Identifiers and Description

Gene Model Identifier

TTHERM_00666220

Standard Name

ALG11 (Predicted alpha-1,2-mannosyltransferase Alg11)

Aliases

PreTt23875 | 99.m00116

Description

Alpha-1,2-mannosyltransferase, catalyzes addition of the terminal alpha 1,2-Man to the Man5GlcNAc2-PP-dolichol in termediate during asparagine-linked glycosylation in the ER

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

No Data fetched for Gene Ontology Annotations

Domains

• ( PF00534 ) glycosyl transferase, group 1 family
• ( PF08041 ) PetM family of cytochrome b6f

Gene Expression Profile

• Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 20.6%

TetraMine Data

TTHERM_00666220

WebApollo

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Tetrahymena Stock Center

No Data fetched for StockID

Homologs (v.2006 protein sequences)

Source	Identifier	Score	Description
Tetrahymena borealis	EI9_16538.1	9.997093137033517e-262	glycosyl transferase, group 1 family protein (484 aa)
DictyBase	DDB_G0292118	9.997329401607134e-86	alg11 on chromosome: 6 positio n 1220852 to 1222575
WormBase	WBGene00015162	5.000996804856152e-78	Uncharacterized glycosyltransf erase B0361.8 status:Confirm ed UniProt:P53993 protein_ id:CCD61823.1
SGD	YNL048W	1.0002012508493003e-67	ALG11 Alpha-1,2-mannosyltransf erase, catalyzes sequential ad dition of the two terminal alp ha 1,2-mannose residues to the Man5GlcNAc2-PP-dolichol inter mediate during asparagine-link ed glycosylation in the ER
Stentor Coeruleus	SteCoe_15598	6.054601895401186e-39
Oxytricha	Contig20481.0.0.g5	2.0008113830639685e-30	Glycosyl transferases group 1

General Information

No Data fetched for General Information

Associated Literature

No Data fetched for Associated Literature

Sequences

>TTHERM_00666220(coding)
ATGGCCTCATTTATTTTTAAAATTTTGATTATCAGCTTTTTATATGTATTTCTTCCTCTA
TTGGCTATTTATACTTTACTAAAGCTTGTAGTCAGGTTAAAAAAGTTTATTAGAAATAAA
GGGAATTCAAAATTGAAAATAGCATTTTTCCATCCTTATTGCAATTCAGCAGGAGGCGGA
GAAAAAGTTCTATGGTGTTTGGTTTATTCACTTTTAAATTGTGTAGCATATAGGGAAAAT
TTTGAACTGGTTATATACACAGGAGATTAAGTTAGTGGAGAGGATATTTTAAAGAAAGCA
ACTGACAGGTTTAATATTAATGTTCTTGAGCTTAAAGATAAGATTTAATTTATCAGGGTT
TCAGGTAGAAAACTGCTCGAACCTTTTAGAGTAGCTACTATGATCCTTTAAGCTATTGGA
ACAATGATTTATACTTTTAAATGTCTGCTTAAATACCAACCTGATATTTTCTTTGATTCC
ACAGGTTTTGCCTTTTCCTATATTGTTGTTAAAAAGTTTTTAGGATGTAAGGTTGTCTCA
TACACTCACTATCCATTTATAAGCTCAGATATGATTTAAAAAGTCATTAGAAATGAATAA
TCTTTTAATAATAGAGGCTTTATTGCATAATCTGGACTCTTTTCTAATATTAAGTTTTTC
TACTATTTGATATTAACAAAAATGTACAAATTCATGGGAAATTATGTAGATATGACTTTC
ACTAATTCAACATGGACAGATGATCATATTAGAAGTTTGTGGGCTCCTTGTCGTTAAGTC
GAAACTATTACAGAATCAGTGAAATTATATCCACCATGTAATGTTACTTCTTTACTTGAG
TTAGAAAAGAATTAAGAAAATTCAACTGTACAAATTATGTCTTTCGCCTAATTCCGCCCT
GAAAAAGACCACATGATGCAAATCAGAGTTTTTGAAAGAGTGCTTTCGAGATTAACAGAT
GAAGAAAAGCATAAACTATAATTCAGAGTAGTTGGATCTGTGAGAAACGATGATGACGAG
TAGTTGTTAAGCAATCTCAAAAAAGAAGTTGAATAAAGACATCTTAGTGATAAAATTTAA
TTTATCAAAAATCCATCTTTCAAAGATATTTTGAAAATATTTGAGCAAAGTGATATTGGA
TTGCACACTATGAAAGATGAGCACTTTGGAATTGCAGTCGTCGAAATGATGGCTGGAGGA
TTAATTACGATAGCACATAAGAGCGCTGGCCCTTTGAAAGATATTATTTAAAATGAAAAT
TTCGGGTTTTTGTGTGAAAATGAAGATGAATATGTTGAAGCAACTTTAAAAGCTGTTTAA
ATGCCAAAAGAAGTCAAATAGGAGTTAGTAAGTAATTCTAGACAAAAAGCTTAAGAATTT
AGTGAAGATATGTTTTACATTAAAAGTGCTGCTCATTTCGAGAACTTTTTAGAATATTTT
AATTTAGTTAAAAAGGTTTGA

>TTHERM_00666220(protein)
MASFIFKILIISFLYVFLPLLAIYTLLKLVVRLKKFIRNKGNSKLKIAFFHPYCNSAGGG
EKVLWCLVYSLLNCVAYRENFELVIYTGDQVSGEDILKKATDRFNINVLELKDKIQFIRV
SGRKLLEPFRVATMILQAIGTMIYTFKCLLKYQPDIFFDSTGFAFSYIVVKKFLGCKVVS
YTHYPFISSDMIQKVIRNEQSFNNRGFIAQSGLFSNIKFFYYLILTKMYKFMGNYVDMTF
TNSTWTDDHIRSLWAPCRQVETITESVKLYPPCNVTSLLELEKNQENSTVQIMSFAQFRP
EKDHMMQIRVFERVLSRLTDEEKHKLQFRVVGSVRNDDDEQLLSNLKKEVEQRHLSDKIQ
FIKNPSFKDILKIFEQSDIGLHTMKDEHFGIAVVEMMAGGLITIAHKSAGPLKDIIQNEN
FGFLCENEDEYVEATLKAVQMPKEVKQELVSNSRQKAQEFSEDMFYIKSAAHFENFLEYF
NLVKKV

>TTHERM_00666220(gene)
ATGGCCTCATTTATTTTTAAAATTTTGATTATCAGCTTTTTATATGTATTTCTTCCTCTA
TTGGCTATTTATACTTTACTAAAGCTTGTAGTCAGGTTAAAAAAGTTTATTAGAAATAAA
GGGAATTCAAAATTGAAAATAGCATTTTTCCATCCTTATTGGTAATTAACACAATTCAAA
TCAAAGATTTTTTGTTTTTACAATGATTTTTCCTCAAACAGCAATTCAGCAGGAGGCGGA
GAAAAAGTTCTATGGTGTTTGGTTTATTCACTTTTAAATTGTGTAGCATATAGGGAAAAT
TTTGAACTGGTTATATACACAGGTATGTTAATATAGTCAAATCTATTTTATTCAATTATT
AATTGATTTAAAGGAGATTAAGTTAGTGGAGAGGATATTTTAAAGAAAGCAACTGACAGG
TTTAATATTAATGTTCTTGAGCTTAAAGATAAGATTTAATTTATCAGGGTTTCAGGTAGA
AAACTGCTCGAACCTTTTAGAGTAGCTACTATGATCCTTTAAGCTATTGGAACAATGATT
TATACTTTTAAATGTCTGCTTAAATACCAACCTGATATTTTCTTTGATTCCACAGGTTTT
GCCTTTTCCTATATTGTTGTTAAAAAGTTTTTAGGATGTAAGGTTGTCTCATACACTCAC
TATCCATTTATAAGCTCAGATATGATTTAAAAAGTCATTAGAAATGAATAATCTTTTAAT
AATAGAGGCTTTATTGCATAATCTGGACTCTTTTCTAATATTAAGTTTTTCTACTATTTG
ATATTAACAAAAATGTACAAATTCATGGGAAATTATGTAGATATGACTTTCACTAATTCA
ACATGGACAGATGATCATATTAGAAGTTTGTGGGCTCCTTGTCGTTAAGTCGAAACTATT
ACAGAATCAGTGAAATTGTAAATTAAATTGAAACAAAATCTATTTTTATGAAATAATAGA
AATTATGTTTATTAAAAGATATCCACCATGTAATGTTACTTCTTTACTTGAGTTAGAAAA
GAATTAAGAAAATTCAACTGTACAAATTATGTCTTTCGCCTAATTCCGCCCTGAAAAAGA
CCACATGATGCAAATCAGAGTTTTTGAAAGAGTGCTTTCGAGATTAACAGATGAAGAAAA
GCATAAACTATAATTCGTAATACCTTAAATAAAAATAAATATTCTAATTACTTGTTTTAA
CATAAAAAATAGAGAGTAGTTGGATCTGTGAGAAACGATGATGACGAGTAGTTGTTAAGC
AATCTCAAAAAAGAAGTTGAATAAAGACATCTTAGTGATAAAATTTAATTTATCAAAAAT
CCATCTTTCAAAGATATTTTGAAAATATTTGAGCAAAGTGATATTGGATTGCACACTATG
AAAGATGAGCACTTTGGAATTGCAGTCGTCGAAATGATGGTAGATTTTTATTTGAAATAT
AGAGAAAATTTTAATAGAGAATTTTAATGTAAATAAGGCTGGAGGATTAATTACGATAGC
ACATAAGAGCGCTGGCCCTTTGAAAGATATTATTTAAAATGAAAATTTCGGGTTTTTGTG
TGAAAATGAAGATGAATATGTTGAAGCAACTTTAAAAGCTGTTTAAATGTAAAATAATTT
TTATTTAATTGTTTTAATAATAATTTTTTTTAATAGGCCAAAAGAAGTCAAATAGGAGTT
AGTAAGTAATTCTAGACAAAAAGCTTAAGAATTTAGTGAAGATATGTTTTACATTAAAAG
TGCTGCTCATTTCGAGAACTTTTTAGAATATTTTAATTTAGTTAAAAAGGTTTGA