YALI0D04114g

weakly similar to uniprot|Q8X0V5 Neurospora crassa Related to putative dual specificity protein kinase pom1

Genomic environment map

Element type: CDS
Element length: 3702 nucleotides,
on sense strand of
Yali0D: 513782..517483.
Other names:
YALI-CDS0218.1
YALI-IPF4765
Coding sequence: 1234 codons.

Database cross references:
EMBL: CR382130
GeneID: 2910625
GenomeReviews: CR382130_GR

Computed results

None available yet

Homologs and Orthologs

Génolevures family GL3C0591
Consensus family of 16 members, sczltkgdpy (1 1 1 1 1 1 1 2 4 3)
16-member family, phyletic pattern sczltkgd-py, profile (1 1 1 1 1 1 1 2 0 4 3)
Proteins: SACE0J01738p CAGL0I05896p ZYRO0D02970p SAKL0C06248p KLTH0F05522p KLLA0A05819p ERGO0C10516p DEHA2B08690p DEHA2F08096p PISO0G03350p PISO0H03351p PISO0K06896p PISO0L06897p YALI0C16665p YALI0D04114p YALI0E11077p
Search in: Génolevures Google

Homologs in protein family: GL3C0591
Orthologs: strict determination not possible; homologs must be refined manually

Protein YALI0D04114p

weakly similar to uniprot|Q8X0V5 Neurospora crassa Related to putative dual specificity protein kinase pom1; SubName: Full=YALI0D04114p;

Protein domain map

Protein length: 1233 amino acids
Protein family: GL3C0591

Database cross references:
InterPro: IPR000719
InterPro: IPR002290
InterPro: IPR008271
InterPro: IPR011009
InterPro: IPR017441
InterPro: IPR017442
KEGG: yli:YALI0D04114g
PROSITE: PS00107
PROSITE: PS00108
PROSITE: PS50011
Pfam: PF00069
RefSeq: XP_502390.1
SMART: SM00220
UniProtKB/TrEMBL: Q6CAC2
UniProtKB: Q6CAC2_YARLI

Phylogeny

PhylomeDB:YALI0D04114g

Computed results for YALI0D04114p

None available yet

Gene Ontology terms

Sequence data

>YALI0D04114g.nt
ATGTCCATGTCCATGGCGGAGTTATCCAACATGGATCTAACAGATGCCTCGCTGTTCCAG
TGCGACGACCCCGACACACCCAAGGGCTCGATACGGCGCCAGCGGAGTCGCAAGTCGCTG
ATTCCGCGCACACCATCCTTCCACTCTCTGATAGTTGATCAAGAGGAGGGTCAAACGTCC
CTGAATCAGGGTACACAGCATACGGCACAACCTACAAGTACAACACAACCAACAACTCAG
CATACACAACATACACAACATACAACGCAAATGTCTCTCCCACACCAACACTCACCTCTG
GGGATGAAGAAGAGCCCGAGTGGAATCATTGCCACGCCACCGATCCCCACAAACAACTCG
GATCACGCCACCCCGAGTTATATTCCCCAGAGCATCTCCTCACGCAGTCTAAAGTCGATT
CTGGGATCTACCGCTCCGACCAGCAACACCAGCAACAACCAGAACCTCAACCCGCTGGCG
GAAAAGATTAGCACTTACAAACCCAAGCAGAAACTGCGCTCCGTGTCCAGCGGTAGTGCG
CTCAAGCCACGTGACTCACGGGAGTTACGGGAGGCCCAACTGGAGCACGAGCGGAGGAAA
ACCGGCGGGCTGGATCTGGCCGAGTCTTCCAAGCGCACACCGCTGGCGTCTCTGACGACC
AAGAAGCCCCGCACGACGGTCCCCATGAGTGTGGATCCGCTGTCGGGCCGGCTGAAACGG
GTCTCTGACGTCGAGAGACATAGGAGAACGGCGTCGGTGGATAAGGGTGAGGAGAAAAGG
GTATCCACGAGCTCTTCTCATCGACTGTCTACTGCCGAACGGGCCAATGCTCGGTCAGAG
AGAGAACGGGAAAGGGAACAGGAGAGAGAGAGGGTGAGATTGGAAAGAGAGCAGGAGAGA
GAGAGAGTCAGGCAGGAAAGAGCGAGAGAGAGAGCAGCCACCGAGAGAGCGGCAGAAAGG
GTATCCGAGAGGGCTTCTGAACGGGGCGCTGAACGGGCCACTGAGAGAACTGCTTCTGAT
CGAGTTGCATCTGATAGAGCTTCCTCAGTTCGAACTACCACCACGTCCGACCGCTCTGAA
CGAATCACATCCACCAGACGAACTCAAGGAGGAGCCACCAAAACCATACCCATCCAGGTG
CCATCTCACACTCGTCAGCGGTCTGTGGATCGAATCGAGAGAGCTGAGAAGGAGACCAGA
ACGAGTGCTTTGGCCAGTGCTCTTCAGCAGAGATCGAAACCCACCGCTTCCGCGTCGGCT
GGAGCGGTTGGCGTGGCAACGTCTACGTCTGCTGCACCTATTGGTGCTACTTCTACTGCC
TCTGTTGCTACATCCACTTCTACGACAGCTACAGGAAATGCTCCAATCTCTTCTCGAACA
TCCAATGTTCATAGCACAGCTTCTGCCCCTGTCCACATGTCTGCCACCGCTCGCAGAAGC
ACCTCTCACACTCCTCTCACTGGTCCCCTCCAAACACGGCCTAAGCCGGCCACGGAAAAA
CGGTTCATGAGCCACGGCAACGAAAAGACTAAACTGGCTCCTCTGCATATCAAGCCGCTG
GGTGGAGGACAAGCTCAGAATCTCGTCTCGGGTCCCTACAAGTACCCTCGAGTGGGACCT
GGGGCGCCTGGTCAGGGTGCCACAGCTGCAGGCAGCCCAATCAGGCCGGAACATAGAAGT
CACTCCGGATCTCCTGTGACCAATGTACCTGGTCACGTGAGTGGAATGTCAGGTCACATG
GCTCACCCGGGGAGTGCCATGTCGGGTCACGTGAGTGGTCACGTGTCTCAATCTGGAGGG
ACCATGACACATCCTGGTAGTGCCATGTCTGGTAATGTACCAGGAAATGCCATGGGTCAT
GTCGGTCACGTGAGTGGTCATGCCAACTCTGGTCCCGGTAATCCCCTTGGCATGTCAATG
AACATGGGATCCAACACTTCCTTGAACTCTTTGCATTCAGTCCACTCGGTCCACTCAATG
CACTCGATGCACCCACCTCCCAGCATGCCCGGCAGTCACCACGGCAGTCCACGTCATTCG
CCAATTCTCAGCATGAGTTCTTCCCCTATGAACTCTATGCCTCCTCCTGGTATGCCTCCT
TCCATGGGGCCACCACGAGACTCGTCTCATTCACCTCATCATTTCTTTACACCCATACCG
CCTCCTCATCGAATTGGATACTCGCTTCCAGGTTCTCCGGTGCGTCCATGTCCTCCAGTG
GCAGCTTCCCCGGACATCGACTGTTCCAGAAGCCTCAATTCGGCTCAGAGCATGAAGACA
GGTAACAGGAACATCCCGTCTCCTAGCATGGCTGCAAACGTGGGAGCTAGTATGGGCGCT
CCCAACTTGCGAGGCAAGAGCTACAAACCTATGGGTGACGCTTCCAACTGCTCTTCTCCG
CTGGCAACGTGTTTTCCCACCCGTCATCAGGTAGCTTCTCCAGTGTTTGGGGTCGACACG
GTTGCTGTGGCCCAGGAAATGAAGAAGCTGACCATCAGCAAACACGAGAGCCCGTTGGAG
TCACGTGAAAAGCTACAGGCATCCATGAGAACTCCCTCGACTGTAGCGCGTCTCAACGGC
AAGTGTATGACTCCCTCGGAGGCCAAGGCCCGTTTCCCGCTTGTGGGGTTTGAGAAGACA
GAAATCGCGTCCTACAAACATGTGTACTACTACTATCCCTTCAGCAACAACCATGAGTCA
CACAGCAGTACGACGGATGACTCGGAGGGCAACCTGCGGCTGGCAGCAGGTGACCACATT
GCCTACCGCTACCAGGTCATCAAGTTGCTGGGTAAGGGTTCGTTTGGTGTGGTGGCACAG
TGCTACGACCACAAACACGGTTGTCACGTGGCCGTCAAGATTGTCAAGAACAAGAAACGG
TTCCAGCAACAGGCCGCCGTGGAGGCTAACTTTGTCGAGTCGTTGACTGCCAAGGACCCC
GACGACATGCACCACATTGTTCGATACCGCGACCGGGTCGTGTTCCGAGGTCATCTGTGC
ATCGTTACAGAAATGCTCTTTCTCAATTTGTACGAGCTCATTGGTTTTAACAAGTTTCGG
GGCTTTTCGTTGGAACTGGTGCGACACTTTGCTCAGCAACTTCTTAATAGTTTGGCCTTC
CTGGGCTCACAGAACATTGTCCACTGCGATCTTAAACCCGAAAACATTCTCATTAGTGAC
TACACTAAAGGTGGTATCAAGCTAATTGATTTCGGCTCGTCGTGTCTGGAGAATGAAAAG
GTGTACACTTACATCCAGTCGCGGTTCTACCGATCGCCGGAGGTCATTCTAGGTGCGGAC
TACAACAAGGCGATTGACATGTGGTCGTTCGGATGCATTATCGCAGAACTGTACACTGGC
ATGCCGATTTTCAGCGGTGAAAACGAGCAGGACCAGCTGGTATCGATCATGCAGGTCCAA
GGGTTCCCACAGCTGCGCTTCCTATCTCGATGTTCGCGAAGACGGCTGTTTTTCGACACC
ATGGGCCGTCCCCGACCTTCCATCTTGGTTTCCCCCAAGGGTAAGACTCGGGTGCCGAAT
TCAACGTCCCTGGAGCATGTTCTGGGAAACGGTACGTGTCCCTCGTTCCTGTCTTTCCTG
CGAGCGTGTCTGCAGTGGGACCCTGAGGATCGAATTACCGCCAAAAAGGCGCTCAAACAC
GAGTTTATAGTTGGTGTTGGAGGAACACAAAAGGAGGATTAA

>YALI0D04114g.cds
ATGTCCATGTCCATGGCGGAGTTATCCAACATGGATCTAACAGATGCCTCGCTGTTCCAG
TGCGACGACCCCGACACACCCAAGGGCTCGATACGGCGCCAGCGGAGTCGCAAGTCGCTG
ATTCCGCGCACACCATCCTTCCACTCTCTGATAGTTGATCAAGAGGAGGGTCAAACGTCC
CTGAATCAGGGTACACAGCATACGGCACAACCTACAAGTACAACACAACCAACAACTCAG
CATACACAACATACACAACATACAACGCAAATGTCTCTCCCACACCAACACTCACCTCTG
GGGATGAAGAAGAGCCCGAGTGGAATCATTGCCACGCCACCGATCCCCACAAACAACTCG
GATCACGCCACCCCGAGTTATATTCCCCAGAGCATCTCCTCACGCAGTCTAAAGTCGATT
CTGGGATCTACCGCTCCGACCAGCAACACCAGCAACAACCAGAACCTCAACCCGCTGGCG
GAAAAGATTAGCACTTACAAACCCAAGCAGAAACTGCGCTCCGTGTCCAGCGGTAGTGCG
CTCAAGCCACGTGACTCACGGGAGTTACGGGAGGCCCAACTGGAGCACGAGCGGAGGAAA
ACCGGCGGGCTGGATCTGGCCGAGTCTTCCAAGCGCACACCGCTGGCGTCTCTGACGACC
AAGAAGCCCCGCACGACGGTCCCCATGAGTGTGGATCCGCTGTCGGGCCGGCTGAAACGG
GTCTCTGACGTCGAGAGACATAGGAGAACGGCGTCGGTGGATAAGGGTGAGGAGAAAAGG
GTATCCACGAGCTCTTCTCATCGACTGTCTACTGCCGAACGGGCCAATGCTCGGTCAGAG
AGAGAACGGGAAAGGGAACAGGAGAGAGAGAGGGTGAGATTGGAAAGAGAGCAGGAGAGA
GAGAGAGTCAGGCAGGAAAGAGCGAGAGAGAGAGCAGCCACCGAGAGAGCGGCAGAAAGG
GTATCCGAGAGGGCTTCTGAACGGGGCGCTGAACGGGCCACTGAGAGAACTGCTTCTGAT
CGAGTTGCATCTGATAGAGCTTCCTCAGTTCGAACTACCACCACGTCCGACCGCTCTGAA
CGAATCACATCCACCAGACGAACTCAAGGAGGAGCCACCAAAACCATACCCATCCAGGTG
CCATCTCACACTCGTCAGCGGTCTGTGGATCGAATCGAGAGAGCTGAGAAGGAGACCAGA
ACGAGTGCTTTGGCCAGTGCTCTTCAGCAGAGATCGAAACCCACCGCTTCCGCGTCGGCT
GGAGCGGTTGGCGTGGCAACGTCTACGTCTGCTGCACCTATTGGTGCTACTTCTACTGCC
TCTGTTGCTACATCCACTTCTACGACAGCTACAGGAAATGCTCCAATCTCTTCTCGAACA
TCCAATGTTCATAGCACAGCTTCTGCCCCTGTCCACATGTCTGCCACCGCTCGCAGAAGC
ACCTCTCACACTCCTCTCACTGGTCCCCTCCAAACACGGCCTAAGCCGGCCACGGAAAAA
CGGTTCATGAGCCACGGCAACGAAAAGACTAAACTGGCTCCTCTGCATATCAAGCCGCTG
GGTGGAGGACAAGCTCAGAATCTCGTCTCGGGTCCCTACAAGTACCCTCGAGTGGGACCT
GGGGCGCCTGGTCAGGGTGCCACAGCTGCAGGCAGCCCAATCAGGCCGGAACATAGAAGT
CACTCCGGATCTCCTGTGACCAATGTACCTGGTCACGTGAGTGGAATGTCAGGTCACATG
GCTCACCCGGGGAGTGCCATGTCGGGTCACGTGAGTGGTCACGTGTCTCAATCTGGAGGG
ACCATGACACATCCTGGTAGTGCCATGTCTGGTAATGTACCAGGAAATGCCATGGGTCAT
GTCGGTCACGTGAGTGGTCATGCCAACTCTGGTCCCGGTAATCCCCTTGGCATGTCAATG
AACATGGGATCCAACACTTCCTTGAACTCTTTGCATTCAGTCCACTCGGTCCACTCAATG
CACTCGATGCACCCACCTCCCAGCATGCCCGGCAGTCACCACGGCAGTCCACGTCATTCG
CCAATTCTCAGCATGAGTTCTTCCCCTATGAACTCTATGCCTCCTCCTGGTATGCCTCCT
TCCATGGGGCCACCACGAGACTCGTCTCATTCACCTCATCATTTCTTTACACCCATACCG
CCTCCTCATCGAATTGGATACTCGCTTCCAGGTTCTCCGGTGCGTCCATGTCCTCCAGTG
GCAGCTTCCCCGGACATCGACTGTTCCAGAAGCCTCAATTCGGCTCAGAGCATGAAGACA
GGTAACAGGAACATCCCGTCTCCTAGCATGGCTGCAAACGTGGGAGCTAGTATGGGCGCT
CCCAACTTGCGAGGCAAGAGCTACAAACCTATGGGTGACGCTTCCAACTGCTCTTCTCCG
CTGGCAACGTGTTTTCCCACCCGTCATCAGGTAGCTTCTCCAGTGTTTGGGGTCGACACG
GTTGCTGTGGCCCAGGAAATGAAGAAGCTGACCATCAGCAAACACGAGAGCCCGTTGGAG
TCACGTGAAAAGCTACAGGCATCCATGAGAACTCCCTCGACTGTAGCGCGTCTCAACGGC
AAGTGTATGACTCCCTCGGAGGCCAAGGCCCGTTTCCCGCTTGTGGGGTTTGAGAAGACA
GAAATCGCGTCCTACAAACATGTGTACTACTACTATCCCTTCAGCAACAACCATGAGTCA
CACAGCAGTACGACGGATGACTCGGAGGGCAACCTGCGGCTGGCAGCAGGTGACCACATT
GCCTACCGCTACCAGGTCATCAAGTTGCTGGGTAAGGGTTCGTTTGGTGTGGTGGCACAG
TGCTACGACCACAAACACGGTTGTCACGTGGCCGTCAAGATTGTCAAGAACAAGAAACGG
TTCCAGCAACAGGCCGCCGTGGAGGCTAACTTTGTCGAGTCGTTGACTGCCAAGGACCCC
GACGACATGCACCACATTGTTCGATACCGCGACCGGGTCGTGTTCCGAGGTCATCTGTGC
ATCGTTACAGAAATGCTCTTTCTCAATTTGTACGAGCTCATTGGTTTTAACAAGTTTCGG
GGCTTTTCGTTGGAACTGGTGCGACACTTTGCTCAGCAACTTCTTAATAGTTTGGCCTTC
CTGGGCTCACAGAACATTGTCCACTGCGATCTTAAACCCGAAAACATTCTCATTAGTGAC
TACACTAAAGGTGGTATCAAGCTAATTGATTTCGGCTCGTCGTGTCTGGAGAATGAAAAG
GTGTACACTTACATCCAGTCGCGGTTCTACCGATCGCCGGAGGTCATTCTAGGTGCGGAC
TACAACAAGGCGATTGACATGTGGTCGTTCGGATGCATTATCGCAGAACTGTACACTGGC
ATGCCGATTTTCAGCGGTGAAAACGAGCAGGACCAGCTGGTATCGATCATGCAGGTCCAA
GGGTTCCCACAGCTGCGCTTCCTATCTCGATGTTCGCGAAGACGGCTGTTTTTCGACACC
ATGGGCCGTCCCCGACCTTCCATCTTGGTTTCCCCCAAGGGTAAGACTCGGGTGCCGAAT
TCAACGTCCCTGGAGCATGTTCTGGGAAACGGTACGTGTCCCTCGTTCCTGTCTTTCCTG
CGAGCGTGTCTGCAGTGGGACCCTGAGGATCGAATTACCGCCAAAAAGGCGCTCAAACAC
GAGTTTATAGTTGGTGTTGGAGGAACACAAAAGGAGGATTAA

>YALI0D04114g.aa
MSMSMAELSNMDLTDASLFQCDDPDTPKGSIRRQRSRKSLIPRTPSFHSLIVDQEEGQTS
LNQGTQHTAQPTSTTQPTTQHTQHTQHTTQMSLPHQHSPLGMKKSPSGIIATPPIPTNNS
DHATPSYIPQSISSRSLKSILGSTAPTSNTSNNQNLNPLAEKISTYKPKQKLRSVSSGSA
LKPRDSRELREAQLEHERRKTGGLDLAESSKRTPLASLTTKKPRTTVPMSVDPLSGRLKR
VSDVERHRRTASVDKGEEKRVSTSSSHRLSTAERANARSEREREREQERERVRLEREQER
ERVRQERARERAATERAAERVSERASERGAERATERTASDRVASDRASSVRTTTTSDRSE
RITSTRRTQGGATKTIPIQVPSHTRQRSVDRIERAEKETRTSALASALQQRSKPTASASA
GAVGVATSTSAAPIGATSTASVATSTSTTATGNAPISSRTSNVHSTASAPVHMSATARRS
TSHTPLTGPLQTRPKPATEKRFMSHGNEKTKLAPLHIKPLGGGQAQNLVSGPYKYPRVGP
GAPGQGATAAGSPIRPEHRSHSGSPVTNVPGHVSGMSGHMAHPGSAMSGHVSGHVSQSGG
TMTHPGSAMSGNVPGNAMGHVGHVSGHANSGPGNPLGMSMNMGSNTSLNSLHSVHSVHSM
HSMHPPPSMPGSHHGSPRHSPILSMSSSPMNSMPPPGMPPSMGPPRDSSHSPHHFFTPIP
PPHRIGYSLPGSPVRPCPPVAASPDIDCSRSLNSAQSMKTGNRNIPSPSMAANVGASMGA
PNLRGKSYKPMGDASNCSSPLATCFPTRHQVASPVFGVDTVAVAQEMKKLTISKHESPLE
SREKLQASMRTPSTVARLNGKCMTPSEAKARFPLVGFEKTEIASYKHVYYYYPFSNNHES
HSSTTDDSEGNLRLAAGDHIAYRYQVIKLLGKGSFGVVAQCYDHKHGCHVAVKIVKNKKR
FQQQAAVEANFVESLTAKDPDDMHHIVRYRDRVVFRGHLCIVTEMLFLNLYELIGFNKFR
GFSLELVRHFAQQLLNSLAFLGSQNIVHCDLKPENILISDYTKGGIKLIDFGSSCLENEK
VYTYIQSRFYRSPEVILGADYNKAIDMWSFGCIIAELYTGMPIFSGENEQDQLVSIMQVQ
GFPQLRFLSRCSRRRLFFDTMGRPRPSILVSPKGKTRVPNSTSLEHVLGNGTCPSFLSFL
RACLQWDPEDRITAKKALKHEFIVGVGGTQKED*

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

YALI0D04114g

YALI0D04114g

Genomic environment map

Computed results

Homologs and Orthologs

Protein YALI0D04114p

Protein domain map

Phylogeny

Computed results for YALI0D04114p

Gene Ontology terms

Sequence data

Nucleotide sequence

Coding sequence

Predicted translation product

Legend and notes