KLTH0D13948g

highly similar to uniprot|P41940 Saccharomyces cerevisiae YDL055C PSA1 GDP-mannose pyrophosphorylase (mannose-1-phosphate guanyltransferase), synthesizes GDP-mannose from GTP and mannose-1-phosphate in cell wall biosynthesis

Genomic environment map

Element type: CDS
Element length: 1086 nucleotides,
on sense strand of
Klth0D: 1134916..1136001.
Other names:
KLTH-ORF10922
Coding sequence: 362 codons.

Computed results

None available yet

Homologs and Orthologs

Génolevures family GL3C0213
Consensus family of 21 members, scrltkgdy (2 3 2 2 2 2 2 3 3)
21-member family, phyletic pattern sczltkgdy, profile (2 3 2 2 2 2 2 3 3)
Proteins: SACE0D04136p SACE0D09856p CAGL0C01221p CAGL0D01034p CAGL0H04983p ZYRO0A09284p ZYRO0B07150p SAKL0H03454p SAKL0H13090p KLTH0D13948p KLTH0F07942p KLLA0A04235p KLLA0E05435p ERGO0F19822p ERGO0G06292p DEHA2E15862p DEHA2F01056p DEHA2G14322p YALI0B15708p YALI0C06490p YALI0E15125p
Search in: Génolevures Google

Génolevures family GL3C0213.F2
Five-SONS subgroup of a Consensus family
5-member family, phyletic pattern --zltkg--, profile (0 0 1 1 1 1 1 0 0)
Proteins: ZYRO0B07150p SAKL0H03454p KLTH0D13948p KLLA0E05435p ERGO0F19822p
Search in: Génolevures Google

Génolevures family GL3C0213.N1
Nine-SONS subgroup of a Consensus family
10-member family, phyletic pattern sczltkgdy, profile (1 2 1 1 1 1 1 1 1)
Proteins: SACE0D04136p CAGL0D01034p CAGL0H04983p ZYRO0B07150p SAKL0H03454p KLTH0D13948p KLLA0E05435p ERGO0F19822p DEHA2F01056p YALI0C06490p
Search in: Génolevures Google

Génolevures element ZYRO0B07150g
highly similar to uniprot\|P41940 Saccharomyces cerevisiae YDL055C PSA1 GDP-mannose pyrophosphorylase (mannose-1-phosphate guanyltransferase), synthesizes GDP-mannose from GTP and mannose-1-phosphate in cell wall biosynthesis
Other name: ZYRO-ORF7962
Orthologs: SAKL0H03454g KLTH0D13948g KLLA0E05435g ERGO0F19822g
Homologs: in families GL3C0213 GL3C0213.F2 GL3C0213.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element SAKL0H03454g
highly similar to uniprot\|P41940 Saccharomyces cerevisiae YDL055C PSA1 GDP-mannose pyrophosphorylase (mannose-1-phosphate guanyltransferase), synthesizes GDP-mannose from GTP and mannose-1-phosphate in cell wall biosynthesis
Other name: SAKL-ORF2267
Orthologs: ZYRO0B07150g KLTH0D13948g KLLA0E05435g ERGO0F19822g
Homologs: in families GL3C0213 GL3C0213.F2 GL3C0213.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element KLLA0E05435g
highly similar to uniprot\|P41940 Saccharomyces cerevisiae YDL055C PSA1 GDP-mannose pyrophosphorylase (mannose-1-phosphate guanyltransferase), synthesizes GDP-mannose from GTP and mannose-1-phosphate in cell wall biosynthesis
Other names: KLLA-ORF4500 KLLA0E05379g
Orthologs: ZYRO0B07150g SAKL0H03454g KLTH0D13948g ERGO0F19822g
Homologs: in families GL3C0213 GL3C0213.F2 GL3C0213.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element ERGO0F19822g
Syntenic homolog of Saccharomyces cerevisiae YDL055C (PSA1)
Other names: AFR599W AGOS_AFR599W
Orthologs: ZYRO0B07150g SAKL0H03454g KLTH0D13948g KLLA0E05435g
Homologs: in families GL3C0213 GL3C0213.F2 GL3C0213.N1
Search in: Génolevures EMBL Google by name Google by description

Homologs in protein families: GL3C0213 GL3C0213.F2 GL3C0213.N1
Orthologs by synteny: ZYRO0B07150g SAKL0H03454g KLLA0E05435g ERGO0F19822g

Protein KLTH0D13948p

highly similar to uniprot|P41940 Saccharomyces cerevisiae YDL055C PSA1 GDP-mannose pyrophosphorylase (mannose-1-phosphate guanyltransferase) synthesizes GDP- mannose from GTP and mannose-1-phosphate in cell wall biosynthesis required for normal cell wall structure

Protein domain map

Protein length: 361 amino acids
Protein family: GL3C0213

Computed results for KLTH0D13948p

Blastp Genolevures

Blastp Uniprot

Gene Ontology terms

None available yet

Sequence data

>KLTH0D13948g.nt
GTACCGCTTCATATCACGTGCAAGAGCTCCGAACCCCGTATCCAGTGACACGCCACTGCC
GCGGGCCACCGGTTACAGCGGTGCACCCACGACGGTCGAATCTGGCCCCACGCGACAAGC
ACCGCCGCTCTGCGCTATCGGGCGGCTCCACGGGTCTTCTCAGGCACGTGATGTAACCTT
AACCGTCCACCGTCTGCCACGACCGCCTCTAGCGCCGCCCCTGCTTGGCCGTTGCCGCTT
CCGGCGCAGAACCAACGTGCCCAGCCGCTGGTCTTCTGCGCGCTGCGCGCTAAACTCTAA
CACCTCGACACCCTAACACCCTGACAAGACCACGTGAGTGTTACCCTAGCGGCCTCCAAG
CACATCGCTGGCTCTCTTTCTTTTCGGCCGCCCGAGCGCTTATCCCGAACAAGGCTTGAT
ACTTCCTCTTTGGGAAGGCTCCCTCCTGTCGGGGAAGCCGCCTGCGTGGGACAGACGGTC
CAGACTTTTCCTGATCGGGCGCGGCGGCACAGAGAAGTCCGGGCGACGCGCATGTTTCAG
ACGCGAAAAACAAAGGTTTAAGTGCCGACGCACTTACGCGTGGCACTGGGAAGGAAAAAA
ATTTTCCACAGCTGGGCATGCAGAGACTAGCGCAAGAGCCAGCGCAGGAGCGAGCGTAGA
AGGCATGCATGCAAGGAGAACGCGAAAGCGCGAAGACATGCTGATCCAGCACGGCGCAGT
GTTTGGAGGTGTCCAAATTTTTGGTGTTTGTGTACGTGTTATGGCATGTTGTGATGTGCA
GCGCTGGAATTTGAACGTGTCCTCAAGAATTTGTTCCAGATGATACAGGATATATATATA
TCTGGCAAAGTGAAAAAATCAGCAGAAGTCGGCTGTGAACGTTTTTGGGCGATAAACAAA
ATAAAGAGATCCGAGACTAGATAGCTTCCCAGCACTCGCTAGCTCAGTATACCCAGTCTA
TCTTTTTTGACTCACACACATCTCTCGCGGTTCTTGCAGTATGAAAGGTCTAATTCTAGT
CGGTGGTTACGGTACCAGATTGAGACCCTTGACGTTGACGGTCCCTAAGCCTCTGGTCGA
GTTCGGCAACAGGCCCATGATCCTGCACCAGATCGAGGCGTTGGCGTCCGCGGGCGTGAC
GGACATCGTGTTGGCTGTCAACTACAGACCTGAGGTTATGGTCGAGACCCTCCAGAAGTA
CGAGAAGGAATACGGTGTCAACATCACATTCTCTGTGGAGACAGAGCCTTTGGGCACGGC
TGGTCCGTTGAAGCTTGCTGAGGAGGTGCTGAAGAAGGACAAGTCGCCATTCTTCGTGCT
GAACTCGGACGTCATTTGCGACTACCCTTTCAAGGAGCTCGCCGACTTCCACAAGGCCCA
CGGCGGGAAGGGTACCATCGTCGCCACCAAGGTCGACGAGCCCTCCAAGTACGGTGTCAT
CGTGCATGACATCGCCACCCCCAACTTGATCGACCGTTTCGTCGAGAAGCCAGTTGAATT
CGTCGGGAACAGAATCAACGCGGGTCTGTACATCCTGAACCCAGAGGTCATCGACCTGAT
CGACTTGAAGCCAACCTCCATCGAGAAGGAGACCTTCCCTATCTTGGTCGAGCAGAAGTC
CCTGTACTCCTTCGACTTGGAGGGCTACTGGATGGACGTCGGTCAGCCAAAGGACTTCTT
GTCCGGCTCCGTGCTGTACTTGAACTCCTTGTCCAAGAGATCTCCTCAGTCCATGGCCAA
GGGCGACAACATTGTTGGCAACGTCATCGTCGACCCAACCGCCAAGATCTCCGCCACCGC
CAAGATTGGCCCAGATGTCGTCATCGGCCCTAACGTCACCATCGGTGACGGTGTCAGAAT
CACCAGATCCGTGGTTCTATCCAAGTCTCACATCAAGGACCACGCTTTGGTCAAGTCTAC
CATTGTCGGCTGGAACTCCACTGTTGGTAAATGGGCTAGATTAGAGGGTGTTACTGTCTT
GGGTGACGACGTCGAGGTCAAGGACGAAATCTACGTGAACGGTGGTAAGGTCTTGCCTCA
CAAGTCCATCTCCGCTAACGTTCCAAAGGAAGCTATTATTATGTAAGAGCTTTTTCTCTA
CCAAGATTCGTTTAATGGGAAACTTGACTATAATGAAAGCTTAAGTTTTGCCACTTCAAT
ATGTATTGAATTTGTGTTTTAAAGTAATGAATTATAATTGGCAATTCTTTTCGTAATCCG
ATTAATTATAGACTTATGGTCGTTTTGGCGCGCCTATAGGCTTTTACGCAAACTTTGTAA
AATAACATCCAAGCAACTATCCACTTCGTCGACTTCCATTTCAGTTCCTTGCGATATCAT
TTTTCGGTATTTGTGGATCTTGGAGTTGTCGCTTATGACTCGCAAG

>KLTH0D13948g.cds
ATGAAAGGTCTAATTCTAGTCGGTGGTTACGGTACCAGATTGAGACCCTTGACGTTGACG
GTCCCTAAGCCTCTGGTCGAGTTCGGCAACAGGCCCATGATCCTGCACCAGATCGAGGCG
TTGGCGTCCGCGGGCGTGACGGACATCGTGTTGGCTGTCAACTACAGACCTGAGGTTATG
GTCGAGACCCTCCAGAAGTACGAGAAGGAATACGGTGTCAACATCACATTCTCTGTGGAG
ACAGAGCCTTTGGGCACGGCTGGTCCGTTGAAGCTTGCTGAGGAGGTGCTGAAGAAGGAC
AAGTCGCCATTCTTCGTGCTGAACTCGGACGTCATTTGCGACTACCCTTTCAAGGAGCTC
GCCGACTTCCACAAGGCCCACGGCGGGAAGGGTACCATCGTCGCCACCAAGGTCGACGAG
CCCTCCAAGTACGGTGTCATCGTGCATGACATCGCCACCCCCAACTTGATCGACCGTTTC
GTCGAGAAGCCAGTTGAATTCGTCGGGAACAGAATCAACGCGGGTCTGTACATCCTGAAC
CCAGAGGTCATCGACCTGATCGACTTGAAGCCAACCTCCATCGAGAAGGAGACCTTCCCT
ATCTTGGTCGAGCAGAAGTCCCTGTACTCCTTCGACTTGGAGGGCTACTGGATGGACGTC
GGTCAGCCAAAGGACTTCTTGTCCGGCTCCGTGCTGTACTTGAACTCCTTGTCCAAGAGA
TCTCCTCAGTCCATGGCCAAGGGCGACAACATTGTTGGCAACGTCATCGTCGACCCAACC
GCCAAGATCTCCGCCACCGCCAAGATTGGCCCAGATGTCGTCATCGGCCCTAACGTCACC
ATCGGTGACGGTGTCAGAATCACCAGATCCGTGGTTCTATCCAAGTCTCACATCAAGGAC
CACGCTTTGGTCAAGTCTACCATTGTCGGCTGGAACTCCACTGTTGGTAAATGGGCTAGA
TTAGAGGGTGTTACTGTCTTGGGTGACGACGTCGAGGTCAAGGACGAAATCTACGTGAAC
GGTGGTAAGGTCTTGCCTCACAAGTCCATCTCCGCTAACGTTCCAAAGGAAGCTATTATT
ATGTAA

>KLTH0D13948g.aa
MKGLILVGGYGTRLRPLTLTVPKPLVEFGNRPMILHQIEALASAGVTDIVLAVNYRPEVM
VETLQKYEKEYGVNITFSVETEPLGTAGPLKLAEEVLKKDKSPFFVLNSDVICDYPFKEL
ADFHKAHGGKGTIVATKVDEPSKYGVIVHDIATPNLIDRFVEKPVEFVGNRINAGLYILN
PEVIDLIDLKPTSIEKETFPILVEQKSLYSFDLEGYWMDVGQPKDFLSGSVLYLNSLSKR
SPQSMAKGDNIVGNVIVDPTAKISATAKIGPDVVIGPNVTIGDGVRITRSVVLSKSHIKD
HALVKSTIVGWNSTVGKWARLEGVTVLGDDVEVKDEIYVNGGKVLPHKSISANVPKEAII
M*

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

Genetic Elements

KLTH0D13948g

KLTH0D13948g

Genomic environment map

Computed results

Homologs and Orthologs

Protein KLTH0D13948p

Protein domain map

Computed results for KLTH0D13948p

Gene Ontology terms

Sequence data

Nucleotide sequence

Coding sequence

Predicted translation product

Legend and notes