACAAAAAGCAAAATAAATTT
AGAGCTATTGAATACTTTATCTAAGGCAAGTCATACTCTGAAATTGCTAATAATAAACCA
CTCGCTACAGGCAGAGTTGATCAATTACTCGCTTACTATGGAAAGAGTGAAATAGAAATC
AATGTACCATCTTTCTTAACTTTAATGTGGAGAGAGTTCAAAAAACCTATTAACTTTTTA
CTTTATTTTGGTATCATAGTTTGGGGTATTGAACAAATGTATGTTTCTACTGCTATTACT
GTTGTTTTTACCACAACTATTAATTCTCTTATTTGCATTTATATTCGCGGTGTCATGTAA
AAGCTAAAGGATGCCTGTCTTAATAACACTTCTGTCATAGTATAAAGACATAATGGCTAA
GGATACTAAGAAATAACAGTAGCATCTAATATGATAGCTCCTGGTGATATAGTTCTCTTC
AAAAGAGAAGTTACTCTCCCTTTTGACTGTGTAATTTTGGAAGGCTCTTGCTAAGTTACT
GAAGCCAATATTACAGGTGAAAACGTTGCAATCGGAAAGTGTCAAATACCTACTGATCAT
CACAATGATATTTTTAAATATGAATCAAGCAAATCTCACACTCTCTTCTAAGGTACTCAA
TTGATGAAGATTGAAGATGATATCTTAAAAGTAATTGTTGTAAGAACTGGTTTTGGAAGC
TACAAGGGTCAAATTATTAGAGCTTTACTTTATCCCAAGCCTTTCAATAAAAAATTCTAA
CAATAAGCTGTCAAGTTAACTATTTTAATGGCTACCCTTTTGCTTATCGGTTTCCTTTCT
ACCCTTTCTAGACTCCTTGATATTGAACTTCCTCCTTTGTTCATAGCTTTTAGATTCTTA
GATATTCTCATCTATAGTGCTCCTCCTGGTATGCCTATGCTTATCGCCATTACAAACTTC
GTTGGCTTGAAAAGATTAAAAAATAATTAGATTTTAGGATAAGATCCTAACTCTGCAAGT
TAAGCTGGTAGAATTTAAACTCTTTGCTTTGATAAGACTGGTACTCTTACTGAAGATAAG
GTTGATTTAATTGGTTACCAATTGAAAGGATAGAATCAAACATTCGATAAGATTCAATGC
TAAGATCCTAACAATATCTCAATTGAACACAAACTCTTTAGTATTTGCCATGAAGTAACA
AAAATTAACAATAAGCTTTTAGGTGATTTAATGGATGTAAAAATGGCTGAATTCAGTACT
CTCGATATAGATTACGACCATGAAGCCAAATAACACTACTCTAAATCAGGTAATAAAAGA
TTCTATTGTATCTAAGTTAACTAATTCCATTCTGAATACCAATCTATGAGTGTTGTTTGC
AAGGAAGTTGATATGATCACCAAGGAATTCAAGCATTACTTCTTCATCAAGGGATCTCCT
GAAAAGATTCAATCCTTGTCACACGTTTAATCTTCAGAAAAAGCTCAATTAAGTACCTTG
ATTAATGAAGGATACAGAATTCTTGGATTTGGTTACAAGGAAATTCCTTAAAGTGAAATA
GATGCCTTTTTAGATTTAAGCAGAGAATAACAAGAAGCCAATGTTTAATCTCTTGGTTTC
CTTATTTATAAGAATAATCTTAAACCTGACACTCAAGAAGTGATCAAAGAATTCAAAGAA
GCATGTTACAATATTAAGGTTATCTCTGGTGATAATCCAATCACTACTTTAAAAATATCC
TAAGAATTAGAAATCGTCAATAGAAAAAATCCAACAGTTATCATCAACTTTGAGGAAACT
GAAAATGTCAAGAGTCATCTTATTATCACTGAAATCTAACCTGATAACTCAACTCAAGTA
ATTGATTTCAGTTCAGCTCAAAATGAATAAGACTACATTAATAAATAAATGAGTTATTGC
TGTGATGCTTTCCTTAATAACAAATCTTTTTGTTTCAGCGGTAAAGCCCATTACTACTTC
TAGCTTAAGGCCAAGACTGACCATATTTCATTCAAGCCTGAATGGGTTAAAATGCAAGAT
AAATCTGTCTAAAAAATAATTTCTTTCTATCAAATGTTGATAATTAACACCAATGTTTTC
GCTAGAACTCAACCTGAATAAAAGCAAACTATTGTTAGACTCTTGAAAGAAAGTGACTAA
ATAGTATGTATGGTTGGTGATGGTGCAAATGACTGCTCCGCTATTCGTGAAGCAGATGTC
GGTATTTCTTTTGCTGAAGCTGATGGTTAATTCTCTTCATCCTATGTATCTTTATCAACT
TCTCTTTCCTGCGTTAAAAGAGTTTTGTTAGAAGGTAGAGTTAATTTATCTAATAGTGTA
GAAATTTTCAAGGGTTACTTACAAGTTGCACTTTTGAGATATTTAGGTTTCTTGACTTTA
GCTTACTTCTACTCATCCTACAGTAGTGGTTAAATGGATTGGTAAGCTTTAGCCTCAGGT
TACTTCTTAGTTTATTTGATATTAGGTTGCAACACACCCTTAAAGAAGCTCGAAAAGAGT
GTTTTCGATGATAACCTTTTCAGCATATATAATGTTACTTCTGTACTTTTTGGATTCACT
TTGCATATTTTGTCTATTGTTGGGTGCGTTGAAAGTCTTCATGCTAGTCCCATTTACAAG
GAAGTAAACAGCTTAGACGCTGAAAATAACTTCTAATTTGAGACTCAACACAATACTGTT
TTGAATTTCAATATTTTGATCAATTTCTTCTATGTGATTATTTCTAACCACATCGGAAAA
CCTATGAAAGATAGATATTATAAGAACACTATTGCCTATCTTATGATTTGGGGTTAATTT
ATACATGCAAATGTTATGATTTTTACAAGTTCTGCTTATCCTGGAGCATACACATCATGG
GTTGATCTTCCTGATACTACTCTTAGATTAAGAATTTTCTTCATCTCTAACGGTTTAGGT
CTACTTCTCCTTGCCTATGAACTTATTTTTGCCAGAAGAATTTTCGTTAAACTTTACACA
AGAAGTCAAGAAAGAAAAAGAGCTGCTCATATGTAATAGCTCATCGACCATATTAGAAGT
TGA


>TTHERM_00923170(protein)
MRVSSIEAEMENPIDVDKTDVEGELKIKQVTLLRENIVKKIVFFLVAIFCSDRPSVLKKV
FYEEVSKQEEATHVYVLASDLTDYIEEASLKENPEEGGEKSIYFVNRLQKYIYHKKQNKF
RAIEYFIQGKSYSEIANNKPLATGRVDQLLAYYGKSEIEINVPSFLTLMWREFKKPINFL
LYFGIIVWGIEQMYVSTAITVVFTTTINSLICIYIRGVMQKLKDACLNNTSVIVQRHNGQ
GYQEITVASNMIAPGDIVLFKREVTLPFDCVILEGSCQVTEANITGENVAIGKCQIPTDH
HNDIFKYESSKSHTLFQGTQLMKIEDDILKVIVVRTGFGSYKGQIIRALLYPKPFNKKFQ
QQAVKLTILMATLLLIGFLSTLSRLLDIELPPLFIAFRFLDILIYSAPPGMPMLIAITNF
VGLKRLKNNQILGQDPNSASQAGRIQTLCFDKTGTLTEDKVDLIGYQLKGQNQTFDKIQC
QDPNNISIEHKLFSICHEVTKINNKLLGDLMDVKMAEFSTLDIDYDHEAKQHYSKSGNKR
FYCIQVNQFHSEYQSMSVVCKEVDMITKEFKHYFFIKGSPEKIQSLSHVQSSEKAQLSTL
INEGYRILGFGYKEIPQSEIDAFLDLSREQQEANVQSLGFLIYKNNLKPDTQEVIKEFKE
ACYNIKVISGDNPITTLKISQELEIVNRKNPTVIINFEETENVKSHLIITEIQPDNSTQV
IDFSSAQNEQDYINKQMSYCCDAFLNNKSFCFSGKAHYYFQLKAKTDHISFKPEWVKMQD
KSVQKIISFYQMLIINTNVFARTQPEQKQTIVRLLKESDQIVCMVGDGANDCSAIREADV
GISFAEADGQFSSSYVSLSTSLSCVKRVLLEGRVNLSNSVEIFKGYLQVALLRYLGFLTL
AYFYSSYSSGQMDWQALASGYFLVYLILGCNTPLKKLEKSVFDDNLFSIYNVTSVLFGFT
LHILSIVGCVESLHASPIYKEVNSLDAENNFQFETQHNTVLNFNILINFFYVIISNHIGK
PMKDRYYKNTIAYLMIWGQFIHANVMIFTSSAYPGAYTSWVDLPDTTLRLRIFFISNGLG
LLLLAYELIFARRIFVKLYTRSQERKRAAHMQQLIDHIRS


>TTHERM_00923170(gene)
ATGAGAGTTAGCTCAATTGAGGCTGAAATGGAAAACCCTATTGACGTAGATAAAACAGAC
GTAGAGGGTGAATTAAAAATTAAATAAGTCACTCTGCTCAGAGAAAATATAGTTAAAAAA
ATCGTCTTTTTCCTTGTTGCTATTTTTTGCTCCGACAGACCTAGCGTTCTAAAGAAAGTA
TTTTATGAAGAAGTATCTAAATAAGAAGAAGCCACCCATGTTTATGTTCTTGCTTCAGAT
TTGACAGATTACATAGAAGAAGCTAGCTTGAAAGAAAACCCCGAAGAAGGAGGAGAAAAG
TCTATTTATTTTGTAAACAGGCTCTAAAAGTACATCTACCACAAAAAGCAAAATAAATTT
AGAGCTATTGAATACTTTATCTAAGGCAAGTCATACTCTGAAATTGCTAATAATAAACCA
CTCGCTACAGGCAGAGTTGATCAATTGTAATAAAAATATTTCTATTTTTCTATTTCAATT
ACTCGTTATTATTTATAATAAAAAAAATACCTTCATTAAGCAAATATAGAACAGAACAGC
TTCAACGCTTTTCTTTATTAAATTCGAAATGAACAAAAATTTAATTTTATTTTAAATAAA
TTAAAAGACTCGCTTACTATGGAAAGAGTGAAATAGAAATCAATGTACCATCTTTCTTAA
CTTTAATGTGGAGAGAGTTCAAAAAACCTATTAACTTTTTACTTTATTTTGGTATCATAG
TTTGGGGTATTGAACAAATGTATGTTTCTACTGCTATTACTGTTGTTTTTACCACAACTA
TTAATTCTCTTATTTGCATTTATATTCGCGGTGTCATGTAAAAGCTAAAGGATGCCTGTC
TTAATAACACTTCTGTCATAGTATAAAGACATAATGGCTAAGGATACTAAGAAATAACAG
TAGCATCTAATATGATAGCTCCTGGTGATATAGTTCTCTTCAAAAGAGAAGTTACTCTCC
CTTTTGACTGTGTAATTTTGGAAGGCTCTTGCTAAGTTACTGAAGCCAATATTACAGGTA
ATTAATATTCTTTTAATTTTCATATATCTTATGTTTATTAAATAATTAAATTATTATTTT
ACAAAATAGGTGAAAACGTTGCAATCGGAAAGTGTCAAATACCTACTGATCATCACAATG
ATATTTTTAAGTAAAATATTTAATAACTTTAATTCTCAACTAATTATTAAATTAATTTTT
CATAATAAAAATAGATATGAATCAAGCAAATCTCACACTCTCTTCTAAGGTACTCAATTG
ATGAAGATTGAAGATGATATCTTAAAAGTAATTGTTGTAAGAACTGGTTTTGGAAGCTAC
AAGGGTCAAATTATTAGAGCTTTACTTTATCCCAAGCCTTTCAATAAAAAATTCTAACAA
TAAGCTGTCAAGTTAACTATTTTAATGGCTACCCTTTTGCTTATCGGTTTCCTTTCTACC
CTTTCTAGACTCCTTGATATTGAACTTCCTCCTTTGTTCATAGCTTTTAGATTCTTAGAT
ATTCTCATCTATAGTGCTCCTCCTGGTATGCCTATGCTTATCGCCATTACAAACTTCGTT
GGCTTGAAAAGATTAAAAAATAATTAGATTTTAGGATAAGATCCTAACTCTGCAAGTTAA
GCTGGTAGAATTTAAACTCTTTGCTTTGATAAGACTGGTACTCTTACTGAAGATAAGGTT
GATTTAATTGGTTACCAATTGAAAGGATAGAATCAAACATTCGATAAGATTCAATGCTAA
GATCCTAACAATATCTCAATTGAACACAAACTCTTTAGTATTTGCCATGAAGTAACAAAA
ATTAACAATAAGCTTTTAGGTGATTTAATGGATGTAAAAATGGCTGAATTCAGTACTCTC
GATATAGATTACGACCATGAAGCCAAATAACACTACTCTAAATCAGGTAATAAAAGATTC
TATTGTATCTAAGTTAACTAATTCCATTCTGAATACCAATCTATGAGTGTTGTTTGCAAG
GAAGTTGATATGATCACCAAGGAATTCAAGCATTACTTCTTCATCAAGGGATCTCCTGAA
AAGATTCAATCCTTGTCACACGTTTAATCTTCAGAAAAAGCTCAATTAAGTACCTTGATT
AATGAAGGATACAGAATTCTTGGATTTGGTTACAAGGAAATTCCTTAAAGTGAAATAGAT
GCCTTTTTAGATTTAAGCAGAGAATAACAAGAAGCCAATGTTTAATCTCTTGGTTTCCTT
ATTTATAAGAATAATCTTAAACCTGACACTCAAGAAGTGATCAAAGAATTCAAAGAAGCA
TGTTACAATATTAAGGTTATCTCTGGTGATAATCCAATCACTACTTTAAAAATATCCTAA
GAATTAGAAATCGTCAATAGAAAAAATCCAACAGTTATCATCAACTTTGAGGAAACTGAA
AATGTCAAGAGTCATCTTATTATCACTGAAATCTAACCTGATAACTCAACTCAAGTAATT
GATTTCAGTTCAGCTCAAAATGAATAAGACTACATTAATAAATAAATGAGTTATTGCTGT
GATGCTTTCCTTAATAACAAATCTTTTTGTTTCAGCGGTAAAGCCCATTACTACTTCTAG
CTTAAGGCCAAGACTGACCATATTTCATTCAAGCCTGAATGGGTTAAAATGCAAGATAAA
TCTGTCTAAAAAATAATTTCTTTCTATCAAATGTTGATAATTAACACCAATGTTTTCGCT
AGAACTCAACCTGAATAAAAGCAAACTATTGTTAGACTCTTGAAAGAAAGTGACTAAATA
GTATGTATGGTTGGTGATGGTGCAAATGACTGCTCCGCTATTCGTGAAGCAGATGTCGGT
ATTTCTTTTGCTGAAGCTGATGGTTAATTCTCTTCATCCTATGTATCTTTATCAACTTCT
CTTTCCTGCGTTAAAAGAGTTTTGTTAGAAGGTAGAGTTAATTTATCTAATAGTGTAGAA
ATTTTCAAGGGTTACTTACAAGTTGCACTTTTGAGATATTTAGGTTTCTTGACTTTAGCT
TACTTCTACTCATCCTACAGTAGTGGTTAAATGGATTGGTAAGCTTTAGCCTCAGGTTAC
TTCTTAGTTTATTTGATATTAGGTTGCAACACACCCTTAAAGAAGCTCGAAAAGAGTGTT
TTCGATGATAACCTTTTCAGCATATATAATGTTACTTCTGTACTTTTTGGATTCACTTTG
CATATTTTGTCTATTGTTGGGTGCGTTGAAAGTCTTCATGCTAGTCCCATTTACAAGGAA
GTAAACAGCTTAGACGCTGAAAATAACTTCTAATTTGAGACTCAACACAATACTGTTTTG
AATTTCAATATTTTGATCAATTTCTTCTATGTGATTATTTCTAACCACATCGGAAAACCT
ATGAAAGATAGATATTATAAGAACACTATTGCCTATCTTATGATTTGGGGTTAATTTATA
CATGCAAATGTTATGATTTTTACAAGTTCTGCTTATCCTGGAGCATACACATCATGGGTT
GATCTTCCTGATACTACTCTTAGATTAAGAATTTTCTTCATCTCTAACGGTTTAGGTCTA
CTTCTCCTTGCCTATGAACTTATTTTTGCCAGAAGAATTTTCGTTAAACTTTACACAAGA
AGTCAAGAAAGAAAAAGAGCTGCTCATATGTAATAGCTCATCGACCATATTAGAAGTTGA