DEHA2D01672g

similar to uniprot|Q08773 Saccharomyces cerevisiae YOR304w ISW2 Member of the imitation-switch (ISWI) class of ATP-dependent chromatin remodeling complexes

Genomic environment map

Element type: CDS
Element length: 3126 nucleotides,
on sense strand of
Deha2D: 147342..150467.
Other names:
DEHA-CDS0393.1
DEHA-IPF10324
DEHA0D02365g
Coding sequence: 1042 codons.

Computed results

None available yet

Homologs and Orthologs

Génolevures family GL3M4588
Multiple choice family of 71 members, scrltkgdy (8 8 8 8 8 8 8 7 8)
71-member family, phyletic pattern sczltkgdy, profile (8 8 8 8 8 8 8 7 8)
Proteins: SACE0A01232p SACE0B04202p SACE0B08008p SACE0E05984p SACE0F02662p SACE0G02266p SACE0J05610p SACE0O10516p CAGL0C01683p CAGL0H06193p CAGL0I01694p CAGL0I04224p CAGL0I09614p CAGL0J02662p CAGL0L11770p CAGL0M01958p ZYRO0B11638p ZYRO0D05346p ZYRO0D16082p ZYRO0E03190p ZYRO0F04906p ZYRO0F12320p ZYRO0G12474p ZYRO0G21780p SAKL0A05918p SAKL0B03388p SAKL0B05544p SAKL0B09988p SAKL0D02772p SAKL0D11198p SAKL0F07766p SAKL0H17974p KLTH0A03410p KLTH0C05038p KLTH0D02354p KLTH0G14498p KLTH0G17028p KLTH0H05566p KLTH0H14300p KLTH0H15158p KLLA0A03069p KLLA0C17578p KLLA0E04159p KLLA0E22617p KLLA0F06710p KLLA0F07513p KLLA0F11814p KLLA0F24838p ERGO0C11330p ERGO0D06996p ERGO0E01298p ERGO0E06776p ERGO0F04554p ERGO0F18348p ERGO0G03586p ERGO0G11132p DEHA2A12276p DEHA2C08294p DEHA2C15774p DEHA2D01672p DEHA2D05456p DEHA2F06446p DEHA2G12496p YALI0B07513p YALI0C00363p YALI0C16643p YALI0D05775p YALI0E02332p YALI0E24431p YALI0F04356p YALI0F28831p
Search in: Génolevures Google

Homologs in protein family: GL3M4588
Orthologs: strict determination not possible; homologs must be refined manually

Protein DEHA2D01672p

Protein domain map

Protein length: 1041 amino acids
Protein family: GL3M4588

Database cross references:
InterPro: IPR000330
InterPro: IPR001005
InterPro: IPR001650
InterPro: IPR014001
InterPro: IPR014021
InterPro: IPR015194
InterPro: IPR015195
UniProtKB/TrEMBL: Q6BTC9

Computed results for DEHA2D01672p

Blastp Genolevures

Blastp Uniprot

Gene Ontology terms

None available yet

Sequence data

>DEHA2D01672g.nt
TTAAATATTTGCATATTACGTGGTTAGTATTTTTGCACAAAACAATAACCAGACCATACT
TTTTAAAATTAAAACAGTTTTTAAAATCACAGTCAGGCAAAACGATTTTCCCTCCAAAAG
AACAAATCTATTCATGGTCCCATTATACTCCATTACCTTCTATCAAATGTCTTGTATTGG
GCCAAGATCCATATCATAATTTCAACCAAGCGCATGGTCTAGCATTCTCAGTCTTAGAGC
CAACTAGACCCCCTCCATCTCTATTGAATATCTACAAAACTTTGAAAATTGATTATCCCG
ATTTCATTATTCCTGAGTATCAAGTATTGGCCAAACAAGGTAACCCCGGTGGAGGTAATT
TGACCAAGTGGGCCAAACAAGGTGTGCTATTATTGAATGCTGTATTAACCGTTGGGTGTC
ATAAAGCAAATAGCCACGCTCGACAAGGATGGGAAACCTTCACAGAAGAAATTTTGAAAA
CAGCAATCAACTATTATAACAAAGAGCAATCAAATGGTTTTGTCATTATGGCATGGGGAA
CTCCAGCGCAGAAAAGAATACTGAATTTCAATTCTTTACTAAATTCAAATAAGTTTCTAG
TGTTGAAAACAGTTCATCCGTCACCATTATCTGCTCGAAGAGGCTTTTTTGATCTGAAAG
TTTTCAAAAATTGTAATGAATGGTTGAACGAAAATGGTAACAGCAAGATCGATTGGGGCT
TAATAGATGGAAACGTAGTTCTTTAGTAGTATGTAGTTTAAAGCACGATATAACAATTAG
AAGCAAGTATTACCCGCACGCGTAAGTGGTATAAGTTTTTTGTATATACTTTTCAATATG
TTTTTCGGGTTTATATTTTGAATCCTGAATAAGATTACCAGATATCAGATAACCATCGTG
CTTAATAGTTTAATAACTATCCCTTTATTTCGAAGCTTTACTAGGTTATTTACAGAAACT
CATACAAATTATAGAGTTTCTGCCAGTGAAAGGTTGCAACATGTCAGATCAAGAAGATAA
ACCAAAACATTTCAGTGATGCTGAAACAAGGGAACAAAGAAAAAAACGATTCTTACTTGA
TACAGACCCTAAAATTGCCAAGCTCAATGATGTGGACGATTCAACTAAGAGGTTTAAATA
TTTATTAGGATTGACTGATATTTTCAGATACTTTATAGACTTGAATGCATCCAAGGACAC
GCAATTCAAGAAAATAATCAAGCAAATAGATAATAATGTCTCGTTTATGGAACCGCCAAC
CAAGAAGAAGAAGAGAAGAAAGACAGAAAAAGAGGAAGATGCAGAATTGTTGGAGGATGA
AGAACATATATATGACGAGGGATCTCAACGGACAATATTAACAGAATCCCCTAGTTTTGT
CAAGGAGGGGACGCTAAGAGAATATCAGATTCAAGGATTGAATTGGTTGATATCTCTTTA
TGAAAATAGATTGAGTGGTATACTAGCAGACGAGATGGGATTAGGAAAAACATTACAGAC
CATTGCCTTTTTAGGTTATCTAAGATATATCAAGAAAATAGATGGTCCATTCATTATTAT
TGTGCCAAAATCAACATTGGACAACTGGCGGAGGGAATTTGCGAAGTGGACTCCTGATGT
TAACGTAATTGTTTTACAAGGAAATAAGGAGGGCCGTAATGAGGTAATACAGAATAAGCT
ATTAAATGCTGAATTTGACGTCCTAATAACCTCGTTCGAAATGGTTATTCGTGAGAAAGC
ACACTTGAAGAAATTTAGATGGGAGTATATTGTGGTAGATGAAGCACATCGTATCAAGAA
TGAAGATAGTTCGTTATCGCAGATTTTAAGGCTATTTTATTCTAAGAATAGATTATTAAT
AACGGGTACGCCACTTCAGAATAATCTTCATGAGTTATGGGCGTTACTAAATTTTTTGTT
GCCTGATGTATTTGGGGATTCGGAAGTATTTAATGAATGGTTTGAAAACCAGGGTGGTAA
AACAGATGAAGATAAAGAAAAGAATCAGGACAAAGTAATTCAACAATTACATAAAGTTTT
GAGTCCATTTTTATTGCGTAGGATCAAGGCGGATGTTGAAAAGTCATTGTTACCTAAAAT
TGAAACTAATATTTATATTGGTATGGCAGATATGCAAATAAAATGGTACAAAAAGTTGTT
GGAAAAAGATATCGATGCTGTTAATGGGGTTGTTGGTAAAAGAGAAGGTAAAACTAGATT
GTTAAATATTGTAATGCAGTTGAGAAAGTGTTGCAATCATCCATATTTATTTGATGGCGC
AGAACCGGGCCCACCATATACAACTGACGAGCATTTGGTTTTCAATGCTGGAAAAATGAT
TATATTGGATAAGATGCTAAAAAAGTTTAAAAAGGAAGGTTCAAGGGTTTTAATTTTTTC
ACAAATGTCAAGATTACTAGACATTTTAGAAGATTACTGCTATTTGAGGGATTATTCGTA
CTGTAGAATAGATGGTTCCACTTCCCATGAGGATAGAATTGAGGCAATTGACCAGTATAA
CATGCCAGACCTGGACAAGTTTATTTTTCTATTAACTACTAGAGCAGGTGGTTTGGGTAT
TAATTTGACTAGTGCTGATATAGTTATATTGTATGACTCTGACTGGAACCCACAGGCTGA
CCTACAAGCTATGGATAGGGCGCATAGAATTGGTCAAAAGAAACAGGTCAAGGTTTATAG
GTTTGTCACTGAAAATGCTATTGAAGAGAAAGTCTTAGATAGAGCGGCACAAAAATTGAG
ATTGGATCAATTAGTCATTCAGCAAGGAAGACAAATAAATGCAAATAACTCTGTTGGTGG
TTCGAAGGATGATTTATTAGGAATGATTCAACATGGTGCTAAAAAGGTTTTTGAGTCCCA
GCAAAGCTCGACAATGTTAGATGACGATATTGATGCTATCTTGCAAAAAGGTGCAGAAAA
GACAGCAAATTTGAATGCCAAGTTTAATAATTTGGGTTTAGATGACTTGCAAAATTTTAC
CTCCGATTCTTCGACGTACGAATGGAATGGCCAAAATTTTGCCAAGAAGGAGAATCAAGG
AGAATTAGAGTTTACTTGGATCAATCCACCTAAGCGTGAGAGAAAAGAGTTAACTTACTC
TATTGATAACTATTATAAAGATGTTTTGAAAACAACACCTCTTGCAAATAAAAATAATAA
TTTGCTGTCAAAATTTAAAGCACCTAAAATATATAATATTCAAGACCATCAATTCTTTCC
TAATGGTTTAAAGGAACTACTTGACAGAGAGCAATTAGCTTATAAAAAACAGATAGGTTA
CCGATTTGCGTTAAATGAGTTTGGTGACAGCGATGAAGAATTCTTAGCAGAGGAATTTAA
GAATGAATTACCCAGAGAGGAAAGAAGAAGGTTAGAGCAAGAGAAGGTGAATAATGTTGT
GCCATTGACAGAGGAAGAGGTAGAATTGAAGAATAAACTATTAGCTGAAAGCTTTCATAA
TTGGACTAGGCGAGATTTCACAAATTTCATTCACGGGTCTTCCAAGTTTGGTAGAAATGA
TTACTCAAGTATCGCAAAGGCAATGGGTAATAAAGATGAAGATGATGTAGAGCGTTATCT
GAGAAAATTTTGGGAATCTTATTCCTTAATTGAAGGTTACGATAAGTATGTATCTCAAAT
TGAAAGTAGCGAGAAAAAGATCGCCAAATTATTGAACCAACAGAAGCTTTTAAGTATCAA
GATGGAATCATTGAAAGATCCTTTGGAGGAATTAAAAATTCAATACCCTCCAAATAATTC
CAAGAGAGTTTACTCTAAGCATGAAGATAGATTTATATTGCATTGTGTTCACAAATATGG
CCTATTTAGTGAACACTTATTGGAAAAAATAAAGGAAGAGATAGCCATCAATGATTCATT
CAAGTTTGATTGGTATATGTTGTCTAGGACACCACAGGAATTAGGAAGACGTGTTAATAC
GTTATTATTGGCGATCACGAGAGAACTAGAAGGACCGCCTGCTATAAAAAAGAAAATTAA
GGGTAGTTCAAATGCTAGTAGCCGCCCTGGTTCTATCGAGCCCACGGCAATTAGTGATAA
CAATTCTAATAATTTAAATTTAGGTACCAAGAAGAGAAAAATATGACGGTTTATAATCTA
GATATATATTAACTGCTTTTTAACGAATATTTATACGATTATTTCAAGAAATACATAATG
TAATGATAGTATTAAACATATTCCTCGCAAATATTTTCTTGTACCGTAGAAATATAATAT
GGTACTTTATTTGCAGTCCAACTAACAGAAAGGTAGTTACTCATCTCATGCCTTTCAACT
TTCAAATAATCAAATATTGTTTTATCACTTGAAGCCTTATATCTTGGTCTAATAAAATTT
CTTAAACTTATAATCTTCGTGCCTGGTTTTAAACCATACAACATTT

>DEHA2D01672g.cds
ATGTCAGATCAAGAAGATAAACCAAAACATTTCAGTGATGCTGAAACAAGGGAACAAAGA
AAAAAACGATTCTTACTTGATACAGACCCTAAAATTGCCAAGCTCAATGATGTGGACGAT
TCAACTAAGAGGTTTAAATATTTATTAGGATTGACTGATATTTTCAGATACTTTATAGAC
TTGAATGCATCCAAGGACACGCAATTCAAGAAAATAATCAAGCAAATAGATAATAATGTC
TCGTTTATGGAACCGCCAACCAAGAAGAAGAAGAGAAGAAAGACAGAAAAAGAGGAAGAT
GCAGAATTGTTGGAGGATGAAGAACATATATATGACGAGGGATCTCAACGGACAATATTA
ACAGAATCCCCTAGTTTTGTCAAGGAGGGGACGCTAAGAGAATATCAGATTCAAGGATTG
AATTGGTTGATATCTCTTTATGAAAATAGATTGAGTGGTATACTAGCAGACGAGATGGGA
TTAGGAAAAACATTACAGACCATTGCCTTTTTAGGTTATCTAAGATATATCAAGAAAATA
GATGGTCCATTCATTATTATTGTGCCAAAATCAACATTGGACAACTGGCGGAGGGAATTT
GCGAAGTGGACTCCTGATGTTAACGTAATTGTTTTACAAGGAAATAAGGAGGGCCGTAAT
GAGGTAATACAGAATAAGCTATTAAATGCTGAATTTGACGTCCTAATAACCTCGTTCGAA
ATGGTTATTCGTGAGAAAGCACACTTGAAGAAATTTAGATGGGAGTATATTGTGGTAGAT
GAAGCACATCGTATCAAGAATGAAGATAGTTCGTTATCGCAGATTTTAAGGCTATTTTAT
TCTAAGAATAGATTATTAATAACGGGTACGCCACTTCAGAATAATCTTCATGAGTTATGG
GCGTTACTAAATTTTTTGTTGCCTGATGTATTTGGGGATTCGGAAGTATTTAATGAATGG
TTTGAAAACCAGGGTGGTAAAACAGATGAAGATAAAGAAAAGAATCAGGACAAAGTAATT
CAACAATTACATAAAGTTTTGAGTCCATTTTTATTGCGTAGGATCAAGGCGGATGTTGAA
AAGTCATTGTTACCTAAAATTGAAACTAATATTTATATTGGTATGGCAGATATGCAAATA
AAATGGTACAAAAAGTTGTTGGAAAAAGATATCGATGCTGTTAATGGGGTTGTTGGTAAA
AGAGAAGGTAAAACTAGATTGTTAAATATTGTAATGCAGTTGAGAAAGTGTTGCAATCAT
CCATATTTATTTGATGGCGCAGAACCGGGCCCACCATATACAACTGACGAGCATTTGGTT
TTCAATGCTGGAAAAATGATTATATTGGATAAGATGCTAAAAAAGTTTAAAAAGGAAGGT
TCAAGGGTTTTAATTTTTTCACAAATGTCAAGATTACTAGACATTTTAGAAGATTACTGC
TATTTGAGGGATTATTCGTACTGTAGAATAGATGGTTCCACTTCCCATGAGGATAGAATT
GAGGCAATTGACCAGTATAACATGCCAGACCTGGACAAGTTTATTTTTCTATTAACTACT
AGAGCAGGTGGTTTGGGTATTAATTTGACTAGTGCTGATATAGTTATATTGTATGACTCT
GACTGGAACCCACAGGCTGACCTACAAGCTATGGATAGGGCGCATAGAATTGGTCAAAAG
AAACAGGTCAAGGTTTATAGGTTTGTCACTGAAAATGCTATTGAAGAGAAAGTCTTAGAT
AGAGCGGCACAAAAATTGAGATTGGATCAATTAGTCATTCAGCAAGGAAGACAAATAAAT
GCAAATAACTCTGTTGGTGGTTCGAAGGATGATTTATTAGGAATGATTCAACATGGTGCT
AAAAAGGTTTTTGAGTCCCAGCAAAGCTCGACAATGTTAGATGACGATATTGATGCTATC
TTGCAAAAAGGTGCAGAAAAGACAGCAAATTTGAATGCCAAGTTTAATAATTTGGGTTTA
GATGACTTGCAAAATTTTACCTCCGATTCTTCGACGTACGAATGGAATGGCCAAAATTTT
GCCAAGAAGGAGAATCAAGGAGAATTAGAGTTTACTTGGATCAATCCACCTAAGCGTGAG
AGAAAAGAGTTAACTTACTCTATTGATAACTATTATAAAGATGTTTTGAAAACAACACCT
CTTGCAAATAAAAATAATAATTTGCTGTCAAAATTTAAAGCACCTAAAATATATAATATT
CAAGACCATCAATTCTTTCCTAATGGTTTAAAGGAACTACTTGACAGAGAGCAATTAGCT
TATAAAAAACAGATAGGTTACCGATTTGCGTTAAATGAGTTTGGTGACAGCGATGAAGAA
TTCTTAGCAGAGGAATTTAAGAATGAATTACCCAGAGAGGAAAGAAGAAGGTTAGAGCAA
GAGAAGGTGAATAATGTTGTGCCATTGACAGAGGAAGAGGTAGAATTGAAGAATAAACTA
TTAGCTGAAAGCTTTCATAATTGGACTAGGCGAGATTTCACAAATTTCATTCACGGGTCT
TCCAAGTTTGGTAGAAATGATTACTCAAGTATCGCAAAGGCAATGGGTAATAAAGATGAA
GATGATGTAGAGCGTTATCTGAGAAAATTTTGGGAATCTTATTCCTTAATTGAAGGTTAC
GATAAGTATGTATCTCAAATTGAAAGTAGCGAGAAAAAGATCGCCAAATTATTGAACCAA
CAGAAGCTTTTAAGTATCAAGATGGAATCATTGAAAGATCCTTTGGAGGAATTAAAAATT
CAATACCCTCCAAATAATTCCAAGAGAGTTTACTCTAAGCATGAAGATAGATTTATATTG
CATTGTGTTCACAAATATGGCCTATTTAGTGAACACTTATTGGAAAAAATAAAGGAAGAG
ATAGCCATCAATGATTCATTCAAGTTTGATTGGTATATGTTGTCTAGGACACCACAGGAA
TTAGGAAGACGTGTTAATACGTTATTATTGGCGATCACGAGAGAACTAGAAGGACCGCCT
GCTATAAAAAAGAAAATTAAGGGTAGTTCAAATGCTAGTAGCCGCCCTGGTTCTATCGAG
CCCACGGCAATTAGTGATAACAATTCTAATAATTTAAATTTAGGTACCAAGAAGAGAAAA
ATATGA

>DEHA2D01672g.aa
MSDQEDKPKHFSDAETREQRKKRFLLDTDPKIAKLNDVDDSTKRFKYLLGLTDIFRYFID
LNASKDTQFKKIIKQIDNNVSFMEPPTKKKKRRKTEKEEDAELLEDEEHIYDEGSQRTIL
TESPSFVKEGTLREYQIQGLNWLISLYENRLSGILADEMGLGKTLQTIAFLGYLRYIKKI
DGPFIIIVPKSTLDNWRREFAKWTPDVNVIVLQGNKEGRNEVIQNKLLNAEFDVLITSFE
MVIREKAHLKKFRWEYIVVDEAHRIKNEDSSLSQILRLFYSKNRLLITGTPLQNNLHELW
ALLNFLLPDVFGDSEVFNEWFENQGGKTDEDKEKNQDKVIQQLHKVLSPFLLRRIKADVE
KSLLPKIETNIYIGMADMQIKWYKKLLEKDIDAVNGVVGKREGKTRLLNIVMQLRKCCNH
PYLFDGAEPGPPYTTDEHLVFNAGKMIILDKMLKKFKKEGSRVLIFSQMSRLLDILEDYC
YLRDYSYCRIDGSTSHEDRIEAIDQYNMPDLDKFIFLLTTRAGGLGINLTSADIVILYDS
DWNPQADLQAMDRAHRIGQKKQVKVYRFVTENAIEEKVLDRAAQKLRLDQLVIQQGRQIN
ANNSVGGSKDDLLGMIQHGAKKVFESQQSSTMLDDDIDAILQKGAEKTANLNAKFNNLGL
DDLQNFTSDSSTYEWNGQNFAKKENQGELEFTWINPPKRERKELTYSIDNYYKDVLKTTP
LANKNNNLLSKFKAPKIYNIQDHQFFPNGLKELLDREQLAYKKQIGYRFALNEFGDSDEE
FLAEEFKNELPREERRRLEQEKVNNVVPLTEEEVELKNKLLAESFHNWTRRDFTNFIHGS
SKFGRNDYSSIAKAMGNKDEDDVERYLRKFWESYSLIEGYDKYVSQIESSEKKIAKLLNQ
QKLLSIKMESLKDPLEELKIQYPPNNSKRVYSKHEDRFILHCVHKYGLFSEHLLEKIKEE
IAINDSFKFDWYMLSRTPQELGRRVNTLLLAITRELEGPPAIKKKIKGSSNASSRPGSIE
PTAISDNNSNNLNLGTKKRKI*

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

DEHA0D02365g