KLLA0F19756g

highly similar to uniprot|Q12452 Saccharomyces cerevisiae YLR100W ERG27 3-keto sterol reductase, catalyzes the last of three steps required to remove two C-4 methyl groups from an intermediate in ergosterol biosynthesis

Genomic environment map

Element type: CDS
Element length: 1041 nucleotides,
on sense strand of
Klla0F: 1830489..1831529.
Other names:
KLLA-ORF773
Coding sequence: 347 codons.

Database cross references:
EMBL: CR382126
GeneID: 2895502
HOGENOM: Q6CJC2

Computed results

None available yet

Homologs and Orthologs

Génolevures family GL3R2390
Robust family of 9 members, scrltkgdy (1 1 1 1 1 1 1 1 1)
9-member family, phyletic pattern sczltkgdy, profile (1 1 1 1 1 1 1 1 1)
Proteins: SACE0L03674p CAGL0M11506p ZYRO0D06534p SAKL0H16368p KLTH0G13046p KLLA0F19756p ERGO0G09878p DEHA2E20130p YALI0B17644p
Search in: Génolevures Google

Génolevures family GL3R2390.F1
Five-SONS subgroup of a Robust family
5-member family, phyletic pattern --zltkg--, profile (0 0 1 1 1 1 1 0 0)
Proteins: ZYRO0D06534p SAKL0H16368p KLTH0G13046p KLLA0F19756p ERGO0G09878p
Search in: Génolevures Google

Génolevures family GL3R2390.N1
Nine-SONS subgroup of a Robust family
9-member family, phyletic pattern sczltkgdy, profile (1 1 1 1 1 1 1 1 1)
Proteins: SACE0L03674p CAGL0M11506p ZYRO0D06534p SAKL0H16368p KLTH0G13046p KLLA0F19756p ERGO0G09878p DEHA2E20130p YALI0B17644p
Search in: Génolevures Google

Génolevures element ZYRO0D06534g
similar to uniprot\|Q12452 Saccharomyces cerevisiae YLR100W ERG27 3-keto sterol reductase, catalyzes the last of three steps required to remove two C-4 methyl groups from an intermediate in ergosterol biosynthesis
Other name: ZYRO.mRNA.119AT.m
Orthologs: SAKL0H16368g KLTH0G13046g KLLA0F19756g ERGO0G09878g
Homologs: in families GL3R2390 GL3R2390.F1 GL3R2390.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element SAKL0H16368g
highly similar to uniprot\|Q12452 Saccharomyces cerevisiae YLR100W ERG27 3-keto sterol reductase, catalyzes the last of three steps required to remove two C-4 methyl groups from an intermediate in ergosterol biosynthesis
Other name: SAKL.mRNA.118AT.m
Orthologs: ZYRO0D06534g KLTH0G13046g KLLA0F19756g ERGO0G09878g
Homologs: in families GL3R2390 GL3R2390.F1 GL3R2390.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element KLTH0G13046g
similar to uniprot\|Q12452 Saccharomyces cerevisiae YLR100W ERG27 3-keto sterol reductase, catalyzes the last of three steps required to remove two C-4 methyl groups from an intermediate in ergosterol biosynthesis
Other name: KLTH.mRNA.117AT.m
Orthologs: ZYRO0D06534g SAKL0H16368g KLLA0F19756g ERGO0G09878g
Homologs: in families GL3R2390 GL3R2390.F1 GL3R2390.N1
Search in: Génolevures EMBL Google by name Google by description

Génolevures element ERGO0G09878g
Syntenic homolog of Saccharomyces cerevisiae YLR100W (ERG27)
Other names: AGOS_AGR068W AGR068W
Orthologs: ZYRO0D06534g SAKL0H16368g KLTH0G13046g KLLA0F19756g
Homologs: in families GL3R2390 GL3R2390.F1 GL3R2390.N1
Search in: Génolevures EMBL Google by name Google by description

Homologs in protein families: GL3R2390 GL3R2390.F1 GL3R2390.N1
Orthologs by synteny: ZYRO0D06534g SAKL0H16368g KLTH0G13046g ERGO0G09878g

Protein KLLA0F19756p

highly similar to uniprot|Q12452 Saccharomyces cerevisiae YLR100W ERG27 3-keto sterol reductase catalyzes the last of three steps required to remove two C-4 methyl groups from an intermediate in ergosterol biosynthesis mutants are sterol auxotrophs

Protein domain map

Protein length: 346 amino acids
Protein family: GL3R2390

Database cross references:
Gene3D: G3DSA:3.40.50.720
InterPro: IPR002198
InterPro: IPR002347
InterPro: IPR016040
KEGG: kla:KLLA0F19756g
PANTHER: PTHR19410
PRINTS: PR00081
RefSeq: XP_455967.1
UniProtKB/Swiss-Prot: Q6CJC2
UniprotKB: ERG27_KLULA

Computed results for KLLA0F19756p

Blastp Genolevures

Blastp Uniprot

Gene Ontology terms

None available yet

Sequence data

>KLLA0F19756g.nt
CCTACTTTATCAGAAAACATCATTACATTTTATAACAATGAATACGAGCCATCGCCACAT
GTTCATTCCACTCACGGATCGTTCTACTCTAATGACACAGGTACACAAAATGCGAGAATG
AGATATGGCACCAATCAAGCCTCATTGAACGATGGCTCTTCTATCATATCTGATGATTAT
TTCCATCAAAATCATCATGCTAACGGAAACAAGAACGGGAAATCCCATAATAATATGAAC
AATGGGTATGTAGAAACTGAAGCGACAATTCCCGATATCAAGATCAAACTAATTCATGAC
GATGTTTTGGATCTTGCCTACCAAGGTCTGGAACCTTCGTTGGTAGATCCGAAATGTGAA
ACCAAGTTCAGACAATATAGAACGCAATATGCAGAGATACTTTATATATGGGGGTTGCCT
ATGGATAGGGCCGAGTTGTTGAAGTTTAATGTAAATTTAAACACAGAACCTGAATACTTG
CATGGGATCGAACAAGATTCGGGATTGGATATTTACAAAGGTGTATCGAATAGGTGGATT
GAATCTAACCACGGACACACTCAACAAAACTGTAGCTACTGTGGCCTCAAAGCCGGTAGA
TTGGTGTTCGTATGCGGTAATTGTCAGCACGTGACTCACAGGACTTGCGCAGAAAAATGG
TGGAAAATTGGCGATGAGTGCCCCTCTGGGTGTAGTTGCGACTGTATAAAGAACTTCGAT
GTCAGCGAACCACTTATATAAAATGCATCTTATGTAGCAGTGTCTTATCGTTCATCTTCT
TTTAACCATCAGTCGTTGATACACCTTCTTTCCTGGGTTTTAATGATATTTAAACGAGAT
GATAAACCTTCCGGAATTCTGAAAGAACTAGAAAACCAAATAGATGGTGATGATGATGCG
ACACAAGCGAAAAATTCCAGGCTACAGGAACCGTTCCCGTCCATTAGCACTGATTTACGT
ATACTAGTAGCTATTGAGTACCAATAATTTCAAAACCAGCATGTCTTCGTCAAAGGTAGC
AGTGGTCACTGGTACAAACAGTAATTTAGGTTTGAATATCGTATATCGGTTGATTGAGAG
AAGCGAGCCAGAGGACAACCTCACGATAGTTGTGACATCAAGAACATTACCTAGGGTTCG
TGAATGCATTGATTTAATTAAGGCTTTTGTCAATACCATTAATAGGACTGGCTCTGTAGA
TTATGATTACCTGCTGGTTGATTTTACCAACATGATCAGCATTCTTGATGCCCACTACAG
CTTGTCAAAAAGATACGATCACATCAATTACTTCTTTGTGAATGCAGCTCAAGGAGTTTA
CTCAGGGATTGACTGGTTGGGTGCAGTGAAAGAGGTCTTCTCCAGTCCACTGGAGGCCGT
CACAAACCCAACATATAAAATTCAACGAGTGGGAGTCAAATCAAAGGACGGGATGGGGCT
TGTGTTCCAGGCAAACGTGTTTGGACCATATTATCTAATTCAAAAACTGCTTCCGTTACT
CCAGGCTGGACAAGGTACTGTCGTTTGGGTCTCTAGTATCATGTCCGCTCCTAAATATTT
GTCTTTACAAGATATTCAGCTATTGGAATCCGATGTTTCTTATGAAGGTTCAAAAAGATT
AGTTGATTTGTTACATTCTGCAACATATAAAGAGATGAAAAAGCTCGGAATCCGCCAATA
TCTCACCCATCCTGGTATTTTTACCAGTCTCTCATTTTTCCAATATTTGAATGTTTTCAC
CTACTATGGTATGCTCTTCTTATTCTATCTGGCCAGATGGATTGGTTCACCTTGGCACAA
CATACAAGGATACAAAGCAGCCAATGCTCCTGTATATGTAGCAACAATGGCTAATCCGCA
CTTTGAGAAGGAGCAAATGAAATACGGATCGGCAACTTTTAGAGACGGTTTAGAATATAT
TAAAACTGATGAAGTTGATACAACCGGCTGTGAAGATGTGTATAAATACATCTCCAATTT
GAAACTGCAATGGGATGAAAAGTTAAAAGACCAGATTAAGCCTACAAGGATACCATTATA
AATTTTACATAATTCAAATAAATCGTGTAGAATTATTGTTTATCGTAATGTTGCGTGCGA
GTTGCTTATAAGTTACATATTAGATGAAGGATCATTTGAAAGTAGTCACATACTATTTGA
AAGTGAGGACTTAAGGATTCGAAAATACATATACAGACTTTAGAGCTGAAGTACAGTAAA
TCTTGAAATATCGCTGTATTATCTCTTTAATGCCATCAAAGAAGCAACGAATGTCAATAT
CAATCTCGAACGGACTTCGTTGATGTCTTCTGGAACCAACCAGATTAGAGCTCCTAACTT
T

>KLLA0F19756g.cds
ATGTCTTCGTCAAAGGTAGCAGTGGTCACTGGTACAAACAGTAATTTAGGTTTGAATATC
GTATATCGGTTGATTGAGAGAAGCGAGCCAGAGGACAACCTCACGATAGTTGTGACATCA
AGAACATTACCTAGGGTTCGTGAATGCATTGATTTAATTAAGGCTTTTGTCAATACCATT
AATAGGACTGGCTCTGTAGATTATGATTACCTGCTGGTTGATTTTACCAACATGATCAGC
ATTCTTGATGCCCACTACAGCTTGTCAAAAAGATACGATCACATCAATTACTTCTTTGTG
AATGCAGCTCAAGGAGTTTACTCAGGGATTGACTGGTTGGGTGCAGTGAAAGAGGTCTTC
TCCAGTCCACTGGAGGCCGTCACAAACCCAACATATAAAATTCAACGAGTGGGAGTCAAA
TCAAAGGACGGGATGGGGCTTGTGTTCCAGGCAAACGTGTTTGGACCATATTATCTAATT
CAAAAACTGCTTCCGTTACTCCAGGCTGGACAAGGTACTGTCGTTTGGGTCTCTAGTATC
ATGTCCGCTCCTAAATATTTGTCTTTACAAGATATTCAGCTATTGGAATCCGATGTTTCT
TATGAAGGTTCAAAAAGATTAGTTGATTTGTTACATTCTGCAACATATAAAGAGATGAAA
AAGCTCGGAATCCGCCAATATCTCACCCATCCTGGTATTTTTACCAGTCTCTCATTTTTC
CAATATTTGAATGTTTTCACCTACTATGGTATGCTCTTCTTATTCTATCTGGCCAGATGG
ATTGGTTCACCTTGGCACAACATACAAGGATACAAAGCAGCCAATGCTCCTGTATATGTA
GCAACAATGGCTAATCCGCACTTTGAGAAGGAGCAAATGAAATACGGATCGGCAACTTTT
AGAGACGGTTTAGAATATATTAAAACTGATGAAGTTGATACAACCGGCTGTGAAGATGTG
TATAAATACATCTCCAATTTGAAACTGCAATGGGATGAAAAGTTAAAAGACCAGATTAAG
CCTACAAGGATACCATTATAA

>KLLA0F19756g.aa
MSSSKVAVVTGTNSNLGLNIVYRLIERSEPEDNLTIVVTSRTLPRVRECIDLIKAFVNTI
NRTGSVDYDYLLVDFTNMISILDAHYSLSKRYDHINYFFVNAAQGVYSGIDWLGAVKEVF
SSPLEAVTNPTYKIQRVGVKSKDGMGLVFQANVFGPYYLIQKLLPLLQAGQGTVVWVSSI
MSAPKYLSLQDIQLLESDVSYEGSKRLVDLLHSATYKEMKKLGIRQYLTHPGIFTSLSFF
QYLNVFTYYGMLFLFYLARWIGSPWHNIQGYKAANAPVYVATMANPHFEKEQMKYGSATF
RDGLEYIKTDEVDTTGCEDVYKYISNLKLQWDEKLKDQIKPTRIPL*

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

KLLA0F19756g

KLLA0F19756g

Genomic environment map

Computed results

Homologs and Orthologs

Protein KLLA0F19756p

Protein domain map

Computed results for KLLA0F19756p

Gene Ontology terms

Sequence data

Nucleotide sequence

Coding sequence

Predicted translation product

Legend and notes