DEHA2C13684g

highly similar to uniprot|P38707 Saccharomyces cerevisiae YHR019C DED81 Cytosolic asparaginyl-tRNA synthetase, required for protein synthesis, catalyzes the specific attachment of asparagine to its cognate tRNA

Genomic environment map

Element type: CDS
Element length: 1659 nucleotides,
on anti-sense strand of
Deha2C: complement(1202375..1204033).
Other names:
DEHA-CDS1940.1
DEHA-IPF3602
DEHA0C14696g
Coding sequence: 553 codons.

Computed results

None available yet

Homologs and Orthologs

Génolevures family GL3C0135
Consensus family of 27 members, scrltkgdy (3 3 3 3 3 3 3 3 3)
27-member family, phyletic pattern sczltkgdy, profile (3 3 3 3 3 3 3 3 3)
Proteins: SACE0C02112p SACE0H01738p SACE0L01100p CAGL0A02112p CAGL0D06556p CAGL0L08030p ZYRO0B00550p ZYRO0E03476p ZYRO0G00726p SAKL0D09768p SAKL0D10912p SAKL0H24244p KLTH0H09394p KLTH0H13024p KLTH0H14080p KLLA0A08426p KLLA0A11484p KLLA0D03839p ERGO0D08338p ERGO0E07040p ERGO0E07898p DEHA2A12100p DEHA2C13684p DEHA2C13750p YALI0D22264p YALI0E04939p YALI0E05005p
Search in: Génolevures Google

Génolevures family GL3C0135.N2
Nine-SONS subgroup of a Consensus family
18-member family, phyletic pattern sczltkgdy, profile (2 2 2 2 2 2 2 2 2)
Proteins: SACE0C02112p SACE0H01738p CAGL0A02112p CAGL0L08030p ZYRO0E03476p ZYRO0G00726p SAKL0D09768p SAKL0D10912p KLTH0H13024p KLTH0H14080p KLLA0A08426p KLLA0A11484p ERGO0E07040p ERGO0E07898p DEHA2C13684p DEHA2C13750p YALI0E04939p YALI0E05005p
Search in: Génolevures Google

Homologs in protein families: GL3C0135 GL3C0135.N2
Orthologs: strict determination not possible; homologs must be refined manually

Protein DEHA2C13684p

highly similar to uniprot|P38707 Saccharomyces cerevisiae YHR019C DED81 Cytosolic asparaginyl-tRNA synthetase

Protein domain map

Protein length: 552 amino acids
Protein family: GL3C0135

Database cross references:
InterPro: IPR002312
InterPro: IPR004364
InterPro: IPR004365
InterPro: IPR004522
InterPro: IPR006195
InterPro: IPR012340
UniProtKB/Swiss-Prot: Q6BU46

Computed results for DEHA2C13684p

Blastp Genolevures

Blastp Uniprot

Gene Ontology terms

None available yet

Sequence data

>DEHA2C13684g.nt
CGAACATTGGGAAGTATGAATTTTGAACTCCCATCTTCTTGATACGTAAATTAAACCATT
CTTGAATAGTTTCCCAGACAGAGTAAGAGTTTGGCCTTAAAATGTAACAACCAGAGACGT
CATAGTAGTCCAACATTTCACCTTTGGTGACAATTTGAGAGTACCAGGAAGAGAAATCCT
TTGCCTTATCAACAGTGATACCGATCAACTTTGCATCTTCAAGCTTGGCTGCTTGTTTTT
CCTTCTTCAAAGCATCCTTCTTAGAGGTGTCAGCAGCTGGGGCAGCAGCTTGTTCGGCTG
AAAAATCGACTGAAACCACCTCAATGCCAGTAGAAGCAATGTACTCGTTAAGAACCTTCG
CGGAGATGCTGGCCTTGGCAGATGCAGTAGATAATTCTAAAACTGTATCGTCTGAAGCTT
TGGTGATGTTCTCATCGACAACAAGCTTGATCTTACCTGCTAAGTCCTTGTGTAAGTTCG
CAATTGACACTTCCTTGGCCGAAACAGTGAAAAATTCCGTCACCAAGTCGTCCTTTGCCA
ATCTTGGTTCCTTGACTCCAGCGGCCTTAGCAATAACCGGAGATGGTGTTTGTGTACTTT
GTAAAGCGAAAACAACTACTGGTACTGGTGTAGCGCTCTTAGCCGTCTTAGGCTTGAAAA
CCAAAGTCTTAGTTGAAACTGCAGATTCTGACGAAACAGTTGCTAATGATAATGCTGCTA
ATGATTGTTCTAAAGCCATTTTAGTGCTTTTATCTATGAATCAAGACCCACTTTACACTA
GTCCATCATGTTTGAGTAACTATTTTTCCATAAGTCGCCCGGTAACCTGCAAATTTGAAA
AATATAAATTTTTATGATGATTTACAGTTTATGTTGATCAGTCCCTCAATTACCCGTACA
TATAGTTAATATCAGTACAATATAATTTTCCACTTTTCAGAGATGAATCATACAGGTTAT
CAGGTATTTTTATACTGTTTAAGATTCATTGAAGGTAATTATGTCTCAAGTATATGTTAA
CGAGAAGACAGGCGCTGACAGCACTGATGTCAGCGGATCAGAACAACAACCGTTCCAGAC
GCCAGCATTTGCATTGTTTAAGAACGAAGACGCTAAGATTTTGGTTTACAAACAGTTAGA
AGACTCGGAAGAATTTGGTTACGGCGAAATTTCGGCATCTGCTTTGAAAAAAGCCAAGAA
GGGAGCCGAAGGATTAAAGAAGAAACAAGAAAAACAGGCCAAGTTACAGGAAGAACAAAG
AAAACATCAAGATGATGCTGCTAAAAAATTTGCAGAAATGGACTTGATCAGCATTAAGGA
AGACGAATCGCTTCCTCAGGCCAAAAAAATCAAATTGAGAACTGTACAAGATAACATTGG
TACCAGAGTCGTTGTTCAGGGTTGGATTCACCGTTTGAGATTGCAAAAGGGATTGGGATT
CATCACCTTGAGAGACGGTACTGGATTCATCCAATGTATATTGACTGGAGACTTAGCCAA
ATGCAAGACCACGCACGAACTTACTTTGGAATCTACTGTTACCATCAAGGGTGTTATCAA
CAAGTTGCCAGAAGGTAAGTCTGCTCCAGGAGGAGTTGAATTGAAGGTGGATTACTATGA
GGTTGTGGGTCTTGCCCCAAGCGGTGAAGAGGCTTTCAGTAACAAGGTGCAAGAAAACGC
GGATCCATCATTGTTGTTAGACCAACGTCATTTAGCCTTAAGAGGAGAAAGTTTGTCGGC
TGTTATGAAGGTCAGATCTACTTTACTCCAAGCGATTAGAAGATTTTTCGCTGAAGAAGG
TCTTTTGGAAGTCACACCACCATGTATGGTTCAAACCCAAGTTGAAGGTGGATCTACTTT
ATTCAAAATGGATTACTACGGTGAAGAAGCTTACTTAACTCAATCTTCCCAATTATACTT
GGAAACCTGTTTACCAGCATTAGGTGATGTTTTCTGTGTTCAAGAGTCATTCCGTGCCGA
AAAATCCCACACTAGAAGACATTTATCCGAATATACTCACATTGAAAGTGAATTAGGATT
CATAGAATTCGATGATTTATTAACACATCTTGAACGTTTAATCACCTACGTTGTCAAGTA
CGTTGTTGAAGACCCAGTAGCTGGTCCTTTAATCAAACAGTTGAACCCTAACTTTGTTCC
CCCACAAATGCCTTTCAAGAGAATGGAATACATCCATGCTTTAGACTGGTTGAACGAACA
CGGCATTCCAAACGAAGATGGTGAAAAATTCAAGTTTGGTGACGATATTGCAGAAGCTGC
TGAACGTAAGATGACCGACACCATTGGTGTTCCAATCTTGTTAATCCGTTTCCCAGTCGA
AATTAAATCATTCTACATGCAAAAGTGCGCCGATGATCCAAGAGTCACCGAATCGGTCGA
TGTCTTGATGCCAACTGTGGGTGAAATCACCGGTGGTTCTATGAGAACTTATGACAACGA
TGAATTGGTTGCCGCTATCAAAAGAGAAGGTCTTGACTTAGATTCATACTACTGGTTTAC
TGATCAAAGAAAGTATGGTACATGTCCACATGGTGGTTATGGTTTAGGTACTGAAAGAAT
TTTAGCTTGGTTATGTGACAGATTCACTGTCAGAGATTGTTCCTTATATCCAAGATTTAC
TGGAAGATGTAAGCCATAGATAATTGCTTATAATAGGTAGTTTAATGTATAGATTTAATT
AATATTATAGCTGTTATATGACTCAACAAATTGTGTAAACCACGACTTCTTAAAACGGCA
ATTGTTAAGCGCGGTGATGAATCAGACTATCAGATAGTGTCCATAAATACCCATAATTTT
TCACCAGAAATTTTTCACCCTCTATTAAATCTATAAACAATATTAGATTATATTAACTCA
AGATGTCGCAAGAACAACCAGCTGAAAGCAAGTTATGGGGTGGTAGATTCACTGGAGCCA
CTGACCCATTAATGGACTT

>DEHA2C13684g.cds
ATGTCTCAAGTATATGTTAACGAGAAGACAGGCGCTGACAGCACTGATGTCAGCGGATCA
GAACAACAACCGTTCCAGACGCCAGCATTTGCATTGTTTAAGAACGAAGACGCTAAGATT
TTGGTTTACAAACAGTTAGAAGACTCGGAAGAATTTGGTTACGGCGAAATTTCGGCATCT
GCTTTGAAAAAAGCCAAGAAGGGAGCCGAAGGATTAAAGAAGAAACAAGAAAAACAGGCC
AAGTTACAGGAAGAACAAAGAAAACATCAAGATGATGCTGCTAAAAAATTTGCAGAAATG
GACTTGATCAGCATTAAGGAAGACGAATCGCTTCCTCAGGCCAAAAAAATCAAATTGAGA
ACTGTACAAGATAACATTGGTACCAGAGTCGTTGTTCAGGGTTGGATTCACCGTTTGAGA
TTGCAAAAGGGATTGGGATTCATCACCTTGAGAGACGGTACTGGATTCATCCAATGTATA
TTGACTGGAGACTTAGCCAAATGCAAGACCACGCACGAACTTACTTTGGAATCTACTGTT
ACCATCAAGGGTGTTATCAACAAGTTGCCAGAAGGTAAGTCTGCTCCAGGAGGAGTTGAA
TTGAAGGTGGATTACTATGAGGTTGTGGGTCTTGCCCCAAGCGGTGAAGAGGCTTTCAGT
AACAAGGTGCAAGAAAACGCGGATCCATCATTGTTGTTAGACCAACGTCATTTAGCCTTA
AGAGGAGAAAGTTTGTCGGCTGTTATGAAGGTCAGATCTACTTTACTCCAAGCGATTAGA
AGATTTTTCGCTGAAGAAGGTCTTTTGGAAGTCACACCACCATGTATGGTTCAAACCCAA
GTTGAAGGTGGATCTACTTTATTCAAAATGGATTACTACGGTGAAGAAGCTTACTTAACT
CAATCTTCCCAATTATACTTGGAAACCTGTTTACCAGCATTAGGTGATGTTTTCTGTGTT
CAAGAGTCATTCCGTGCCGAAAAATCCCACACTAGAAGACATTTATCCGAATATACTCAC
ATTGAAAGTGAATTAGGATTCATAGAATTCGATGATTTATTAACACATCTTGAACGTTTA
ATCACCTACGTTGTCAAGTACGTTGTTGAAGACCCAGTAGCTGGTCCTTTAATCAAACAG
TTGAACCCTAACTTTGTTCCCCCACAAATGCCTTTCAAGAGAATGGAATACATCCATGCT
TTAGACTGGTTGAACGAACACGGCATTCCAAACGAAGATGGTGAAAAATTCAAGTTTGGT
GACGATATTGCAGAAGCTGCTGAACGTAAGATGACCGACACCATTGGTGTTCCAATCTTG
TTAATCCGTTTCCCAGTCGAAATTAAATCATTCTACATGCAAAAGTGCGCCGATGATCCA
AGAGTCACCGAATCGGTCGATGTCTTGATGCCAACTGTGGGTGAAATCACCGGTGGTTCT
ATGAGAACTTATGACAACGATGAATTGGTTGCCGCTATCAAAAGAGAAGGTCTTGACTTA
GATTCATACTACTGGTTTACTGATCAAAGAAAGTATGGTACATGTCCACATGGTGGTTAT
GGTTTAGGTACTGAAAGAATTTTAGCTTGGTTATGTGACAGATTCACTGTCAGAGATTGT
TCCTTATATCCAAGATTTACTGGAAGATGTAAGCCATAG

>DEHA2C13684g.aa
MSQVYVNEKTGADSTDVSGSEQQPFQTPAFALFKNEDAKILVYKQLEDSEEFGYGEISAS
ALKKAKKGAEGLKKKQEKQAKLQEEQRKHQDDAAKKFAEMDLISIKEDESLPQAKKIKLR
TVQDNIGTRVVVQGWIHRLRLQKGLGFITLRDGTGFIQCILTGDLAKCKTTHELTLESTV
TIKGVINKLPEGKSAPGGVELKVDYYEVVGLAPSGEEAFSNKVQENADPSLLLDQRHLAL
RGESLSAVMKVRSTLLQAIRRFFAEEGLLEVTPPCMVQTQVEGGSTLFKMDYYGEEAYLT
QSSQLYLETCLPALGDVFCVQESFRAEKSHTRRHLSEYTHIESELGFIEFDDLLTHLERL
ITYVVKYVVEDPVAGPLIKQLNPNFVPPQMPFKRMEYIHALDWLNEHGIPNEDGEKFKFG
DDIAEAAERKMTDTIGVPILLIRFPVEIKSFYMQKCADDPRVTESVDVLMPTVGEITGGS
MRTYDNDELVAAIKREGLDLDSYYWFTDQRKYGTCPHGGYGLGTERILAWLCDRFTVRDC
SLYPRFTGRCKP*

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

DEHA0C14696g