HomeSACE0B05038g
Mannosyltransferase, involved in asparagine-linked glycosylation in the endoplasmic reticulum (ER); essential for viability, mutation is functionally complemented by human ortholog
Element type: CDS
Element length: 1350 nucleotides,
on sense strand of
Sace0B: 458866..460215.
Other names:
ALG1
YBR110W
Coding sequence: 450 codons.
Element length: 1350 nucleotides,
on sense strand of
Sace0B: 458866..460215.
Other names:
ALG1
YBR110W
Coding sequence: 450 codons.
Database cross references:
CYGD: YBR110w
EMBL: AAA66322.1
EMBL: CAA55613.1
EMBL: CAA85067.1
EMBL: J05416
EMBL: X78993
EMBL: Z35979
Ensembl: YBR110W
GeneID: 852407
GenomeReviews: Y13134_GR
HOGENOM: P16661
NMPDR: fig|4932.3.peg.368
Orthologs: strict determination not possible; homologs must be refined manually
CYGD: YBR110w
EMBL: AAA66322.1
EMBL: CAA55613.1
EMBL: CAA85067.1
EMBL: J05416
EMBL: X78993
EMBL: Z35979
Ensembl: YBR110W
GeneID: 852407
GenomeReviews: Y13134_GR
HOGENOM: P16661
NMPDR: fig|4932.3.peg.368
Homologs and Orthologs
Homologs in protein families: GL3R2097 GL3R2097.N1Orthologs: strict determination not possible; homologs must be refined manually
Protein SACE0B05038p 
Protein domain map
Database cross references:
BioCyc: MetaCyc:MON-7182
DIP: DIP:7371N
GermOnline: YBR110W
InterPro: IPR001296
KEGG: sce:YBR110W
LinkHub: P16661
PIR: A35762
PeptideAtlas: P16661
Pfam: PF00534
RefSeq: NP_009668.1
SGD: S000000314
UniProtKB/Swiss-Prot: P16661
UniprotKB: ALG1_YEAST
BioCyc: MetaCyc:MON-7182
DIP: DIP:7371N
GermOnline: YBR110W
InterPro: IPR001296
KEGG: sce:YBR110W
LinkHub: P16661
PIR: A35762
PeptideAtlas: P16661
Pfam: PF00534
RefSeq: NP_009668.1
SGD: S000000314
UniProtKB/Swiss-Prot: P16661
UniprotKB: ALG1_YEAST
Gene Ontology terms
| GO:0019187 | beta-1,4-mannosyltransferase activity |
| GO:0006490 | oligosaccharide-lipid intermediate assembly |
| GO:0005783 | endoplasmic reticulum |
Sequence data
Nucleotide sequence
>SACE0B05038g.nt GAATGGTAAGGGTAAGATAGCGGGAGCAAAAAATCACAAGGATGCACCTATTTAGATAAC AAAGCAGCGAATTGTTGAATGTTGATCTCGCCTGATCCATCACTAACCTCTCTTAGCATA TCATCTACTTCGGCATCAGTCAATTTTTCACCAATGGATGTTAGCACGTGTTTCAACTCA GCGGCGGAGATTAAACCATCACCGTTCTTATCGAATACTTTAAAAGCTTCTAGTAGTTCT TGTTCAGAGTCATTTGATTTGAGTTGACGAGACATCAGAGCCAAAAATTCACTAAATTCG ATTTGATGGTTACCATCAACATCTATTTCGTTCATCAAATCATTTACTTCTGCTTCACTG GGCGAAAGACCCAATGACCTCATCACAGTGGCCAATTCACTTGATGAGATAGAGCCATTG TTATCTTTATCAAAGAGGGCAAAGGCTTCTTTGAATTCAGCAATTTGTTCTTCGGTAAGA TTGGAGGACATTGTACTTTTTTATTTGTATTAACTAAGCTCTTTCTTTGTAGTTCGATAG TTTCCGGTCAAGAATAAGATTTCTATCCAGTCAGAGTACCCTTGTGAGTTAACAAGATCT CTTGTTAAACACCTTCTTACGCGGGCAATAAAAAATTCTAAGAATAAAGTCATATCACAG TACACGAAAATATAAATACATCTTGAAAATGTCTCAAATTGGGTGGAAAAGAGGGTGCTT GAATTCATTAGGACATATGGTTGATGTTCTCAGGTTCTACTTATGTTTGCTTTGTCGATT TTTGCATGCTTTGACTGTGACTTTCCTGTCTGATATCTTTGTATGGCTTGTTGCTAAAAC AAGGTCAATCCAAGCAGTGATCATCTTGCACGTTGCTTCAATAGAACGCGCATATAGCAA TCATCAAGTTAATTGGTCATATATCTTTCAATCAGCAATTAGCAAAGCCATTAGAGGGTA ATTGTAACGGCATTTTAGGGGCTATAGTCAATTGGTGAAAATGTTTTTGGAAATTCCTCG GTGGTTACTTGCCTTAATAATATTATACCTTTCCATACCGTTAGTGGTTTATTATGTTAT ACCCTACTTGTTTTATGGCAACAAGTCGACCAAAAAAAGGATCATCATATTTGTGCTGGG TGATGTAGGACACTCTCCAAGGATATGCTATCACGCTATAAGTTTCAGTAAGTTAGGTTG GCAAGTCGAGCTATGCGGTTATGTGGAGGACACTCTACCCAAAATTATTTCCAGTGATCC AAATATCACCGTCCATCATATGTCAAACTTGAAAAGAAAGGGAGGCGGAACATCAGTTAT ATTTATGGTAAAGAAGGTGCTTTTTCAAGTTTTAAGTATTTTCAAATTACTTTGGGAATT GAGAGGAAGCGATTACATACTAGTTCAAAATCCACCGAGCATACCCATTCTTCCGATTGC TGTGCTATACAAGTTGACCGGTTGTAAACTAATTATTGATTGGCACAATCTAGCATATTC GATATTGCAACTAAAATTTAAAGGAAACTTTTACCATCCTTTAGTGTTGATATCTTACAT GGTAGAGATGATATTCAGCAAATTTGCTGATTATAACTTGACTGTTACTGAAGCAATGAG GAAATATTTAATTCAAAGCTTTCACTTGAATCCAAAGAGATGTGCTGTTCTCTACGACCG CCCGGCTTCCCAATTTCAACCTTTGGCAGGTGACATTTCTCGTCAAAAAGCCCTAACTAC CAAAGCCTTTATAAAGAATTATATTCGCGATGATTTTGATACAGAAAAAGGCGATAAAAT TATTGTGACTTCAACATCATTCACCCCTGATGAAGATATTGGTATTTTATTAGGTGCCCT AAAGATTTACGAAAACTCTTATGTCAAATTTGATTCAAGTTTGCCTAAGATCTTGTGTTT TATAACGGGTAAAGGACCACTAAAGGAGAAATATATGAAGCAAGTAGAAGAATATGACTG GAAGCGCTGTCAAATCGAATTTGTGTGGTTGTCAGCAGAGGATTACCCAAAGTTATTACA ATTATGCGATTACGGAGTTTCCCTGCATACTTCAAGTTCAGGGTTGGACCTGCCAATGAA AATTTTAGATATGTTTGGCTCAGGTCTTCCTGTTATTGCAATGAACTATCCAGTGCTTGA CGAATTAGTACAACACAATGTAAATGGGTTAAAATTTGTTGATAGAAGGGAGCTTCATGA ATCTCTGATTTTTGCTATGAAAGATGCTGATTTATACCAAAAATTGAAGAAAAATGTAAC GCAGGAAGCTGAGAACAGATGGCAATCAAATTGGGAACGAACAATGAGAGATTTGAAGCT AATTCATTGAGTCAATGGTAACTCAGCCTTTCTTTTTTGAAAATTACTATTTTCGACTCT TTTTTTATACAGTTACATAGTACTACCTCTAATACACATTCATGATTAACAATGTTTCAA ACAATATAAAGTCCCGATAACGACCTTTTGAAGTGGTGACGTTACCGCTCTTCGTTGACA AGATTCAAGAGGGCTGTCAGAATAACAGCTATCATGGTGGAAAGTAGGTGACCCTTTGAA CAAGGCAGCATATATCCATCGACTATCATGTTCCTAAAATGTTATCATAGCCGGCGTTAG AAGATGGCGC
Coding sequence
>SACE0B05038g.cds ATGTTTTTGGAAATTCCTCGGTGGTTACTTGCCTTAATAATATTATACCTTTCCATACCG TTAGTGGTTTATTATGTTATACCCTACTTGTTTTATGGCAACAAGTCGACCAAAAAAAGG ATCATCATATTTGTGCTGGGTGATGTAGGACACTCTCCAAGGATATGCTATCACGCTATA AGTTTCAGTAAGTTAGGTTGGCAAGTCGAGCTATGCGGTTATGTGGAGGACACTCTACCC AAAATTATTTCCAGTGATCCAAATATCACCGTCCATCATATGTCAAACTTGAAAAGAAAG GGAGGCGGAACATCAGTTATATTTATGGTAAAGAAGGTGCTTTTTCAAGTTTTAAGTATT TTCAAATTACTTTGGGAATTGAGAGGAAGCGATTACATACTAGTTCAAAATCCACCGAGC ATACCCATTCTTCCGATTGCTGTGCTATACAAGTTGACCGGTTGTAAACTAATTATTGAT TGGCACAATCTAGCATATTCGATATTGCAACTAAAATTTAAAGGAAACTTTTACCATCCT TTAGTGTTGATATCTTACATGGTAGAGATGATATTCAGCAAATTTGCTGATTATAACTTG ACTGTTACTGAAGCAATGAGGAAATATTTAATTCAAAGCTTTCACTTGAATCCAAAGAGA TGTGCTGTTCTCTACGACCGCCCGGCTTCCCAATTTCAACCTTTGGCAGGTGACATTTCT CGTCAAAAAGCCCTAACTACCAAAGCCTTTATAAAGAATTATATTCGCGATGATTTTGAT ACAGAAAAAGGCGATAAAATTATTGTGACTTCAACATCATTCACCCCTGATGAAGATATT GGTATTTTATTAGGTGCCCTAAAGATTTACGAAAACTCTTATGTCAAATTTGATTCAAGT TTGCCTAAGATCTTGTGTTTTATAACGGGTAAAGGACCACTAAAGGAGAAATATATGAAG CAAGTAGAAGAATATGACTGGAAGCGCTGTCAAATCGAATTTGTGTGGTTGTCAGCAGAG GATTACCCAAAGTTATTACAATTATGCGATTACGGAGTTTCCCTGCATACTTCAAGTTCA GGGTTGGACCTGCCAATGAAAATTTTAGATATGTTTGGCTCAGGTCTTCCTGTTATTGCA ATGAACTATCCAGTGCTTGACGAATTAGTACAACACAATGTAAATGGGTTAAAATTTGTT GATAGAAGGGAGCTTCATGAATCTCTGATTTTTGCTATGAAAGATGCTGATTTATACCAA AAATTGAAGAAAAATGTAACGCAGGAAGCTGAGAACAGATGGCAATCAAATTGGGAACGA ACAATGAGAGATTTGAAGCTAATTCATTGA
Predicted translation product
>SACE0B05038g.aa MFLEIPRWLLALIILYLSIPLVVYYVIPYLFYGNKSTKKRIIIFVLGDVGHSPRICYHAI SFSKLGWQVELCGYVEDTLPKIISSDPNITVHHMSNLKRKGGGTSVIFMVKKVLFQVLSI FKLLWELRGSDYILVQNPPSIPILPIAVLYKLTGCKLIIDWHNLAYSILQLKFKGNFYHP LVLISYMVEMIFSKFADYNLTVTEAMRKYLIQSFHLNPKRCAVLYDRPASQFQPLAGDIS RQKALTTKAFIKNYIRDDFDTEKGDKIIVTSTSFTPDEDIGILLGALKIYENSYVKFDSS LPKILCFITGKGPLKEKYMKQVEEYDWKRCQIEFVWLSAEDYPKLLQLCDYGVSLHTSSS GLDLPMKILDMFGSGLPVIAMNYPVLDELVQHNVNGLKFVDRRELHESLIFAMKDADLYQ KLKKNVTQEAENRWQSNWERTMRDLKLIH*
Legend and notes
Lengths
The length, in codons, of coding sequences includes the stop codon, hence it is one unit longer than the protein length.
Genomic environment map
Click on the symbol of an element or a family to go to its corresponding page. Colors in the lane "protein encoding genes" indicate strandedness: shades of blue for direct orientation, shades of red for reverse orientation. Colors in the lane "protein family" are arbitrarly chosen in such a way that different protein families have different colors in the map.
Protein domain map
Domains are extracted from SwissProt files. Click on the symbol of a domain to extract the domain sequence.
Genemark image and list
Genemark computation of protein-coding potential of DNA was made from 1000 nucleotides upstream the open reading frame to 300 nucleotides downstream. Thus the open reading frame protein-coding potential appears on frame #3.
Sequences
| Color | Nucleotide sequence and Coding sequence | Predicted translation product |
| RED | start and stop codons | Initial methionine and sequence end |
| BLUE | coding sequence | protein sequence |
| grey | non-coding sequence (upstream, downstream or intron) | |
| grey | donor and acceptor splicing sites |
URL: http://www.genolevures.org/elt/SACE/SACE0B05038p