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Sequences
The following sequences are available for this feature:
mRNA from alignment at KZ851912.1:561851..566051+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >M747DRAFT_29491-T1 ID=M747DRAFT_29491-T1|Name=M747DRAFT_29491-T1|organism=Aspergillus niger ATCC 13496|type=mRNA|length=4201bp|location=Sequence derived from alignment at KZ851912.1:561851..566051+ (Aspergillus niger ATCC 13496)
TCGCGTTCAAGGTACGTTAGCAACCGGTTGCCCCTCCCCAGCATTCCTTC
CATTCCCCTCCCTAGAATCGGACATTCCCCGGGAGACATGCAGAACCATC
CCCTCCCAAACATCCTTCAGACGCCCTTGCCGGCCTGAGGGTAGAAATCA
CACCGTCAACGTTCAAGGCTCGCACCAGCCTTCAGCAGCGCCGCATGATT
GACCTTCTATCACAGACATTGATTGCATTACAGCCACACGCATCATTACA
TCTCGACTAGCTCGATCATCTTCTTTGTCTATACTACATCACTGACACAC
TTCGATTGTGCAACTCACTTGCTTTTCTTCACCTTTACCACCATTCATAG
GATAGCGCGAGAATGATCATTGCGTCCTCTCTCGCATAAGCCTTGGTCAG
TGACCACGACGTCCGACTGGACCTACCAAGCGGAAGGCTATCCAACACAC
CGATCTCGTCTCGAATTAAAGACATGGAATCAATGAAGCGACACATTGCG
CCATTGAAGATCGAAAAGGGAAACCTTAACTACCACTACGACGACCAACA
ACAACACTATTATTATCAGCAGCACAATCTTGAAATGAGCCCTCCGTTAA
CACCTTACGGCAACAAAGACGACAGTATGGAGCAATCAGAGACGCCGAGG
GCCGTCTTCCACAACTACCTCCGTGCATTCTATCCTTATCACCCCTCCGG
AAATGTCTCCCCGTCGACCGTCACCCTCCCCCTGGACCAAGGCGACATCG
TTCTAGTGCATTCTGTTCACACCAATGGTTGGGCCGATGGTACACTATTA
GATACTGGAGCTCGGGGCTGGCTACCCACCAACTACTGCGAAGCGTATGA
CCAACAGCCTATGCGGCCGCTTTTGAAGGCGTTGACCGACTTCTGGGATA
TCATTAGAGGAGGCTGTGGATTCCCTCTAAACGACGCTGGCAACCAGGAT
CTTGTACGTGGCTTGATTGCTGGCGTGCGCTACCTATTGGTAGGTGTTCG
ACTCCTAGCTGGTGCTTATCGGAGGATAACTGACCGGGTCACAGCAAAAA
TCCGAATGTCTCACACGGGATTGTATCCTGGTCACCAGTCACGACGGTCT
GCGCAGGAATCGCAAAGCGTTGCTGGCTGAGCTCTCATCTCTGGTCCGGA
CTACCAAGAGGTTTCAGGAGGTTGCCAGCGGCAATGCGACGCAGGATGAA
ATAGACTACATGGTCGACGAAATGCTACTCAAGGCTTTCCGCATAGTTAC
GCGAGGAGTTCGTTTTCTCGATGTGTGGACCGAGGAAGTTGGCCTGAGCA
GGACGATCGCCGAGCTCGAGCAGCAATCAGGCTACCAGCAAGGCCCACTC
TCTACGCTTTCTGAGACTCGCCCCATATCGGAAGCTGCTGGCTCCGAGGC
CGACACCGAGCGCAACGAGTCTAGACTCATGAACCGTAGCCGATTGGATA
TGAGCCGAGCATCCACTCGCCTGGACGACTCTCAACAGACCCGTCCGGTG
TCTGTGACCACCAAGCGGATTTCCGTCTCCCACCGGGTCTCTACTTCGGG
ACCGGCCGCGATTGCCCGCAACCCCAACCTAGCGTCCGAACGACTGAACG
ATGCCTACGACGCATTCCTCGGTGTGCTGGGCTCATTTATTGGGCTTCAC
CTGCAATCCCGCTCGTCCACGGAATTGGTTGTGACTACGGAGCAGGCGGT
GCGTTCCTGCCGCGCGCTGCTCACCGTCGTCGAGGCCACTTGCGAGCATG
ACCCGCAAGGCAGTGGGCACCTGGAGCAGGCTAGGGACACTATGTATGAA
CGCCTGTCCGAATTGGTCTATGCGGCCCGGGACGCCTTCCGACCGGCCCA
TTCTCCAGATGATGAGCTTGTGTTCTTGCCTGATGAAGGAAAGCGCCTGG
TGGATGCCGCCACTGATTGCGTGCGAGCAGCGGGGAGCTGCCTGGCCAAA
GCTCGACTGATGCTGGAGCAATGCGGTGATTTCGAGCTGGAGGCAATGCC
CCAGGATTTGCCTGCTGCAACCAGCGCGGTAACCGACGCCAACAAAACCC
CGCAACCCCCGAAGACAAGCACCTTTGCTGGTCACCAGAACCGATCTCAA
GAAGCATCATTGCGCTTGCCCCCGCCTCCTCTACAGATTCCCAACTCCAT
CAACAACCGATACTCTCCTCCAACCCCAGGTCTCACGGATGACACTACTC
CCTCCTCCTTCCAGTCGCGTGGTGGAGCCAGCACTCCCGGCACCGACATG
TCCTCCTTCCCGTCCACCAATCTCCTCTCCTCCAGCCTGGATAAGCTATC
CTTTTCGTCTCACGACACCCAACCCATCGAGATCCCTCCGCACAGGGACA
GCCAAGCCAAGTCCGATGTTAGTGAGTCCTTTGGCCGAGGCATCACTAGC
AATGGAAGTAGCTTTACATTCAACAGCCGTCTCCGCGACTCGGAGATGAG
TGGTGTCTCCCAGACTTCTACTCGCGCTACCTCGCCCGACATTGGCAATC
ACTACCAGGTTCCCTCTCTCAAGGGCAGCATCAGTCACTCCACCCTGGCC
GAGGAAACAGAAGAAGGAGAAGCCAATATTCTGGAGAAGACCTACGCGCA
CGAGCTGATCTTCAAAGATGGCCAGATCATGGGCGGAAGTCTACGGGCAC
TCGTCGAGAAGCTGACTGCACACCAGTCTACGCCAGACGCGATGTTCGTT
TCGACCTTCTATCTCACTTTCCGTCTTTTCGCTACCCCAATCGAGTTTGC
CGAGACTTTGGTTGATCGATTCAACTACATCGGGGACACTCCTCACACTG
CCGGACCCGTTCGTCTGCGTGTTTACAACGTCTTCAAAGGCTGGCTCGAA
TCTCACTGGCGTCACGACTGCGATAACAGTGCCCTCGAATACATTGTGAA
CTTCGCCAGCACGATCCTCATGAACAACCTTCCGTCTGCTGGAAAGCGGC
TTGTCGAGCTTGCCGACAAGGTGTCAATGGTTCACGGACCAGTGGTACCC
CGTCTGGTGTCTTCCATGGGAAAGACCAATACTGCAACTGCACAGTATGT
GCACCCAGACACACCTCTGCCACCACCCATCCTTGGAAAGAAGGAAGTCA
ACCTTCTGAAGCAGTGGAAGAACGGTGAAGGCACAATTACCATCTTGGAT
TTTGACCCGATGGAACTCGCTCGCCAGTTCACGATCAAGGAGTCGCGCAT
CTTCTGCGCTATTCTTCCCGAAGAGCTGCTAGCGACGGAGTGGATGAAGA
AATCGGGTTCCCTGGCCGTTAACGTCAGGGCCATGGCCACTCTGTCCACG
GACCTGACGCATCTCGTGGCAGATTCGATTCTCCAGCTGGAGGAGCCCAA
GAAGCGTGCAGCGATCATCAAGCACTGGGTCAAGATTGCGAACAAGTGCC
TGGAGCTCAGCAACTACGACTCATTGATGGCCATCATCTGCTCCTTAAAT
TCATCTATGATCTCCCGCTTGAAGCGGACCTGGGAAGTGGTGTCTCAGAA
GACCAAGACGACTCTGGAATACCTGCGAGGCATTGTCGATGTCTCACGGA
ACTACTACGTTCTCCGGCAGCGTCTGCAGAACCGCGTCCCTCCTTGTCTG
CCTTTCGTCGGCACTTACCTCACGGACCTCACCTTCGTGGACCACGGCAA
CCAGGCACTGCGTACCTTGCCCACAGACGAGGGTGATATGGCAGTCATTA
ACTTCGACAAGCACATGAAGACGGCCAAGATCATCAGCGAGCTGCAACGA
TTCCAGATTCCGTATCGCCTGACGGAAGTGCCGGAGCTCCAAGCGTGGAT
GCAGAATGAGCTGGTCCGTGTGCGATCGAGCGGCGAGAAAAGTCTGCAGA
CATTCTATCGCCGGTCGCTGGTCCTGGAGCCCCGGGAAGTGCCCCAAGCG
CGCATGCAACCCGAATCCAGCTCCTCTTCGATTCTCGAGAATGCCAAAGA
CAAGTTCGACTTTCTCTCATGGACACATCCCTCCAAATCCAAGTCGGTCG
CGACGAACGGTTGAACAGGTCGAATCCCACTCATTCGTCACGGCCGCTAC
TTTAATGAATTACGACAGTCACTTCAATTCATGTTTTCACGGATTCTTAA
CCAATTACCCATTTTTATTCCCATCTCTACTTCTCACTACACACGTTTTT
CTCGCATTTCCGCTGTGTATACCTTTTGCTCTCACCCTCCTCCACATCTC
T back to topCoding sequence (CDS) from alignment at KZ851912.1:561851..566051+ >M747DRAFT_29491-T1 ID=M747DRAFT_29491-T1|Name=M747DRAFT_29491-T1|organism=Aspergillus niger ATCC 13496|type=CDS|length=6972bp|location=Sequence derived from alignment at KZ851912.1:561851..566051+ (Aspergillus niger ATCC 13496)
ATGGAATCAATGAAGCGACACATTGCGCCATTGAAGATCGAAAAGGGAAA
CCTTAACTACCACTACGACGACCAACAACAACACTATTATTATCAGCAGC
ACAATCTTGAAATGAGCCCTCCGTTAACACCTTACGGCAACAAAGACGAC
AGTATGGAGCAATCAGAGACGCCGAGGGCCGTCTTCCACAACTACCTCCG
TGCATTCTATCCTTATCACCCCTCCGGAAATGTCTCCCCGTCGACCGTCA
CCCTCCCCCTGGACCAAGGCGACATCGTTCTAGTGCATTCTGTTCACACC
AATGGTTGGGCCGATGGTACACTATTAGATACTGGAGCTCGGGGCTGGCT
ACCCACCAACTACTGCGAAGCGTATGACCAACAGCCTATGCGGCCGCTTT
TGAAGGCGTTGACCGACTTCTGGGATATCATTAGAGGAGGCTGTGGATTC
CCTCTAAACGACGCTGGCAACCAGGATCTTGTACGTGGCTTGATTGCTGG
CGTGCGCTACCTATTGCAAAAATCCGAATGTCTCACACGGGATTGTATCC
TGGTCACCAGTCACGACGGTCTGCGCAGGAATCGCAAAGCGTTGCTGGCT
GAGCTCTCATCTCTGGTCCGGACTACCAAGAGGTTTCAGGAGGTTGCCAG
CGGCAATGCGACGCAGGATGAAATAGACTACATGGTCGACGAAATGCTAC
TCAAGGCTTTCCGCATAGTTACGCGAGGAGTTCGTTTTCTCGATGTGTGG
ACCGAGGAAGTTGGCCTGAGCAGGACGATCGCCGAGCTCGAGCAGCAATC
AGGCTACCAGCAAGGCCCACTCTCTACGCTTTCTGAGACTCGCCCCATAT
CGGAAGCTGCTGGCTCCGAGGCCGACACCGAGCGCAACGAGTCTAGACTC
ATGAACCGTAGCCGATTGGATATGAGCCGAGCATCCACTCGCCTGGACGA
CTCTCAACAGACCCGTCCGGTGTCTGTGACCACCAAGCGGATTTCCGTCT
CCCACCGGGTCTCTACTTCGGGACCGGCCGCGATTGCCCGCAACCCCAAC
CTAGCGTCCGAACGACTGAACGATGCCTACGACGCATTCCTCGGTGTGCT
GGGCTCATTTATTGGGCTTCACCTGCAATCCCGCTCGTCCACGGAATTGG
TTGTGACTACGGAGCAGGCGGTGCGTTCCTGCCGCGCGCTGCTCACCGTC
GTCGAGGCCACTTGCGAGCATGACCCGCAAGGCAGTGGGCACCTGGAGCA
GGCTAGGGACACTATGTATGAACGCCTGTCCGAATTGGTCTATGCGGCCC
GGGACGCCTTCCGACCGGCCCATTCTCCAGATGATGAGCTTGTGTTCTTG
CCTGATGAAGGAAAGCGCCTGGTGGATGCCGCCACTGATTGCGTGCGAGC
AGCGGGGAGCTGCCTGGCCAAAGCTCGACTGATGCTGGAGCAATGCGGTG
ATTTCGAGCTGGAGGCAATGCCCCAGGATTTGCCTGCTGCAACCAGCGCG
GTAACCGACGCCAACAAAACCCCGCAACCCCCGAAGACAAGCACCTTTGC
TGGTCACCAGAACCGATCTCAAGAAGCATCATTGCGCTTGCCCCCGCCTC
CTCTACAGATTCCCAACTCCATCAACAACCGATACTCTCCTCCAACCCCA
GGTCTCACGGATGACACTACTCCCTCCTCCTTCCAGTCGCGTGGTGGAGC
CAGCACTCCCGGCACCGACATGTCCTCCTTCCCGTCCACCAATCTCCTCT
CCTCCAGCCTGGATAAGCTATCCTTTTCGTCTCACGACACCCAACCCATC
GAGATCCCTCCGCACAGGGACAGCCAAGCCAAGTCCGATGTTAGTGAGTC
CTTTGGCCGAGGCATCACTAGCAATGGAAGTAGCTTTACATTCAACAGCC
GTCTCCGCGACTCGGAGATGAGTGGTGTCTCCCAGACTTCTACTCGCGCT
ACCTCGCCCGACATTGGCAATCACTACCAGGTTCCCTCTCTCAAGGGCAG
CATCAGTCACTCCACCCTGGCCGAGGAAACAGAAGAAGGAGAAGCCAATA
TTCTGGAGAAGACCTACGCGCACGAGCTGATCTTCAAAGATGGCCAGATC
ATGGGCGGAAGTCTACGGGCACTCGTCGAGAAGCTGACTGCACACCAGTC
TACGCCAGACGCGATGTTCGTTTCGACCTTCTATCTCACTTTCCGTCTTT
TCGCTACCCCAATCGAGTTTGCCGAGACTTTGGTTGATCGATTCAACTAC
ATCGGGGACACTCCTCACACTGCCGGACCCGTTCGTCTGCGTGTTTACAA
CGTCTTCAAAGGCTGGCTCGAATCTCACTGGCGTCACGACTGCGATAACA
GTGCCCTCGAATACATTGTGAACTTCGCCAGCACGATCCTCATGAACAAC
CTTCCGTCTGCTGGAAAGCGGCTTGTCGAGCTTGCCGACAAGGTGTCAAT
GGTTCACGGACCAGTGGTACCCCGTCTGGTGTCTTCCATGGGAAAGACCA
ATACTGCAACTGCACAGTATGTGCACCCAGACACACCTCTGCCACCACCC
ATCCTTGGAAAGAAGGAAGTCAACCTTCTGAAGCAGTGGAAGAACGGTGA
AGGCACAATTACCATCTTGGATTTTGACCCGATGGAACTCGCTCGCCAGT
TCACGATCAAGGAGTCGCGCATCTTCTGCGCTATTCTTCCCGAAGAGCTG
CTAGCGACGGAGTGGATGAAGAAATCGGGTTCCCTGGCCGTTAACGTCAG
GGCCATGGCCACTCTGTCCACGGACCTGACGCATCTCGTGGCAGATTCGA
TTCTCCAGCTGGAGGAGCCCAAGAAGCGTGCAGCGATCATCAAGCACTGG
GTCAAGATTGCGAACAAGTGCCTGGAGCTCAGCAACTACGACTCATTGAT
GGCCATCATCTGCTCCTTAAATTCATCTATGATCTCCCGCTTGAAGCGGA
CCTGGGAAGTGGTGTCTCAGAAGACCAAGACGACTCTGGAATACCTGCGA
GGCATTGTCGATGTCTCACGGAACTACTACGTTCTCCGGCAGCGTCTGCA
GAACCGCGTCCCTCCTTGTCTGCCTTTCGTCGGCACTTACCTCACGGACC
TCACCTTCGTGGACCACGGCAACCAGGCACTGCGTACCTTGCCCACAGAC
GAGGGTGATATGGCAGTCATTAACTTCGACAAGCACATGAAGACGGCCAA
GATCATCAGCGAGCTGCAACGATTCCAGATTCCGTATCGCCTGACGGAAG
TGCCGGAGCTCCAAGCGTGGATGCAGAATGAGCTGGTCCGTGTGCGATCG
AGCGGCGAGAAAAGTCTGCAGACATTCTATCGCCGGTCGCTGGTCCTGGA
GCCCCGGGAAGTGCCCCAAGCGCGCATGCAACCCGAATCCAGCTCCTCTT
CGATTCTCGAGAATGCCAAAGACAAGTTCGACTTTCTCTCATGGACACAT
CCCTCCAAATCCAAGTCGGTCGCGACGAACGGTTGAATGGAATCAATGAA
GCGACACATTGCGCCATTGAAGATCGAAAAGGGAAACCTTAACTACCACT
ACGACGACCAACAACAACACTATTATTATCAGCAGCACAATCTTGAAATG
AGCCCTCCGTTAACACCTTACGGCAACAAAGACGACAGTATGGAGCAATC
AGAGACGCCGAGGGCCGTCTTCCACAACTACCTCCGTGCATTCTATCCTT
ATCACCCCTCCGGAAATGTCTCCCCGTCGACCGTCACCCTCCCCCTGGAC
CAAGGCGACATCGTTCTAGTGCATTCTGTTCACACCAATGGTTGGGCCGA
TGGTACACTATTAGATACTGGAGCTCGGGGCTGGCTACCCACCAACTACT
GCGAAGCGTATGACCAACAGCCTATGCGGCCGCTTTTGAAGGCGTTGACC
GACTTCTGGGATATCATTAGAGGAGGCTGTGGATTCCCTCTAAACGACGC
TGGCAACCAGGATCTTGTACGTGGCTTGATTGCTGGCGTGCGCTACCTAT
TGCAAAAATCCGAATGTCTCACACGGGATTGTATCCTGGTCACCAGTCAC
GACGGTCTGCGCAGGAATCGCAAAGCGTTGCTGGCTGAGCTCTCATCTCT
GGTCCGGACTACCAAGAGGTTTCAGGAGGTTGCCAGCGGCAATGCGACGC
AGGATGAAATAGACTACATGGTCGACGAAATGCTACTCAAGGCTTTCCGC
ATAGTTACGCGAGGAGTTCGTTTTCTCGATGTGTGGACCGAGGAAGTTGG
CCTGAGCAGGACGATCGCCGAGCTCGAGCAGCAATCAGGCTACCAGCAAG
GCCCACTCTCTACGCTTTCTGAGACTCGCCCCATATCGGAAGCTGCTGGC
TCCGAGGCCGACACCGAGCGCAACGAGTCTAGACTCATGAACCGTAGCCG
ATTGGATATGAGCCGAGCATCCACTCGCCTGGACGACTCTCAACAGACCC
GTCCGGTGTCTGTGACCACCAAGCGGATTTCCGTCTCCCACCGGGTCTCT
ACTTCGGGACCGGCCGCGATTGCCCGCAACCCCAACCTAGCGTCCGAACG
ACTGAACGATGCCTACGACGCATTCCTCGGTGTGCTGGGCTCATTTATTG
GGCTTCACCTGCAATCCCGCTCGTCCACGGAATTGGTTGTGACTACGGAG
CAGGCGGTGCGTTCCTGCCGCGCGCTGCTCACCGTCGTCGAGGCCACTTG
CGAGCATGACCCGCAAGGCAGTGGGCACCTGGAGCAGGCTAGGGACACTA
TGTATGAACGCCTGTCCGAATTGGTCTATGCGGCCCGGGACGCCTTCCGA
CCGGCCCATTCTCCAGATGATGAGCTTGTGTTCTTGCCTGATGAAGGAAA
GCGCCTGGTGGATGCCGCCACTGATTGCGTGCGAGCAGCGGGGAGCTGCC
TGGCCAAAGCTCGACTGATGCTGGAGCAATGCGGTGATTTCGAGCTGGAG
GCAATGCCCCAGGATTTGCCTGCTGCAACCAGCGCGGTAACCGACGCCAA
CAAAACCCCGCAACCCCCGAAGACAAGCACCTTTGCTGGTCACCAGAACC
GATCTCAAGAAGCATCATTGCGCTTGCCCCCGCCTCCTCTACAGATTCCC
AACTCCATCAACAACCGATACTCTCCTCCAACCCCAGGTCTCACGGATGA
CACTACTCCCTCCTCCTTCCAGTCGCGTGGTGGAGCCAGCACTCCCGGCA
CCGACATGTCCTCCTTCCCGTCCACCAATCTCCTCTCCTCCAGCCTGGAT
AAGCTATCCTTTTCGTCTCACGACACCCAACCCATCGAGATCCCTCCGCA
CAGGGACAGCCAAGCCAAGTCCGATGTTAGTGAGTCCTTTGGCCGAGGCA
TCACTAGCAATGGAAGTAGCTTTACATTCAACAGCCGTCTCCGCGACTCG
GAGATGAGTGGTGTCTCCCAGACTTCTACTCGCGCTACCTCGCCCGACAT
TGGCAATCACTACCAGGTTCCCTCTCTCAAGGGCAGCATCAGTCACTCCA
CCCTGGCCGAGGAAACAGAAGAAGGAGAAGCCAATATTCTGGAGAAGACC
TACGCGCACGAGCTGATCTTCAAAGATGGCCAGATCATGGGCGGAAGTCT
ACGGGCACTCGTCGAGAAGCTGACTGCACACCAGTCTACGCCAGACGCGA
TGTTCGTTTCGACCTTCTATCTCACTTTCCGTCTTTTCGCTACCCCAATC
GAGTTTGCCGAGACTTTGGTTGATCGATTCAACTACATCGGGGACACTCC
TCACACTGCCGGACCCGTTCGTCTGCGTGTTTACAACGTCTTCAAAGGCT
GGCTCGAATCTCACTGGCGTCACGACTGCGATAACAGTGCCCTCGAATAC
ATTGTGAACTTCGCCAGCACGATCCTCATGAACAACCTTCCGTCTGCTGG
AAAGCGGCTTGTCGAGCTTGCCGACAAGGTGTCAATGGTTCACGGACCAG
TGGTACCCCGTCTGGTGTCTTCCATGGGAAAGACCAATACTGCAACTGCA
CAGTATGTGCACCCAGACACACCTCTGCCACCACCCATCCTTGGAAAGAA
GGAAGTCAACCTTCTGAAGCAGTGGAAGAACGGTGAAGGCACAATTACCA
TCTTGGATTTTGACCCGATGGAACTCGCTCGCCAGTTCACGATCAAGGAG
TCGCGCATCTTCTGCGCTATTCTTCCCGAAGAGCTGCTAGCGACGGAGTG
GATGAAGAAATCGGGTTCCCTGGCCGTTAACGTCAGGGCCATGGCCACTC
TGTCCACGGACCTGACGCATCTCGTGGCAGATTCGATTCTCCAGCTGGAG
GAGCCCAAGAAGCGTGCAGCGATCATCAAGCACTGGGTCAAGATTGCGAA
CAAGTGCCTGGAGCTCAGCAACTACGACTCATTGATGGCCATCATCTGCT
CCTTAAATTCATCTATGATCTCCCGCTTGAAGCGGACCTGGGAAGTGGTG
TCTCAGAAGACCAAGACGACTCTGGAATACCTGCGAGGCATTGTCGATGT
CTCACGGAACTACTACGTTCTCCGGCAGCGTCTGCAGAACCGCGTCCCTC
CTTGTCTGCCTTTCGTCGGCACTTACCTCACGGACCTCACCTTCGTGGAC
CACGGCAACCAGGCACTGCGTACCTTGCCCACAGACGAGGGTGATATGGC
AGTCATTAACTTCGACAAGCACATGAAGACGGCCAAGATCATCAGCGAGC
TGCAACGATTCCAGATTCCGTATCGCCTGACGGAAGTGCCGGAGCTCCAA
GCGTGGATGCAGAATGAGCTGGTCCGTGTGCGATCGAGCGGCGAGAAAAG
TCTGCAGACATTCTATCGCCGGTCGCTGGTCCTGGAGCCCCGGGAAGTGC
CCCAAGCGCGCATGCAACCCGAATCCAGCTCCTCTTCGATTCTCGAGAAT
GCCAAAGACAAGTTCGACTTTCTCTCATGGACACATCCCTCCAAATCCAA
GTCGGTCGCGACGAACGGTTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
| GO:0005085 | guanyl-nucleotide exchange factor activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0007264 | small GTPase mediated signal transduction |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
The following three_prime_UTR feature(s) are a part of this mRNA:
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR023578 |
| DBxref | InterPro:IPR036028 |
| DBxref | InterPro:IPR001452 |
| DBxref | InterPro:IPR001895 |
| DBxref | InterPro:IPR000651 |
| DBxref | PFAM:PF00618 |
| DBxref | PFAM:PF00617 |
| Product | ras GEF |
Analyses
This mRNA is derived from or has results from the following analyses
Alignments
The following features are aligned
| Aligned Feature | Feature Type | Alignment Location |
|---|
| KZ851912.1 | supercontig | KZ851912.1:561851..566051 + |
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