Identifiers and Description

Gene Model Identifier

TTHERM_00954200

Standard Name

ALG1 (predicted beta-1,4-mannosyltransferase Alg1)

Aliases

PreTt04996 | 176.m00069

Description

Mannosyltransferase, involved in asparagine-linked glycosylation in the endoplasmic reticulum (ER)

Genome Browser (Macronucleus)

Genome Browser (Micronucleus)

Gene Ontology Annotations

No Data fetched for Gene Ontology Annotations

Domains

• ( PF00534 ) glycosyl transferase, group 1 family
• ( TIGR01609 ) Plasmodium falciparum uncharacterized protein TIGR01609

Gene Expression Profile

• Tetrahymena Functional Genomics Database:

Change in Gene Expression

TMHMM

TMHMM

Signal Peptide

Signal Peptide Present?: No
Presense Probability: 10.9%

TetraMine Data

TTHERM_00954200

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_13503.1	9.997093137033517e-262	chitobiosyldiphosphodolichol b eta-mannosyltransferase (1987 aa)
DictyBase	DDB_G0286011	1.99970314379378e-94	alg1 on chromosome: 4 position 3960039 to 3961587
WormBase	WBGene00020820	1.0004883026569571e-88	status:Confirmed UniProt:Q22 797 protein_id:CCD63217.1
Oxytricha	Contig11090.0.g28	1.0003926095686843e-81	Glycosyl transferases group 1
SGD	YBR110W	6.002203762674495e-72	ALG1 Mannosyltransferase, invo lved in asparagine-linked glyc osylation in the endoplasmic r eticulum (ER); essential for v iability, mutation is function ally complemented by human ort holog

General Information

No Data fetched for General Information

Associated Literature

No Data fetched for Associated Literature

Sequences

>TTHERM_00954200(coding)
ATGAGCTAAAAGCAAGTAGCATCTGTCATCGTTTTTGGCGATATTGGTAGATCACCAAGA
ATGAAAAATCATTCAACATAATTGGCTTAAGCTGGTTATGAAGTTTATTTTGTAGGTTAA
TTAGAAAATTAGGTGCATAAAGTAATTAGAGACAATCCAAATATAAAAATTATTGACATA
TCTTCAAATCTCGTCAACAAACTTAAAAAATTACCAAGATTCTTATATTTGCTTTATGCT
GCTCTTAGAATTATAATTTAAATATTTTAGCTCTTTTACATCTATCTTTTCAAAATGCCT
AAACCTGAATTTGTTATAATACAAAATCCTCCTTCAATTCCTGTACTTTCTTCGTTGGCC
ATAATTTGTTTCATGAGAAGAATCAAAATGATTGTAGATTTTCATAATTATGGATATACT
ATTTTAGCATTAGGTTTGAAACAAAAAATTATTTTAAAACTGGCTACATTCTATGAAAAA
TATTTTGCTAAAAAATGTGATTTCGCCTTTTGCGTTTCTGATGCTATGAAAGCCGATTTG
AAAAAAAATTGGAATATAGAAGCAACTACCCTTTATGATAAAGCTAATACTGAGTTATTT
GGGCCCATCTCTCTTCAGGAATCCCATAAGCTATTCCTTGAACTTGGTTTAAGCATTAAT
TAAAAAGAAACACTTTTCACTGAAGAAGTGAATGGAAAAATAATAAAAAAGTAGTAAAGA
CCTCTACTTTTAGTTAGCAGTACTTCTTGGACTAAAGATGAAGATTTCAGTATTTTATTA
GATGCTATGCAATCATATGAAACTGAAAAAGAAGTAAATAAGCAAAACTCTTTGTATCCA
AAGCTACACCTTCTTATCACAGGAAAAGGACCAGAAAAAGAAAGATACGAACAAATAATT
GAAGAAAGGAAGAAAAGTTGGAAAAATATATAAATATAAACAGTTTGGCTAAAAGCAGAA
GACTACCCTAAATTGTTGGCTAGTGCAGATGTAGGAATATGTCTTCACTACTCTTCATCT
GGTCTTGATCTACCGATGAAAGTAGTAGATATGCTTGGATCTAACTTACCTGTTTTTGCA
ATAAATTACTAGTGTATTAATGAGCTAGTAGTTAATCAAAAAAATGGTTTTATTTTTGAC
AACACTTAAGGGTTACTCAACTTGTTTTTGAAATACTTCAAAATGCATCCAGAAAATGAA
TTAACATTTGAAAACTTGAGAAAAAGTGCTTCTAAATTTAGAGAGAGTACTTGGGAAAAA
GAATGGCAATAAAAAGTGTTACCTATTTTAAATTAGATTAAACAATCTAAAATTAATAAA
AAAAAATAATGA

>TTHERM_00954200(protein)
MSQKQVASVIVFGDIGRSPRMKNHSTQLAQAGYEVYFVGQLENQVHKVIRDNPNIKIIDI
SSNLVNKLKKLPRFLYLLYAALRIIIQIFQLFYIYLFKMPKPEFVIIQNPPSIPVLSSLA
IICFMRRIKMIVDFHNYGYTILALGLKQKIILKLATFYEKYFAKKCDFAFCVSDAMKADL
KKNWNIEATTLYDKANTELFGPISLQESHKLFLELGLSINQKETLFTEEVNGKIIKKQQR
PLLLVSSTSWTKDEDFSILLDAMQSYETEKEVNKQNSLYPKLHLLITGKGPEKERYEQII
EERKKSWKNIQIQTVWLKAEDYPKLLASADVGICLHYSSSGLDLPMKVVDMLGSNLPVFA
INYQCINELVVNQKNGFIFDNTQGLLNLFLKYFKMHPENELTFENLRKSASKFRESTWEK
EWQQKVLPILNQIKQSKINKKKQ

>TTHERM_00954200(gene)
ATGAGCTAAAAGCAAGTAGCATCTGTCATCGTTTTTGGCGATATTGGTAGATCACCAAGA
ATGAAAAATCATTCAACATAATTGGCTTAAGCTGGTTATGAAGTTTATTTTGTAGGTTAA
TTAGGTAAATTAAAAAGATAGATAAGCATTTATAATTTAAAATTAATTTGTAGAAAATTA
GGTGCATAAAGTAATTAGAGACAATCCAAATATAAAAATTATTGACATATCTTCAAATCT
CGTCAACAAACTTAAAAAATTACCAAGATTCTTATATTTGCTTTATGCTGCTCTTAGAAT
TATAATTTAAATATTTTAGCTCTTTTACATCTATCTTTTCAAAATGCCTAAACCTGAATT
TGTTATAATACAAGTAAATAATTAGCTTTTAAACTAAAATAATTTATAAGAATGCATACA
GTAAATGTAAATTGATAAAACATACCATCAAAAATTCATTCATTCGTTAAAAAATTATAA
TTTAAGTTTTTTAAAGAGATATTTTAGATGGTTTCTTTTATTTTTTAATAAGAATGAATT
AAACAAAATAAATAGAGTTTTTTTGATCTAATTTTATAATGCTAAAATAAATTGAATGAA
TGTAAATTGATTGTTAATATTTAAATAATAGAATCCTCCTTCAATTCCTGTACTTTCTTC
GTTGGCCATAATTTGTTTCATGAGAAGAATCAAAATGATTGTAGATTTTCATAATTATGG
ATATACTATTTTAGCATTAGGTTTGAAACAAAAAATTATTTTAAAACTGGCTACATTCTA
TGAAAAATATTTTGCTAAAAAATGTGATTTCGCCTTTTGCGTTTCTGATGCTATGAAAGC
CGATTTGAAAAAAAATTGGAATATAGAAGCAACTACCCTTTATGATAAAGCTAATACTGA
GTTATTTGGGCCCATCTCTCTTCAGGAATCCCATAAGCTATTCCTTGAACTTGGTTTAAG
CATTAATTAAAAAGAAACACTTTTCACTGAAGAAGTGAATGGAAAAATAATAAAAAAGTA
GTAAAGACCTCTACTTTTAGTTAGCAGTACTTCTTGGACTAAAGATGAAGTATTTATTTA
TTTCAATTTTATATTAAAAAATAAAATTGTATTATTATTATTATAAAAAATTCAAGGATT
TCAGTATTTTATTAGATGCTATGCAATCATATGAAACTGAAAAAGAAGTAAATAAGCAAA
ACTCTTTGTATCCAAAGCTACACCTTCTTATCACAGGTAAACAAATATTTTCAAATTTAA
TTTAAATAAATAATTTTTTTAAAATAACTTTTATTATATCAAATAACATTTAAAATATAT
CTAATTTATTTCATCTAAATCATCAAATAATTTTATTTATTATTGATTGATTTATTTATT
TTTTTAATATTTTAGGAAAAGGACCAGAAAAAGAAAGATACGAACAAATAATTGAAGAAA
GGAAGAAAAGTTGGAAAAATATATAAATATAAACAGTTTGGCTAAAAGCAGAAGACTACC
CTAAATTGTTGGCTAGTGCAGATGTAGGAATATGTCTTCACTACTCTTCATCTGGTCTTG
ATCTACCGATGAAAGTAGTAGATATGCTTGGATCTAACTTACCTGTTTTTGCAATAAATT
ACTAGTGGTAATTAAATATTTTAAAAGTCTTGAAAAAGAAAGATAACTAACTAACTATAT
TATTAAATCAAAAAGTATTAATGAGCTAGTAGTTAATCAAAAAAATGGTTTTATTTTTGA
CAACACTTAAGGGTTACTCAACTTGTTTTTGGTAAATTTATTAATAAACAAACAAACAAA
CAAACAAACAAACAAACAAACAAACAAACAACATATATACATATTGATTTCTCATAAAAT
CTCATTCGTTTTTTTGTTGATTTTTAATACTAGAAATACTTCAAAATGCATCCAGAAAAT
GAATTAACATTTGAAAACTTGAGAAAAAGTGCTTCTAAATTTAGAGAGAGTACTTGGGAA
AAAGGTATAAATAAATTAAAAAAAATAATTAATTAATTTTACAATAATTTAAATTCTTTT
TATAAAACATTAAAGAATGGCAATAAAAAGTGTTACCTATTTTAAATTAGATTAAACAAT
CTAAAATTAATAAAAAAAAATAATGA