|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at ch5:63135..66377+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_006677-T1 ID=KJC3_006677-T1|Name=KJC3_006677-T1|organism=Aspergillus niger KJC3|type=mRNA|length=3243bp|location=Sequence derived from alignment at ch5:63135..66377+ (Aspergillus niger KJC3)
TGACAGGCAGCCTGAGGCTGTCAGGTATGGTCACCTTTCCCCGCTTCCCA
TCGCTCTCCAGCCATTCCAGCCGCGCCTGGCAACGATTCCTGGTTCCCCG
ATCCCCCCCTACCCACCATCCGGTTGTACGGACTACGGAGCACACACGGT
CGCCAACGGCTGTTCCGCACGTGGAAGGTAAGTTAGGCTGCTCCATTCGC
TCTTGTGGTTGGACTTGCGACTCGCTAGGCCGACGCATTTTTGAGTCTTC
CATGTCCCATCTCCGCCTTGTCTCCCTGCGGCGTGACCTCCGACAAGCTG
ACCATCTAACAGAATGGCTACCCCGGATGTCGCCCCTCACTTTGGGGCGG
AGTTGAAGGTATGACATAACTCTGTCGCATCAACCCCAGATTCCAGCTAA
TCGAGGACCTTGGCAGGATTCGTTTAAACCGGTCAACAATTGGGTAGGCA
CTTATTTCCCTCTTCCCGCCCCCTCACCCCTTCAAGCTGAACACCTCGGA
TGATCGCCGAAACCCTATGGATCGAGAACTAAGATGTCGCTTGCTAGGTG
TCGAATGGTATCGGATGGCTGGACGAGATACAACAGTTTTACCGCGAGCG
CAGCGCAATCGAGAAGGAGTATGCCGCAAAGTTAACGGCACTATGCAAGA
AGTACTACGACCGCAAGGCCAAGAAAATCAGCAGTTTGAGTGTCGGAGAC
ACCCCTAGCATGACCCCGGGCTCCCTTGAAAGTGCCTCCCTCACCACGTG
GTCGACGCAATTGAGCGCCGTGGAAGCGCATGCCACTGAGCGGGATCATT
TCGGTAACGACCTGCTCGTCCACGTCGCAGAGCCGCTCAAACAAGCTGCG
ACCCAGTACGAGGAGCTCAGGAAGTGTCATGTGGATTTCCACGCCAAACT
GGAAAAGGAGAGGGACTCCTCGTATAGTGACCTGAAGAAGGCCAAGGGTA
AATATGATGGCGCGTGCCAGGAAGTTGAGGCAAGACGGAAGAAGATGGAA
TCCTCGTTCGACCACAGCAAGCCCAAGGCCCAGGCGGCGTATCAGCAGCA
GATATTGGAGATGAACAACGTTAAGGTGGGTTACTACGATGATGCGAGAA
GGCTACTCGCTGACGGCATTGCAGAACACATATCTCATTAGCATCAACGT
GACGAACAAGATGAAAGAGCGATTTTACCACGAATATGTGCCGGAGCTAC
TTGATGTAGGTTTGCTTTGACTGGTTGGATACAATTTGCTAATCTTCCAT
GCAGGGCCTGCAAGACCTCAACGAAACGCGTGTAACGAAGCTGAACTCAC
TCTGGACAATGGCCGCACAACTCGAGAAGAATTACCTCTCCAAGAGTATG
GACCACATGGCAAACCTCATCAACGAGATTCCGCGCAACGTTCCACACCT
GGACTCGCTTATGTTCCTGCGCCACAATGTCACACAATCACAGGAGCCGG
CCAACCTGGCCTTCGAGCCGAGCCCGATCTGGCACGACGACGACGCTCTC
ATTACCGACGAGGCGGCCAAGGTCTTCCTGCGCAACCTCCTCAGCAAGAG
CAAGACACAGGTGCGGGAACTGAGGGTCGAGGCCGATTCCAAGCGACGCG
AGGTGGAAAACGCCAGGCGGGTCCGGGAAAACATCCGGCAGGGCACGGAC
AAACGCAACGAGGTGGAAGTTGTCCGAGCTATATTCTTCCAACAGGAATC
CCTGCATGAAGTTGACCGCAGGCGCCTGACGGCCGAGGTGGAAACCTCTA
CCATCATGTCGGCGGTGGGCGATCTTTCGCTCGGAGCGCGCAACCACAAT
TTCAAGTCGCAGACGTTCAAGATCCCGACTAACTGCGACCTGTGCGGGGA
GAGGATATGGGGATTGTCCGCCAAGGGCTTCGACTGCCGCGACTGCGGAT
ACACCTGTCACAGTAAATGTGAAATGAAGGTCCCAGCCGAGTGCCCGGGC
GAGCAGACCAAGGAAGAAAAGAAGAAGCTGAAGGCGGAGCGACAAGAACA
AGCCAACACCGCGCCAGCGCCACTTGATCTCGAGCCAACTACGAGCTCAT
CCACGGCGCCATCGCTTACCCGCAAAGACACAATGAACTCGTTGAGCTCA
GGCTACGCGGTTAGCGCCAACCGATCTATGTCGAATGCCACACAGTCTCC
TACCACGACCGCCGCCGAGCTTCCCACACCCGTGGCGGAGACCAAACCCG
CCCCAGCACGGAAGAACCGCATTCTTGCACCGCCGCCGGCACAGTACATC
AGCGGTCCGCCGGCCAACGACTCGACGCCGGCGCTAAGCTCCAAGGCCAA
CGAGCAGCACGGCAAGATGCTCTACGCATACCAAGCCGGTGGGGCTGACG
AGGTCACTGTTCAAGAGGGAGACGATGTAGTCATTCTAGAGCCAGACGGT
ATGCCTTCTCCCCCGACTCTTTACCGGTAACAAACTAACCGATACATTAT
AGATGGATCTGGCTGGATGCGCGTCCGGTTCGGCAGCGAGGAAGGGCTCG
TGCCTGCTTCCTATGTGGAAGCTGGTCCCGCACCTTCGCCGGTGCCGTCC
GCCAGCCCCGGCTTCACGGCTGACCGGCCGGGCTCGACGTACTCGAACTC
GTCGGCCTCGTTGACGGGCGGCGGTGGCGCCGGGGGCAACAAACGGGTCG
GACCAGCCGTGGCACCGCGGCGGGGCGCCAAGAAACTCCAGTATGTGGAA
GCGCTGTATGACTACGAGGCGCGCAGCGATATGGAATGGAGTATGGTGGA
GGGCGACCGGTTTGTGCTGGTGAATCGGGATGGCGGAGATGGATGGGCGG
ATGTTGAGCGGGGTGGCGTGACGAAGAGCGTACCGGCGAACTATATTCAG
GAGGTGTGATGATATTTCCCCTACCTGCCTCCAGTTGGGGACTAGGTGGA
AGTATTGCATGGGCATGCTGCACCTTTCACATAGGTTATTTGTGGATTTT
TCTTGTTATTGTTACATTGCATCGGGAAGCCTGGGAGCTGGTCTGTTTGT
ATCTTGGCTTGCTTTGGTTTTGGCCGTTGTTGTTTTTGGCTACTTGTCTA
TATCCTCAGGCATATTCCTAAGTGGCAGGTAGATGTGTGCTGAGAAGTGC
ACCGTGCACAGTGCAGCAGAGGTAGTAGTGGATGTGGGGTGAATGGAACT
ATCTGTACATAGGGTTGAACTGCGCGTTGTGTATATGGCATGACATGGTC
ATCTATTGGGTTTCGTTTTATCCCTCCACGAGGTGTGTCGTGC back to topCoding sequence (CDS) from alignment at ch5:63135..66377+ >KJC3_006677-T1 ID=KJC3_006677-T1|Name=KJC3_006677-T1|organism=Aspergillus niger KJC3|type=CDS|length=7992bp|location=Sequence derived from alignment at ch5:63135..66377+ (Aspergillus niger KJC3)
ATGACCCCGGGCTCCCTTGAAAGTGCCTCCCTCACCACGTGGTCGACGCA
ATTGAGCGCCGTGGAAGCGCATGCCACTGAGCGGGATCATTTCGGTAACG
ACCTGCTCGTCCACGTCGCAGAGCCGCTCAAACAAGCTGCGACCCAGTAC
GAGGAGCTCAGGAAGTGTCATGTGGATTTCCACGCCAAACTGGAAAAGGA
GAGGGACTCCTCGTATAGTGACCTGAAGAAGGCCAAGGGTAAATATGATG
GCGCGTGCCAGGAAGTTGAGGCAAGACGGAAGAAGATGGAATCCTCGTTC
GACCACAGCAAGCCCAAGGCCCAGGCGGCGTATCAGCAGCAGATATTGGA
GATGAACAACGTTAAGAACACATATCTCATTAGCATCAACGTGACGAACA
AGATGAAAGAGCGATTTTACCACGAATATGTGCCGGAGCTACTTGATGGC
CTGCAAGACCTCAACGAAACGCGTGTAACGAAGCTGAACTCACTCTGGAC
AATGGCCGCACAACTCGAGAAGAATTACCTCTCCAAGAGTATGGACCACA
TGGCAAACCTCATCAACGAGATTCCGCGCAACGTTCCACACCTGGACTCG
CTTATGTTCCTGCGCCACAATGTCACACAATCACAGGAGCCGGCCAACCT
GGCCTTCGAGCCGAGCCCGATCTGGCACGACGACGACGCTCTCATTACCG
ACGAGGCGGCCAAGGTCTTCCTGCGCAACCTCCTCAGCAAGAGCAAGACA
CAGGTGCGGGAACTGAGGGTCGAGGCCGATTCCAAGCGACGCGAGGTGGA
AAACGCCAGGCGGGTCCGGGAAAACATCCGGCAGGGCACGGACAAACGCA
ACGAGGTGGAAGTTGTCCGAGCTATATTCTTCCAACAGGAATCCCTGCAT
GAAGTTGACCGCAGGCGCCTGACGGCCGAGGTGGAAACCTCTACCATCAT
GTCGGCGGTGGGCGATCTTTCGCTCGGAGCGCGCAACCACAATTTCAAGT
CGCAGACGTTCAAGATCCCGACTAACTGCGACCTGTGCGGGGAGAGGATA
TGGGGATTGTCCGCCAAGGGCTTCGACTGCCGCGACTGCGGATACACCTG
TCACAGTAAATGTGAAATGAAGGTCCCAGCCGAGTGCCCGGGCGAGCAGA
CCAAGGAAGAAAAGAAGAAGCTGAAGGCGGAGCGACAAGAACAAGCCAAC
ACCGCGCCAGCGCCACTTGATCTCGAGCCAACTACGAGCTCATCCACGGC
GCCATCGCTTACCCGCAAAGACACAATGAACTCGTTGAGCTCAGGCTACG
CGGTTAGCGCCAACCGATCTATGTCGAATGCCACACAGTCTCCTACCACG
ACCGCCGCCGAGCTTCCCACACCCGTGGCGGAGACCAAACCCGCCCCAGC
ACGGAAGAACCGCATTCTTGCACCGCCGCCGGCACAGTACATCAGCGGTC
CGCCGGCCAACGACTCGACGCCGGCGCTAAGCTCCAAGGCCAACGAGCAG
CACGGCAAGATGCTCTACGCATACCAAGCCGGTGGGGCTGACGAGGTCAC
TGTTCAAGAGGGAGACGATGTAGTCATTCTAGAGCCAGACGATGGATCTG
GCTGGATGCGCGTCCGGTTCGGCAGCGAGGAAGGGCTCGTGCCTGCTTCC
TATGTGGAAGCTGGTCCCGCACCTTCGCCGGTGCCGTCCGCCAGCCCCGG
CTTCACGGCTGACCGGCCGGGCTCGACGTACTCGAACTCGTCGGCCTCGT
TGACGGGCGGCGGTGGCGCCGGGGGCAACAAACGGGTCGGACCAGCCGTG
GCACCGCGGCGGGGCGCCAAGAAACTCCAGTATGTGGAAGCGCTGTATGA
CTACGAGGCGCGCAGCGATATGGAATGGAGTATGGTGGAGGGCGACCGGT
TTGTGCTGGTGAATCGGGATGGCGGAGATGGATGGGCGGATGTTGAGCGG
GGTGGCGTGACGAAGAGCGTACCGGCGAACTATATTCAGGAGGTGTGAAT
GACCCCGGGCTCCCTTGAAAGTGCCTCCCTCACCACGTGGTCGACGCAAT
TGAGCGCCGTGGAAGCGCATGCCACTGAGCGGGATCATTTCGGTAACGAC
CTGCTCGTCCACGTCGCAGAGCCGCTCAAACAAGCTGCGACCCAGTACGA
GGAGCTCAGGAAGTGTCATGTGGATTTCCACGCCAAACTGGAAAAGGAGA
GGGACTCCTCGTATAGTGACCTGAAGAAGGCCAAGGGTAAATATGATGGC
GCGTGCCAGGAAGTTGAGGCAAGACGGAAGAAGATGGAATCCTCGTTCGA
CCACAGCAAGCCCAAGGCCCAGGCGGCGTATCAGCAGCAGATATTGGAGA
TGAACAACGTTAAGAACACATATCTCATTAGCATCAACGTGACGAACAAG
ATGAAAGAGCGATTTTACCACGAATATGTGCCGGAGCTACTTGATGGCCT
GCAAGACCTCAACGAAACGCGTGTAACGAAGCTGAACTCACTCTGGACAA
TGGCCGCACAACTCGAGAAGAATTACCTCTCCAAGAGTATGGACCACATG
GCAAACCTCATCAACGAGATTCCGCGCAACGTTCCACACCTGGACTCGCT
TATGTTCCTGCGCCACAATGTCACACAATCACAGGAGCCGGCCAACCTGG
CCTTCGAGCCGAGCCCGATCTGGCACGACGACGACGCTCTCATTACCGAC
GAGGCGGCCAAGGTCTTCCTGCGCAACCTCCTCAGCAAGAGCAAGACACA
GGTGCGGGAACTGAGGGTCGAGGCCGATTCCAAGCGACGCGAGGTGGAAA
ACGCCAGGCGGGTCCGGGAAAACATCCGGCAGGGCACGGACAAACGCAAC
GAGGTGGAAGTTGTCCGAGCTATATTCTTCCAACAGGAATCCCTGCATGA
AGTTGACCGCAGGCGCCTGACGGCCGAGGTGGAAACCTCTACCATCATGT
CGGCGGTGGGCGATCTTTCGCTCGGAGCGCGCAACCACAATTTCAAGTCG
CAGACGTTCAAGATCCCGACTAACTGCGACCTGTGCGGGGAGAGGATATG
GGGATTGTCCGCCAAGGGCTTCGACTGCCGCGACTGCGGATACACCTGTC
ACAGTAAATGTGAAATGAAGGTCCCAGCCGAGTGCCCGGGCGAGCAGACC
AAGGAAGAAAAGAAGAAGCTGAAGGCGGAGCGACAAGAACAAGCCAACAC
CGCGCCAGCGCCACTTGATCTCGAGCCAACTACGAGCTCATCCACGGCGC
CATCGCTTACCCGCAAAGACACAATGAACTCGTTGAGCTCAGGCTACGCG
GTTAGCGCCAACCGATCTATGTCGAATGCCACACAGTCTCCTACCACGAC
CGCCGCCGAGCTTCCCACACCCGTGGCGGAGACCAAACCCGCCCCAGCAC
GGAAGAACCGCATTCTTGCACCGCCGCCGGCACAGTACATCAGCGGTCCG
CCGGCCAACGACTCGACGCCGGCGCTAAGCTCCAAGGCCAACGAGCAGCA
CGGCAAGATGCTCTACGCATACCAAGCCGGTGGGGCTGACGAGGTCACTG
TTCAAGAGGGAGACGATGTAGTCATTCTAGAGCCAGACGATGGATCTGGC
TGGATGCGCGTCCGGTTCGGCAGCGAGGAAGGGCTCGTGCCTGCTTCCTA
TGTGGAAGCTGGTCCCGCACCTTCGCCGGTGCCGTCCGCCAGCCCCGGCT
TCACGGCTGACCGGCCGGGCTCGACGTACTCGAACTCGTCGGCCTCGTTG
ACGGGCGGCGGTGGCGCCGGGGGCAACAAACGGGTCGGACCAGCCGTGGC
ACCGCGGCGGGGCGCCAAGAAACTCCAGTATGTGGAAGCGCTGTATGACT
ACGAGGCGCGCAGCGATATGGAATGGAGTATGGTGGAGGGCGACCGGTTT
GTGCTGGTGAATCGGGATGGCGGAGATGGATGGGCGGATGTTGAGCGGGG
TGGCGTGACGAAGAGCGTACCGGCGAACTATATTCAGGAGGTGTGAATGA
CCCCGGGCTCCCTTGAAAGTGCCTCCCTCACCACGTGGTCGACGCAATTG
AGCGCCGTGGAAGCGCATGCCACTGAGCGGGATCATTTCGGTAACGACCT
GCTCGTCCACGTCGCAGAGCCGCTCAAACAAGCTGCGACCCAGTACGAGG
AGCTCAGGAAGTGTCATGTGGATTTCCACGCCAAACTGGAAAAGGAGAGG
GACTCCTCGTATAGTGACCTGAAGAAGGCCAAGGGTAAATATGATGGCGC
GTGCCAGGAAGTTGAGGCAAGACGGAAGAAGATGGAATCCTCGTTCGACC
ACAGCAAGCCCAAGGCCCAGGCGGCGTATCAGCAGCAGATATTGGAGATG
AACAACGTTAAGAACACATATCTCATTAGCATCAACGTGACGAACAAGAT
GAAAGAGCGATTTTACCACGAATATGTGCCGGAGCTACTTGATGGCCTGC
AAGACCTCAACGAAACGCGTGTAACGAAGCTGAACTCACTCTGGACAATG
GCCGCACAACTCGAGAAGAATTACCTCTCCAAGAGTATGGACCACATGGC
AAACCTCATCAACGAGATTCCGCGCAACGTTCCACACCTGGACTCGCTTA
TGTTCCTGCGCCACAATGTCACACAATCACAGGAGCCGGCCAACCTGGCC
TTCGAGCCGAGCCCGATCTGGCACGACGACGACGCTCTCATTACCGACGA
GGCGGCCAAGGTCTTCCTGCGCAACCTCCTCAGCAAGAGCAAGACACAGG
TGCGGGAACTGAGGGTCGAGGCCGATTCCAAGCGACGCGAGGTGGAAAAC
GCCAGGCGGGTCCGGGAAAACATCCGGCAGGGCACGGACAAACGCAACGA
GGTGGAAGTTGTCCGAGCTATATTCTTCCAACAGGAATCCCTGCATGAAG
TTGACCGCAGGCGCCTGACGGCCGAGGTGGAAACCTCTACCATCATGTCG
GCGGTGGGCGATCTTTCGCTCGGAGCGCGCAACCACAATTTCAAGTCGCA
GACGTTCAAGATCCCGACTAACTGCGACCTGTGCGGGGAGAGGATATGGG
GATTGTCCGCCAAGGGCTTCGACTGCCGCGACTGCGGATACACCTGTCAC
AGTAAATGTGAAATGAAGGTCCCAGCCGAGTGCCCGGGCGAGCAGACCAA
GGAAGAAAAGAAGAAGCTGAAGGCGGAGCGACAAGAACAAGCCAACACCG
CGCCAGCGCCACTTGATCTCGAGCCAACTACGAGCTCATCCACGGCGCCA
TCGCTTACCCGCAAAGACACAATGAACTCGTTGAGCTCAGGCTACGCGGT
TAGCGCCAACCGATCTATGTCGAATGCCACACAGTCTCCTACCACGACCG
CCGCCGAGCTTCCCACACCCGTGGCGGAGACCAAACCCGCCCCAGCACGG
AAGAACCGCATTCTTGCACCGCCGCCGGCACAGTACATCAGCGGTCCGCC
GGCCAACGACTCGACGCCGGCGCTAAGCTCCAAGGCCAACGAGCAGCACG
GCAAGATGCTCTACGCATACCAAGCCGGTGGGGCTGACGAGGTCACTGTT
CAAGAGGGAGACGATGTAGTCATTCTAGAGCCAGACGATGGATCTGGCTG
GATGCGCGTCCGGTTCGGCAGCGAGGAAGGGCTCGTGCCTGCTTCCTATG
TGGAAGCTGGTCCCGCACCTTCGCCGGTGCCGTCCGCCAGCCCCGGCTTC
ACGGCTGACCGGCCGGGCTCGACGTACTCGAACTCGTCGGCCTCGTTGAC
GGGCGGCGGTGGCGCCGGGGGCAACAAACGGGTCGGACCAGCCGTGGCAC
CGCGGCGGGGCGCCAAGAAACTCCAGTATGTGGAAGCGCTGTATGACTAC
GAGGCGCGCAGCGATATGGAATGGAGTATGGTGGAGGGCGACCGGTTTGT
GCTGGTGAATCGGGATGGCGGAGATGGATGGGCGGATGTTGAGCGGGGTG
GCGTGACGAAGAGCGTACCGGCGAACTATATTCAGGAGGTGTGAATGACC
CCGGGCTCCCTTGAAAGTGCCTCCCTCACCACGTGGTCGACGCAATTGAG
CGCCGTGGAAGCGCATGCCACTGAGCGGGATCATTTCGGTAACGACCTGC
TCGTCCACGTCGCAGAGCCGCTCAAACAAGCTGCGACCCAGTACGAGGAG
CTCAGGAAGTGTCATGTGGATTTCCACGCCAAACTGGAAAAGGAGAGGGA
CTCCTCGTATAGTGACCTGAAGAAGGCCAAGGGTAAATATGATGGCGCGT
GCCAGGAAGTTGAGGCAAGACGGAAGAAGATGGAATCCTCGTTCGACCAC
AGCAAGCCCAAGGCCCAGGCGGCGTATCAGCAGCAGATATTGGAGATGAA
CAACGTTAAGAACACATATCTCATTAGCATCAACGTGACGAACAAGATGA
AAGAGCGATTTTACCACGAATATGTGCCGGAGCTACTTGATGGCCTGCAA
GACCTCAACGAAACGCGTGTAACGAAGCTGAACTCACTCTGGACAATGGC
CGCACAACTCGAGAAGAATTACCTCTCCAAGAGTATGGACCACATGGCAA
ACCTCATCAACGAGATTCCGCGCAACGTTCCACACCTGGACTCGCTTATG
TTCCTGCGCCACAATGTCACACAATCACAGGAGCCGGCCAACCTGGCCTT
CGAGCCGAGCCCGATCTGGCACGACGACGACGCTCTCATTACCGACGAGG
CGGCCAAGGTCTTCCTGCGCAACCTCCTCAGCAAGAGCAAGACACAGGTG
CGGGAACTGAGGGTCGAGGCCGATTCCAAGCGACGCGAGGTGGAAAACGC
CAGGCGGGTCCGGGAAAACATCCGGCAGGGCACGGACAAACGCAACGAGG
TGGAAGTTGTCCGAGCTATATTCTTCCAACAGGAATCCCTGCATGAAGTT
GACCGCAGGCGCCTGACGGCCGAGGTGGAAACCTCTACCATCATGTCGGC
GGTGGGCGATCTTTCGCTCGGAGCGCGCAACCACAATTTCAAGTCGCAGA
CGTTCAAGATCCCGACTAACTGCGACCTGTGCGGGGAGAGGATATGGGGA
TTGTCCGCCAAGGGCTTCGACTGCCGCGACTGCGGATACACCTGTCACAG
TAAATGTGAAATGAAGGTCCCAGCCGAGTGCCCGGGCGAGCAGACCAAGG
AAGAAAAGAAGAAGCTGAAGGCGGAGCGACAAGAACAAGCCAACACCGCG
CCAGCGCCACTTGATCTCGAGCCAACTACGAGCTCATCCACGGCGCCATC
GCTTACCCGCAAAGACACAATGAACTCGTTGAGCTCAGGCTACGCGGTTA
GCGCCAACCGATCTATGTCGAATGCCACACAGTCTCCTACCACGACCGCC
GCCGAGCTTCCCACACCCGTGGCGGAGACCAAACCCGCCCCAGCACGGAA
GAACCGCATTCTTGCACCGCCGCCGGCACAGTACATCAGCGGTCCGCCGG
CCAACGACTCGACGCCGGCGCTAAGCTCCAAGGCCAACGAGCAGCACGGC
AAGATGCTCTACGCATACCAAGCCGGTGGGGCTGACGAGGTCACTGTTCA
AGAGGGAGACGATGTAGTCATTCTAGAGCCAGACGATGGATCTGGCTGGA
TGCGCGTCCGGTTCGGCAGCGAGGAAGGGCTCGTGCCTGCTTCCTATGTG
GAAGCTGGTCCCGCACCTTCGCCGGTGCCGTCCGCCAGCCCCGGCTTCAC
GGCTGACCGGCCGGGCTCGACGTACTCGAACTCGTCGGCCTCGTTGACGG
GCGGCGGTGGCGCCGGGGGCAACAAACGGGTCGGACCAGCCGTGGCACCG
CGGCGGGGCGCCAAGAAACTCCAGTATGTGGAAGCGCTGTATGACTACGA
GGCGCGCAGCGATATGGAATGGAGTATGGTGGAGGGCGACCGGTTTGTGC
TGGTGAATCGGGATGGCGGAGATGGATGGGCGGATGTTGAGCGGGGTGGC
GTGACGAAGAGCGTACCGGCGAACTATATTCAGGAGGTGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0005515 | protein binding |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0035556 | intracellular 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:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_006677-T1.utr5p1 | KJC3_006677-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
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:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_006677-T1.utr3p1 | KJC3_006677-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| Note | BUSCO:EOG09260XMI |
| DBxref | InterPro:IPR036028 |
| DBxref | InterPro:IPR035459 |
| DBxref | InterPro:IPR031160 |
| DBxref | InterPro:IPR027267 |
| DBxref | InterPro:IPR001452 |
| DBxref | InterPro:IPR002219 |
| DBxref | InterPro:IPR020454 |
| DBxref | PFAM:PF14604 |
| DBxref | PFAM:PF00018 |
| DBxref | PFAM:PF00611 |
| DBxref | PFAM:PF00130 |
| Product | hypothetical protein |
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 |
|---|
| ch5 | supercontig | ch5:63135..66377 + |
|
