TGD | Gene Details

Identifiers and Description

Gene Model Identifier
TTHERM_00508990

Standard Name
TPA6 (Tetrahymena P-type ATPase)

Aliases
PreTt10684 | 64.m00164 | 3723.m00027

Description
TPA6 Na-H/K antiporter P-type ATPase alpha subunit family protein; Na-H/K antiporter P-type ATPase- alpha subunit family protein; P-type ATPase; putative Na(+)/K(+) or H(+)/K(+) ATPase

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

Cellular Component
membrane (IEA) | GO:0016020
Molecular Function
hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances (IEA) | GO:0016820
ATP binding (IEA) | GO:0005524
catalytic activity (IEA) | GO:0003824
ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism (IEA) | GO:0015662
Biological Process
metabolic process (IEA) | GO:0008152
cation transport (IEA) | GO:0006812
ATP biosynthetic process (IEA) | GO:0006754

Domains

( PF00122 ) E1-E2 ATPase
( TIGR00099 ) Cof-like hydrolase
( TIGR02988 ) S4 domain protein YaaA
( TIGR01487 ) SPP-like hydrolase, Archaeal
( TIGR01497 ) K+-transporting ATPase, B subunit
( PF00702 ) haloacid dehalogenase-like hydrolase
( PF08282 ) haloacid dehalogenase-like hydrolase
( TIGR01511 ) copper-translocating P-type ATPase
( PF00690 ) Cation transporter/ATPase, N-terminus
( TIGR01512 ) cadmium-translocating P-type ATPase
( PF00689 ) Cation transporting ATPase, C-terminus
( 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
( TIGR01106 ) Na,H/K antiporter P-type ATPase, alpha
( TIGR01517 ) calcium-translocating P-type ATPase, PMCA-type
( TIGR01116 ) calcium-translocating P-type ATPase, SERCA-type
( TIGR01523 ) potassium/sodium efflux P-type ATPase, fungal-type
( TIGR01652 ) phospholipid-translocating P-type ATPase, flippase
( TIGR01657 ) P-type ATPase of unknown pump
( TIGR01494 ) ATPase, P-type (transporting), HAD superfamily,
( PF03720 ) UDP-glucose/GDP-mannose dehydrogenase family, UDP binding

Gene Expression Profile

Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10%

TetraMine Data

TTHERM_00508990

WebApollo

Fullscreen View

Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source Identifier Score Description

Stentor Coeruleus SteCoe_24478 0

WormBase WBGene00001137 9.997093137033517e-262 locus:eat-6 status:Confirmed
UniProt:P90735 protein_id
:CAB02694.1

Tetrahymena borealis EI9_15482.1 9.997093137033517e-262 Na,H/K antiporter P-type ATPas
e, alpha subunit protein (1215
aa)

DictyBase DDB_G0267924 9.997093137033517e-262 DDB_G0267924 on chromosome: 1
position 1128799 to 1132710

Oxytricha Contig21999.0.g128 9.997093137033517e-262 E1-E2 ATPase

SGD YGL167C 1.0001900614163146e-108 PMR1 High affinity Ca2+/Mn2+ P
-type ATPase required for Ca2+
and Mn2+ transport into Golgi
; involved in Ca2+ dependent p
rotein sorting and processing;
mutations in human homolog AT
P2C1 cause acantholytic skin c
ondition Hailey-Hailey disease

Source	Identifier	Score	Description
Stentor Coeruleus	SteCoe_24478	0
WormBase	WBGene00001137	9.997093137033517e-262	locus:eat-6 status:Confirmed UniProt:P90735 protein_id :CAB02694.1
Tetrahymena borealis	EI9_15482.1	9.997093137033517e-262	Na,H/K antiporter P-type ATPas e, alpha subunit protein (1215 aa)
DictyBase	DDB_G0267924	9.997093137033517e-262	DDB_G0267924 on chromosome: 1 position 1128799 to 1132710
Oxytricha	Contig21999.0.g128	9.997093137033517e-262	E1-E2 ATPase
SGD	YGL167C	1.0001900614163146e-108	PMR1 High affinity Ca2+/Mn2+ P -type ATPase required for Ca2+ and Mn2+ transport into Golgi ; involved in Ca2+ dependent p rotein sorting and processing; mutations in human homolog AT P2C1 cause acantholytic skin c ondition Hailey-Hailey disease

General Information

No Data fetched for General Information

Associated Literature

Ref:11952090: Linder JU, Schultz JE (2002) Guanylyl cyclases in unicellular organisms. Molecular and cellular biochemistry 230(1-2):149-58
Ref:10428960: Linder JU, Engel P, Reimer A, KrÃ¼ger 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
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
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

Sequences

>TTHERM_00508990(coding)
ATGAAGGAAGTAGAACTTAATGAAAAAAGTATAAAAAATGATTTGCAAGACAATAACTAA
GTTCTAGACTAGTCTGTTAACAGGTCGATGAACTCTGCTATTGTACGTAAGTATGAAGAA
CTGAGATAGTCTATCAATATTCGTAATTCATAGAACTTTTATAAATCAAATAAAAATAAT
ACACAAGCACTTAAAGGCTTTGAAGAGCCTATTGATATTCCTAACCATGTAAATTCATTG
GTCAATTTTGATGGATATTCTTAAAATACAGAATACGATATGCATTAATAAATTACTGTA
CAAGAGAAAAAGCCAGCTGTTAGCACTACCGATAAAAATGAAAGATCTAAAGAAGAATTA
GCAGCTAAAGTAGATCATAAAATCTCTCTTAGTGAATTAAAAAATAAATATAAGACAGAT
TTTCAAAATGGCTTACAAGAAGATTAAGTAGGTGAACATTTAGCTTTGTATGGAGAAAAT
AAGCTCACAGAAAAATAAAAAACACCTGCATGGGTAGTCATTCTGAAAGAATTAACTAAC
GGTTTTGCTATCATGCTTTGGGTAAGTGCGGGGCTTTGCTTCTTAGCATATGGTCTAACC
CCAGATGACCCTTCAAATATGTATCTTGCAATTGTATTGCTAATTGTTATTTTCATTACA
GCTTTTATTACTTACTAATAAAATGCAAAAAGTGAAGCTCTACTAAATTCTTTTAAAAGC
TTCATACCTTAAAAATCTACTGTATTAAGAGATGGCAAGGTTAAAAATATTGAATCAATT
AAATTAGTTGTTGGAGATATTGTTCTGATTAAAGCCGGAGAAAAAATACCTGCTGATATC
CGTATATTAGAATCTTCTGAAATGAAAGTAGATAACTCTGCTCTCACTGGTGAAAGTGAA
CCTTAGCTCAGAACAGTTGATTGCTCTCACCCTGAAAACTATCTTGAAACTTCTAATATA
GCTTTCTTTGGTACACTTTGTAAAGAAGGTACAGCAAAAGGTATTGTTATTTGCACTGGT
GACAGAACTACTCTTGGGTAAATTGCAGATTTGTCTTCAGGTGAGAAGAAGTCTAAAACT
CCTTTACGTACAGAATTAGATAGATTTGTTTACATGGTTACTATACTAGGTATATTTTTA
TGCATTTTATTCTTCCTTTTAGCTTACTTAGTTATTGGGTTCCCAATAATGTCATGCATT
GTCTTTGGTATTGGTATCCTAGTCGCAAATGTTCCAGAAGGTTTATTAGGTTGTATTACT
ATTTGTCTAGCAATTACTGCTAAGAATCTTGCAAAAAAGCAGGTCCTTGTCAAAAACTTA
GAAGCTGTCGAAACTCTTGGTTCTACTTCTTGTATTTGTACTGACAAAACAGGTACTTTG
ACCTAAAATGTTATGACTGTTAAGCATATTTGGATTAATGATACTGTATTTGAAACTCCT
TATCTTTTACATCTTTAAAAAGGTTAATAACCTCCTTATGATACAAACGACATAGGCTTC
AAAACTCTTTAGTAGGCTGCTATGATTTCTAGTGAAGCAGTATTTGATTTATCTAGCTTA
TAAGATTAGACTAATGTTGATTATCTTAAATGCCCAGTTATTGGTGATGCCACCGAAACT
GGTTTGATACGTTTCTATTAATAGATTGACGATGTCAATAAATTTAGAAGTCAATTTAAA
ATTGTCAAAAACTCTGATGATACATAGAGTAGAATGCCTTTTAGCTCATAACACAAATTT
GCTCTTACTGTTGTTGAAGAAGAATCAGAAAACAGCTATTATGCAGTTTATATGAAAGGT
GCTCCTGAAAAAATTTGGAGTTACTGCTCAACTGTGTATAGTAATAACTAACTAAACGAA
ATTGACAACTAATGGTAGTAAAAATTTAAGTAAGTTAATTTATAATTTGGTAAAGGAGGA
GAAAGGGTTTTAGGTTTTGCTAAGCTTGTTCTTCCAGCAACTTAATTCCCAAAGGGTACT
CAATTCCATGTCCAAAATCCTTCTAAATTTACATTCTAACTTGCTAGATTCTAATTTTGC
GGATTAGTTTCTCTTATGGATCCTCCTAAACCAAGAGTTCCTTATGCTATCCTTGAGTGC
AGATCTGCAGGTATTAAGGTTATTATGGTTACTGGTGATTAACCTCCTACTGCTGCTGCC
ATTGCAAAAGAAGTTAATATAGTTCCACACGAAATTATTACTAATGAAGATTTGATGGAA
AACGACCAAACTCTTGACTGGTTCACTGCCAGTGAATAGTGTGAAGCTATTATTGTTCAT
GGTGATAGAATTCTAGAATCCTTTGAAAAATCGATTGAAGAAAAGAGAGAATCTCCTGAT
TTTTATCTTCGTCAATGGGTAAATAAACCATATTGTGTTTTCGCTAGAACCACCCCCGCC
TAAAAACTCTAAATTGTAGAGGCCTGTTAGAAGGAAGGCTTTATTGTCGCAGCAACTGGT
GATGGTGTTAATGATTCTCCTGCTATAAAAAAAGCTGATATTGGTGTTTCGATGAATCTA
TCTGGTAGTGATGTCACAAAAGATGCAGCAGATATGATTCTCCTTGATGATGATTTTGCT
TCAATTGTACTTGGTGTTGAAGAAGGTAGAAAAATTTTTGATAATCTAAAAAAATCATGT
GTTTACTTGCTTACTTCGAATATGACTGAAATTGTTCCATTCTTAGCATTTATCATTTTG
CTACTTCCTGTACCTCTTTCTAGTATATATATGCTCGTTTTACAAGTTGGTACAGATATA
TGGCCTGCTATTTCCCTAGCATATGAAGAAGCTGAATTAGATGTAATGACTAGAAAACCT
CGTAAAAAAACAGACCATTTATGCTCACTTAAATTAGTTACTATTGGTTATTTCTAAATG
GGTTAATTAGAAAGTGCAGCTGGTTTTGTTGGCTATTATATGATGTTTAACTATTTTGGT
TTCCCAGTTAGAGAATTATTTGGACTAGCTAATGTTTCTGGATACACTCCATTGAAAGAT
GATTTTGATGTCCATAAAAATCCTTTTACAGGCAATTAATAAGATCCTTATTTCAATAGC
GAAATATTAAGAGTTGCAGGAACATATGATTGCAGATTAGGTAAAAAGGCAGCAAGTTCT
ATTAAAAGTGATATTAATTGGTAGAAGTTAACAGATGGTAACTTCGACTTAAGAAAATCT
CTATTGAAGTGCAATGAATAGACTGGTGAATGGTTACCAACTGTAAATTGGAGTGATTGT
GATGTAAAATCTAGTAAAACTTGGTCAGATGTCACAAGTCAAACAGCTTGTTACAGTACT
GAAGCATTAAAGTGGGCATAAACAGGTTTCTTCTCTTCTGTTGTAACAAGTTAATGGTCT
AATGTATTTGCTTGTAAGAGTAGAAAAATGAGTTTTGTCACTTCTAGTGTTAATTCAGTA
ATGTTTTAAGGTATTATTTTTGAAACTGCTCTGCTTTGTTTCTTATTATATGTCCCAGGA
GTCCAAGTAGTTTTTGGAAGTAGACCTTATGAATTTTGGATGTTCTGTCATGGATTATTT
TTCAGTATATCTTTATTATTATGGGATGAAGTAAGAAAATTTACAACTAGACGTTTTAAA
TGGTTCTTCAAATTCGCTTATTGGTGA

>TTHERM_00508990(protein)
MKEVELNEKSIKNDLQDNNQVLDQSVNRSMNSAIVRKYEELRQSINIRNSQNFYKSNKNN
TQALKGFEEPIDIPNHVNSLVNFDGYSQNTEYDMHQQITVQEKKPAVSTTDKNERSKEEL
AAKVDHKISLSELKNKYKTDFQNGLQEDQVGEHLALYGENKLTEKQKTPAWVVILKELTN
GFAIMLWVSAGLCFLAYGLTPDDPSNMYLAIVLLIVIFITAFITYQQNAKSEALLNSFKS
FIPQKSTVLRDGKVKNIESIKLVVGDIVLIKAGEKIPADIRILESSEMKVDNSALTGESE
PQLRTVDCSHPENYLETSNIAFFGTLCKEGTAKGIVICTGDRTTLGQIADLSSGEKKSKT
PLRTELDRFVYMVTILGIFLCILFFLLAYLVIGFPIMSCIVFGIGILVANVPEGLLGCIT
ICLAITAKNLAKKQVLVKNLEAVETLGSTSCICTDKTGTLTQNVMTVKHIWINDTVFETP
YLLHLQKGQQPPYDTNDIGFKTLQQAAMISSEAVFDLSSLQDQTNVDYLKCPVIGDATET
GLIRFYQQIDDVNKFRSQFKIVKNSDDTQSRMPFSSQHKFALTVVEEESENSYYAVYMKG
APEKIWSYCSTVYSNNQLNEIDNQWQQKFKQVNLQFGKGGERVLGFAKLVLPATQFPKGT
QFHVQNPSKFTFQLARFQFCGLVSLMDPPKPRVPYAILECRSAGIKVIMVTGDQPPTAAA
IAKEVNIVPHEIITNEDLMENDQTLDWFTASEQCEAIIVHGDRILESFEKSIEEKRESPD
FYLRQWVNKPYCVFARTTPAQKLQIVEACQKEGFIVAATGDGVNDSPAIKKADIGVSMNL
SGSDVTKDAADMILLDDDFASIVLGVEEGRKIFDNLKKSCVYLLTSNMTEIVPFLAFIIL
LLPVPLSSIYMLVLQVGTDIWPAISLAYEEAELDVMTRKPRKKTDHLCSLKLVTIGYFQM
GQLESAAGFVGYYMMFNYFGFPVRELFGLANVSGYTPLKDDFDVHKNPFTGNQQDPYFNS
EILRVAGTYDCRLGKKAASSIKSDINWQKLTDGNFDLRKSLLKCNEQTGEWLPTVNWSDC
DVKSSKTWSDVTSQTACYSTEALKWAQTGFFSSVVTSQWSNVFACKSRKMSFVTSSVNSV
MFQGIIFETALLCFLLYVPGVQVVFGSRPYEFWMFCHGLFFSISLLLWDEVRKFTTRRFK
WFFKFAYW

>TTHERM_00508990(gene)
ATGAAGGAAGTAGAACTTAATGAAAAAAGTATAAAAAATGATTTGCAAGACAATAACTAA
GTTCTAGACTAGTCTGTTAACAGGTCGATGAACTCTGCTATTGTACGTAAGTATGAAGAA
CTGAGATAGTCTATCAATATTCGTAATTCATAGAACTTTTATAAATCAAATAAAAATAAT
ACACAAGCACTTAAAGGCTTTGAAGAGCCTATTGATATTCCTAACCATGTAAATTCATTG
GTCAATTTTGATGGATATTCTTAAAATACAGAATACGATATGCATTAATAAATTACTGTA
CAAGAGAAAAAGCCAGCTGTTAGCACTACCGATAAAAATGAAAGATCTAAAGAAGAATTA
GCAGCTAAAGTAGATCATAAAATCTCTCTTAGTGAATTAAAAAATAAATATAAGACAGAT
TTTCAAAATGGCTTACAAGAAGATTAAGTAGGTGAACATTTAGCTTTGTATGGAGAAAAT
AAGCTCACAGAAAAATAAAAAACACCTGCATGGGTAGTCATTCTGAAAGAATTAACTAAC
GGTTTTGCTATCATGCTTTGGGTAAGTGCGGGGCTTTGCTTCTTAGCATATGGTCTAACC
CCAGATGACCCTTCAAATATGTATCTTGCAATTGTATTGCTAATTGTTATTTTCATTACA
GCTTTTATTACTTACTAATAAAATGCAAAAAGTGAAGCTCTACTAAATTCTTTTAAAAGC
TTCATACCTTAAAAATCTACTGTATTAAGAGATGGCAAGGTTAAAAATATTGAATCAATT
AAATTAGTTGTTGGAGATATTGTTCTGATTAAAGCCGGAGAAAAAATACCTGCTGATATC
CGTATATTAGAATCTTCTGAAATGAAAGTAGATAACTCTGCTCTCACTGGTGAAAGTGAA
CCTTAGCTCAGAACAGTTGATTGCTCTCACCCTGAAAACTATCTTGAAACTTCTAATATA
GCTTTCTTTGGTACACTTTGTAAAGAAGGTACAGCAAAAGGTATTGTTATTTGCACTGGT
GACAGAACTACTCTTGGGTAAATTGCAGATTTGTCTTCAGGTGAGAAGAAGTCTAAAACT
CCTTTACGTACAGAATTAGATAGATTTGTTTACATGGTTACTATACTAGGTATATTTTTA
TGCATTTTATTCTTCCTTTTAGCTTACTTAGTTATTGGGTTCCCAATAATGTCATGCATT
GTCTTTGGTATTGGTATCCTAGTCGCAAATGTTCCAGAAGGTTTATTAGGTTGTATTACT
ATTTGTCTAGCAATTACTGCTAAGAATCTTGCAAAAAAGCAGGTCCTTGTCAAAAACTTA
GAAGCTGTCGAAACTCTTGGTTCTACTTCTTGTATTTGTACTGACAAAACAGGTACTTTG
ACCTAAAATGTTATGACTGTTAAGCATATTTGGATTAATGATACTGTATTTGAAACTCCT
TATCTTTTACATCTTTAAAAAGGTTAATAACCTCCTTATGATACAAACGACATAGGCTTC
AAAACTCTTTAGTAGGCTGCTATGATTTCTAGTGAAGCAGTATTTGATTTATCTAGCTTA
TAAGATTAGACTAATGTTGATTATCTTAAATGCCCAGTTATTGGTGATGCCACCGAAACT
GGTTTGATACGTTTCTATTAATAGATTGACGATGTCAATAAATTTAGAAGTCAATTTAAA
ATTGTCAAAAACTCTGATGATACATAGAGTAGAATGCCTTTTAGCTCATAACACAAATTT
GCTCTTACTGTTGTTGAAGAAGAATCAGAAAACAGCTATTATGCAGTTTATATGAAAGGT
GCTCCTGAAAAAATTTGGAGTTACTGCTCAACTGTGTATAGTAATAACTAACTAAACGAA
ATTGACAACTAATGGTAGTAAAAATTTAAGTAAGTTAATTTATAATTTGGTAAAGGAGGA
GAAAGGGTTTTAGGTTTTGCTAAGCTTGTTCTTCCAGCAACTTAATTCCCAAAGGGTACT
CAATTCCATGTCCAAAATCCTTCTAAATTTACATTCTAACTTGCTAGATTCTAATTTTGC
GGATTAGTTTCTCTTATGGATCCTCCTAAACCAAGAGTTCCTTATGCTATCCTTGAGTGC
AGATCTGCAGGTATTAAGGTTATTATGGTTACTGGTGATTAACCTCCTACTGCTGCTGCC
ATTGCAAAAGAAGTTAATATAGTTCCACACGAAATTATTACTAATGAAGATTTGATGGAA
AACGACCAAACTCTTGACTGGTTCACTGCCAGTGAATAGTGTGAAGCTATTATTGTTCAT
GGTGATAGAATTCTAGAATCCTTTGAAAAATCGATTGAAGAAAAGAGAGAATCTCCTGAT
TTTTATCTTCGTCAATGGGTAAATAAACCATATTGTGTTTTCGCTAGAACCACCCCCGCC
TAAAAACTCTAAATTGTAGAGGCCTGTTAGAAGGAAGGCTTTATTGTCGCAGCAACTGGT
GATGGTGTTAATGATTCTCCTGCTATAAAAAAAGCTGATATTGGTGTTTCGATGAATCTA
TCTGGTAGTGATGTCACAAAAGATGCAGCAGATATGATTCTCCTTGATGATGATTTTGCT
TCAATTGTACTTGGTGTTGAAGAAGGTAGAAAAATTTTTGATAATCTAAAAAAATCATGT
GTTTACTTGCTTACTTCGAATATGACTGAAATTGTTCCATTCTTAGCATTTATCATTTTG
CTACTTCCTGTACCTCTTTCTAGTATATATATGCTCGTTTTACAAGTTGGTACAGATATA
TGGCCTGCTATTTCCCTAGCATATGAAGAAGCTGAATTAGATGTAATGACTAGAAAACCT
CGTAAAAAAACAGACCATTTATGCTCACTTAAATTAGTTACTATTGGTTATTTCTAAATG
GGTTAATTAGAAAGTGCAGCTGGTTTTGTTGGCTATTATATGATGTTTAACTATTTTGGT
TTCCCAGTTAGAGAATTATTTGGACTAGCTAATGTTTCTGGATACACTCCATTGAAAGAT
GATTTTGATGTCCATAAAAATCCTTTTACAGGCAATTAATAAGATCCTTATTTCAATAGC
GAAATATTAAGAGTTGCAGGAACATATGATTGCAGATTAGGTAAAAAGGCAGCAAGTTCT
ATTAAAAGTGATATTAATTGGTAGAAGTTAACAGATGGTAACTTCGACTTAAGAAAATCT
CTATTGAAGTGCAATGAATAGACTGGTGAATGGTTACCAACTGTAAATTGGAGTGATTGT
GATGTAAAATCTAGTAAAACTTGGTCAGATGTCACAAGTCAAACAGCTTGTTACAGTACT
GAAGCATTAAAGTGGGCATAAACAGGTTTCTTCTCTTCTGTTGTAACAAGTTAATGGTCT
AATGTATTTGCTTGTAAGAGTAGAAAAATGAGTTTTGTCACTTCTAGTGTTAATTCAGTA
ATGTTTTAAGGTATTATTTTTGAAACTGCTCTGCTTTGTTTCTTATTATATGTCCCAGGA
GTCCAAGTAGTTTTTGGAAGTAGACCTTATGAATTTTGGATGTTCTGTCATGGATTATTT
TTCAGTATATCTTTATTATTATGGGATGAAGTAAGAAAATTTACAACTAGACGTTTTAAA
TGGTTCTTCAAATTCGCTTATTGGTGA

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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