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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch2:2441206..2443444+ Legend: five_prime_UTRexonpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_002388-T1 ID=KJC3_002388-T1|Name=KJC3_002388-T1|organism=Aspergillus niger KJC3|type=mRNA|length=2239bp|location=Sequence derived from alignment at ch2:2441206..2443444+ (Aspergillus niger KJC3)
CTCTGAACAGCCAGGCCAGGAGTACTTTTGTGCCACCCAGGGATCCTGCG
CGCTGACTAACCACGGCCGGCAGTAACCGGGCCTCTTATATCACCGGAGC
TTCCCCGCGTCGTGCTTCACTTTCTCCTCACCTCTCCTACTTTTTATCCC
TCGGATTCAGTCCTCGTCCAGTTGCAACGACTCGGAAGAGCACAATCCAT
CATGCAGTCCTCTTTGCTCCTGCGTTCTCGGGGCCTTTCCCTCGCCAAAT
GCCCCTCCCTCTCCCTTGCCCGCACGAGCGCTCGTGCCATGGGCTCTTAC
GCCACCTTCAAGGTTCCTCGCATTGACAACGAGCCGAACGTGAGCTATCC
TCAGATCGTGGTTATTATCAAGCTTACTGACTCGATTGCAGAAACACTAC
GCCCCCGGATCTCCTGATCGCCGTGGTCTCGAGGAGGCCCTCGCCAGAAC
CAAGCAGAGCGGTCCCCTCAATGTGCCTTTGGTGATTGCCGGCAAGGAGG
TTAGTAGCAGACATGCGAATGATAGACACAATTGGGATAATGCTAACTCC
CCACAGATCAAGAGCTCCCAGTCCGAGACCCAGAGCAACCCCGCCTCCCA
TGCGCCCGTGGCCACTTACTCCAACGCCTCCGCCGCCGAGGTTCAGGCTG
CTATCGATGCCGCCCTTGAGGCTCGCAAGTCGTGGGCTGCCACCTCTTTC
GCCGACCGTGCCAGCATCTTCCTCAAGGCCGCTGACCTGATCTCGACCAA
ATACCGCTATGACATCATGGCTCTGACCATGCACGGCCAGGGCAAGAATG
CCTGGCAGGCCGAGATCGACTCTGCCGCCGAGCTGTGCGATTTCTTCCGC
TTCGGTGTCAAGTACGCCGAGGACCTGTACGCTCAGCAGCCCGTTCACCA
CGCTCCTGGCGTGTGGAAGTGAGTGACTCCATCATACTAGCAGTTGATAG
ATCGAAAACTAACCGGACCAGCCGTGTTGAATACCGTCCTCTGGAGGGAT
TCGTCTACGCCATCAGTCCTTTCAACTTCACTGCCATTGGCGGTAACCTG
GCTGGTGCTCCCGCCCTGATGGGTAACGTTGTCGTCTGGAAGCCTTCTCC
TTCCGCCATCGCTTCCAACTGGCTCGTCCACCAGATCCTCCTCGAGGCCG
GTCTGCCCAAGAACGTCATCCAGTTCGTCCCCGGTGACGCCGCGGAGGTC
ACCAACACCGTTCTCAACCACCCCGACTTTGCTGCCCTTCACTTCACCGG
TAGCACTGCTGTGTTCCGCAGCCTCTACGGCCAGATCGCCAACGGCGTCG
CCGAGGGCAAGTACCGCAGCTACCCCCGCATTGTTGGTGAGACCGGTGGT
AAGAACTTCCACCTGGTCCACAAGTCCGCCGATGTCCGCAACGCGGCTGT
CCAGACTGTCCGCGGAGCCTTCGAGTTCCAGGGCCAGAAGTGCAGTGCCA
CCTCCCGTGCCTACGTGGCCGCGTCCATCGCCAACGAGTTCATCGAGAAC
GTTGTTGCCGAGACCAAGAACATCAAGGTCGGCGAGCCCTCGGACTTCAC
CAACTTCTGCGGTCCTGTCATCCACGAGGCCTCCTTCAACAAGCTGGCCA
ACGTGATCGATGAGGCCAAGAACGACCCCGAGCTGGAGCTGCTGGCCGGC
GGTTCCTACGATTCCTCCAAGGGATGGTACATCCAGCCCACCGTCTACCA
CACCAGCAACCCCGACCACCCTCTCCTCTCCCGCGAGCTCTTCGGTCCCG
TCCTGGTCATCCACACCTACGCCGATGCCACCGAGGCCGACTTTGCCAAG
ATCTGCGAGAAGGTCGACCAGACCGGCGACTACGGTCTGACCGGCTCCAT
CTTCGCCCAGGACCGCGAGGTTCTCCGCATCGCCGACGATGCCCTGCGCA
ACACTGCCGGTAACTTCTACATCAACTGCAAGAGCACTGGTGCTGTTGTC
GGCCAGCAGCCCTTCGGTGGTGCCCGTGCCAGTGGTACCAACGACAAGGC
TGGCAGTGGCAACCTGCTGTCCCGCTTCGTCAGTCTGCGGTCGATCAAGG
AGGAGTTTGTCCCGACCTACAAGGTCCCCTACCCTAGCAACGATGCTTAG
GGAGCTGAGTCGGATGGGTGATGAGCGATGGTTGTTTGGCATTTATCCAT
ATTCCCCATGAGTTATGCATATGTGGCGTTCGGTAAAATTTGTTTGTATG
AATAGTTTAGTTTGATTTAAATATATCCAGTCCACCGGA back to topCoding sequence (CDS) from alignment at ch2:2441206..2443444+ >KJC3_002388-T1 ID=KJC3_002388-T1|Name=KJC3_002388-T1|organism=Aspergillus niger KJC3|type=CDS|length=6948bp|location=Sequence derived from alignment at ch2:2441206..2443444+ (Aspergillus niger KJC3)
ATGCAGTCCTCTTTGCTCCTGCGTTCTCGGGGCCTTTCCCTCGCCAAATG
CCCCTCCCTCTCCCTTGCCCGCACGAGCGCTCGTGCCATGGGCTCTTACG
CCACCTTCAAGGTTCCTCGCATTGACAACGAGCCGAACAAACACTACGCC
CCCGGATCTCCTGATCGCCGTGGTCTCGAGGAGGCCCTCGCCAGAACCAA
GCAGAGCGGTCCCCTCAATGTGCCTTTGGTGATTGCCGGCAAGGAGATCA
AGAGCTCCCAGTCCGAGACCCAGAGCAACCCCGCCTCCCATGCGCCCGTG
GCCACTTACTCCAACGCCTCCGCCGCCGAGGTTCAGGCTGCTATCGATGC
CGCCCTTGAGGCTCGCAAGTCGTGGGCTGCCACCTCTTTCGCCGACCGTG
CCAGCATCTTCCTCAAGGCCGCTGACCTGATCTCGACCAAATACCGCTAT
GACATCATGGCTCTGACCATGCACGGCCAGGGCAAGAATGCCTGGCAGGC
CGAGATCGACTCTGCCGCCGAGCTGTGCGATTTCTTCCGCTTCGGTGTCA
AGTACGCCGAGGACCTGTACGCTCAGCAGCCCGTTCACCACGCTCCTGGC
GTGTGGAACCGTGTTGAATACCGTCCTCTGGAGGGATTCGTCTACGCCAT
CAGTCCTTTCAACTTCACTGCCATTGGCGGTAACCTGGCTGGTGCTCCCG
CCCTGATGGGTAACGTTGTCGTCTGGAAGCCTTCTCCTTCCGCCATCGCT
TCCAACTGGCTCGTCCACCAGATCCTCCTCGAGGCCGGTCTGCCCAAGAA
CGTCATCCAGTTCGTCCCCGGTGACGCCGCGGAGGTCACCAACACCGTTC
TCAACCACCCCGACTTTGCTGCCCTTCACTTCACCGGTAGCACTGCTGTG
TTCCGCAGCCTCTACGGCCAGATCGCCAACGGCGTCGCCGAGGGCAAGTA
CCGCAGCTACCCCCGCATTGTTGGTGAGACCGGTGGTAAGAACTTCCACC
TGGTCCACAAGTCCGCCGATGTCCGCAACGCGGCTGTCCAGACTGTCCGC
GGAGCCTTCGAGTTCCAGGGCCAGAAGTGCAGTGCCACCTCCCGTGCCTA
CGTGGCCGCGTCCATCGCCAACGAGTTCATCGAGAACGTTGTTGCCGAGA
CCAAGAACATCAAGGTCGGCGAGCCCTCGGACTTCACCAACTTCTGCGGT
CCTGTCATCCACGAGGCCTCCTTCAACAAGCTGGCCAACGTGATCGATGA
GGCCAAGAACGACCCCGAGCTGGAGCTGCTGGCCGGCGGTTCCTACGATT
CCTCCAAGGGATGGTACATCCAGCCCACCGTCTACCACACCAGCAACCCC
GACCACCCTCTCCTCTCCCGCGAGCTCTTCGGTCCCGTCCTGGTCATCCA
CACCTACGCCGATGCCACCGAGGCCGACTTTGCCAAGATCTGCGAGAAGG
TCGACCAGACCGGCGACTACGGTCTGACCGGCTCCATCTTCGCCCAGGAC
CGCGAGGTTCTCCGCATCGCCGACGATGCCCTGCGCAACACTGCCGGTAA
CTTCTACATCAACTGCAAGAGCACTGGTGCTGTTGTCGGCCAGCAGCCCT
TCGGTGGTGCCCGTGCCAGTGGTACCAACGACAAGGCTGGCAGTGGCAAC
CTGCTGTCCCGCTTCGTCAGTCTGCGGTCGATCAAGGAGGAGTTTGTCCC
GACCTACAAGGTCCCCTACCCTAGCAACGATGCTTAGATGCAGTCCTCTT
TGCTCCTGCGTTCTCGGGGCCTTTCCCTCGCCAAATGCCCCTCCCTCTCC
CTTGCCCGCACGAGCGCTCGTGCCATGGGCTCTTACGCCACCTTCAAGGT
TCCTCGCATTGACAACGAGCCGAACAAACACTACGCCCCCGGATCTCCTG
ATCGCCGTGGTCTCGAGGAGGCCCTCGCCAGAACCAAGCAGAGCGGTCCC
CTCAATGTGCCTTTGGTGATTGCCGGCAAGGAGATCAAGAGCTCCCAGTC
CGAGACCCAGAGCAACCCCGCCTCCCATGCGCCCGTGGCCACTTACTCCA
ACGCCTCCGCCGCCGAGGTTCAGGCTGCTATCGATGCCGCCCTTGAGGCT
CGCAAGTCGTGGGCTGCCACCTCTTTCGCCGACCGTGCCAGCATCTTCCT
CAAGGCCGCTGACCTGATCTCGACCAAATACCGCTATGACATCATGGCTC
TGACCATGCACGGCCAGGGCAAGAATGCCTGGCAGGCCGAGATCGACTCT
GCCGCCGAGCTGTGCGATTTCTTCCGCTTCGGTGTCAAGTACGCCGAGGA
CCTGTACGCTCAGCAGCCCGTTCACCACGCTCCTGGCGTGTGGAACCGTG
TTGAATACCGTCCTCTGGAGGGATTCGTCTACGCCATCAGTCCTTTCAAC
TTCACTGCCATTGGCGGTAACCTGGCTGGTGCTCCCGCCCTGATGGGTAA
CGTTGTCGTCTGGAAGCCTTCTCCTTCCGCCATCGCTTCCAACTGGCTCG
TCCACCAGATCCTCCTCGAGGCCGGTCTGCCCAAGAACGTCATCCAGTTC
GTCCCCGGTGACGCCGCGGAGGTCACCAACACCGTTCTCAACCACCCCGA
CTTTGCTGCCCTTCACTTCACCGGTAGCACTGCTGTGTTCCGCAGCCTCT
ACGGCCAGATCGCCAACGGCGTCGCCGAGGGCAAGTACCGCAGCTACCCC
CGCATTGTTGGTGAGACCGGTGGTAAGAACTTCCACCTGGTCCACAAGTC
CGCCGATGTCCGCAACGCGGCTGTCCAGACTGTCCGCGGAGCCTTCGAGT
TCCAGGGCCAGAAGTGCAGTGCCACCTCCCGTGCCTACGTGGCCGCGTCC
ATCGCCAACGAGTTCATCGAGAACGTTGTTGCCGAGACCAAGAACATCAA
GGTCGGCGAGCCCTCGGACTTCACCAACTTCTGCGGTCCTGTCATCCACG
AGGCCTCCTTCAACAAGCTGGCCAACGTGATCGATGAGGCCAAGAACGAC
CCCGAGCTGGAGCTGCTGGCCGGCGGTTCCTACGATTCCTCCAAGGGATG
GTACATCCAGCCCACCGTCTACCACACCAGCAACCCCGACCACCCTCTCC
TCTCCCGCGAGCTCTTCGGTCCCGTCCTGGTCATCCACACCTACGCCGAT
GCCACCGAGGCCGACTTTGCCAAGATCTGCGAGAAGGTCGACCAGACCGG
CGACTACGGTCTGACCGGCTCCATCTTCGCCCAGGACCGCGAGGTTCTCC
GCATCGCCGACGATGCCCTGCGCAACACTGCCGGTAACTTCTACATCAAC
TGCAAGAGCACTGGTGCTGTTGTCGGCCAGCAGCCCTTCGGTGGTGCCCG
TGCCAGTGGTACCAACGACAAGGCTGGCAGTGGCAACCTGCTGTCCCGCT
TCGTCAGTCTGCGGTCGATCAAGGAGGAGTTTGTCCCGACCTACAAGGTC
CCCTACCCTAGCAACGATGCTTAGATGCAGTCCTCTTTGCTCCTGCGTTC
TCGGGGCCTTTCCCTCGCCAAATGCCCCTCCCTCTCCCTTGCCCGCACGA
GCGCTCGTGCCATGGGCTCTTACGCCACCTTCAAGGTTCCTCGCATTGAC
AACGAGCCGAACAAACACTACGCCCCCGGATCTCCTGATCGCCGTGGTCT
CGAGGAGGCCCTCGCCAGAACCAAGCAGAGCGGTCCCCTCAATGTGCCTT
TGGTGATTGCCGGCAAGGAGATCAAGAGCTCCCAGTCCGAGACCCAGAGC
AACCCCGCCTCCCATGCGCCCGTGGCCACTTACTCCAACGCCTCCGCCGC
CGAGGTTCAGGCTGCTATCGATGCCGCCCTTGAGGCTCGCAAGTCGTGGG
CTGCCACCTCTTTCGCCGACCGTGCCAGCATCTTCCTCAAGGCCGCTGAC
CTGATCTCGACCAAATACCGCTATGACATCATGGCTCTGACCATGCACGG
CCAGGGCAAGAATGCCTGGCAGGCCGAGATCGACTCTGCCGCCGAGCTGT
GCGATTTCTTCCGCTTCGGTGTCAAGTACGCCGAGGACCTGTACGCTCAG
CAGCCCGTTCACCACGCTCCTGGCGTGTGGAACCGTGTTGAATACCGTCC
TCTGGAGGGATTCGTCTACGCCATCAGTCCTTTCAACTTCACTGCCATTG
GCGGTAACCTGGCTGGTGCTCCCGCCCTGATGGGTAACGTTGTCGTCTGG
AAGCCTTCTCCTTCCGCCATCGCTTCCAACTGGCTCGTCCACCAGATCCT
CCTCGAGGCCGGTCTGCCCAAGAACGTCATCCAGTTCGTCCCCGGTGACG
CCGCGGAGGTCACCAACACCGTTCTCAACCACCCCGACTTTGCTGCCCTT
CACTTCACCGGTAGCACTGCTGTGTTCCGCAGCCTCTACGGCCAGATCGC
CAACGGCGTCGCCGAGGGCAAGTACCGCAGCTACCCCCGCATTGTTGGTG
AGACCGGTGGTAAGAACTTCCACCTGGTCCACAAGTCCGCCGATGTCCGC
AACGCGGCTGTCCAGACTGTCCGCGGAGCCTTCGAGTTCCAGGGCCAGAA
GTGCAGTGCCACCTCCCGTGCCTACGTGGCCGCGTCCATCGCCAACGAGT
TCATCGAGAACGTTGTTGCCGAGACCAAGAACATCAAGGTCGGCGAGCCC
TCGGACTTCACCAACTTCTGCGGTCCTGTCATCCACGAGGCCTCCTTCAA
CAAGCTGGCCAACGTGATCGATGAGGCCAAGAACGACCCCGAGCTGGAGC
TGCTGGCCGGCGGTTCCTACGATTCCTCCAAGGGATGGTACATCCAGCCC
ACCGTCTACCACACCAGCAACCCCGACCACCCTCTCCTCTCCCGCGAGCT
CTTCGGTCCCGTCCTGGTCATCCACACCTACGCCGATGCCACCGAGGCCG
ACTTTGCCAAGATCTGCGAGAAGGTCGACCAGACCGGCGACTACGGTCTG
ACCGGCTCCATCTTCGCCCAGGACCGCGAGGTTCTCCGCATCGCCGACGA
TGCCCTGCGCAACACTGCCGGTAACTTCTACATCAACTGCAAGAGCACTG
GTGCTGTTGTCGGCCAGCAGCCCTTCGGTGGTGCCCGTGCCAGTGGTACC
AACGACAAGGCTGGCAGTGGCAACCTGCTGTCCCGCTTCGTCAGTCTGCG
GTCGATCAAGGAGGAGTTTGTCCCGACCTACAAGGTCCCCTACCCTAGCA
ACGATGCTTAGATGCAGTCCTCTTTGCTCCTGCGTTCTCGGGGCCTTTCC
CTCGCCAAATGCCCCTCCCTCTCCCTTGCCCGCACGAGCGCTCGTGCCAT
GGGCTCTTACGCCACCTTCAAGGTTCCTCGCATTGACAACGAGCCGAACA
AACACTACGCCCCCGGATCTCCTGATCGCCGTGGTCTCGAGGAGGCCCTC
GCCAGAACCAAGCAGAGCGGTCCCCTCAATGTGCCTTTGGTGATTGCCGG
CAAGGAGATCAAGAGCTCCCAGTCCGAGACCCAGAGCAACCCCGCCTCCC
ATGCGCCCGTGGCCACTTACTCCAACGCCTCCGCCGCCGAGGTTCAGGCT
GCTATCGATGCCGCCCTTGAGGCTCGCAAGTCGTGGGCTGCCACCTCTTT
CGCCGACCGTGCCAGCATCTTCCTCAAGGCCGCTGACCTGATCTCGACCA
AATACCGCTATGACATCATGGCTCTGACCATGCACGGCCAGGGCAAGAAT
GCCTGGCAGGCCGAGATCGACTCTGCCGCCGAGCTGTGCGATTTCTTCCG
CTTCGGTGTCAAGTACGCCGAGGACCTGTACGCTCAGCAGCCCGTTCACC
ACGCTCCTGGCGTGTGGAACCGTGTTGAATACCGTCCTCTGGAGGGATTC
GTCTACGCCATCAGTCCTTTCAACTTCACTGCCATTGGCGGTAACCTGGC
TGGTGCTCCCGCCCTGATGGGTAACGTTGTCGTCTGGAAGCCTTCTCCTT
CCGCCATCGCTTCCAACTGGCTCGTCCACCAGATCCTCCTCGAGGCCGGT
CTGCCCAAGAACGTCATCCAGTTCGTCCCCGGTGACGCCGCGGAGGTCAC
CAACACCGTTCTCAACCACCCCGACTTTGCTGCCCTTCACTTCACCGGTA
GCACTGCTGTGTTCCGCAGCCTCTACGGCCAGATCGCCAACGGCGTCGCC
GAGGGCAAGTACCGCAGCTACCCCCGCATTGTTGGTGAGACCGGTGGTAA
GAACTTCCACCTGGTCCACAAGTCCGCCGATGTCCGCAACGCGGCTGTCC
AGACTGTCCGCGGAGCCTTCGAGTTCCAGGGCCAGAAGTGCAGTGCCACC
TCCCGTGCCTACGTGGCCGCGTCCATCGCCAACGAGTTCATCGAGAACGT
TGTTGCCGAGACCAAGAACATCAAGGTCGGCGAGCCCTCGGACTTCACCA
ACTTCTGCGGTCCTGTCATCCACGAGGCCTCCTTCAACAAGCTGGCCAAC
GTGATCGATGAGGCCAAGAACGACCCCGAGCTGGAGCTGCTGGCCGGCGG
TTCCTACGATTCCTCCAAGGGATGGTACATCCAGCCCACCGTCTACCACA
CCAGCAACCCCGACCACCCTCTCCTCTCCCGCGAGCTCTTCGGTCCCGTC
CTGGTCATCCACACCTACGCCGATGCCACCGAGGCCGACTTTGCCAAGAT
CTGCGAGAAGGTCGACCAGACCGGCGACTACGGTCTGACCGGCTCCATCT
TCGCCCAGGACCGCGAGGTTCTCCGCATCGCCGACGATGCCCTGCGCAAC
ACTGCCGGTAACTTCTACATCAACTGCAAGAGCACTGGTGCTGTTGTCGG
CCAGCAGCCCTTCGGTGGTGCCCGTGCCAGTGGTACCAACGACAAGGCTG
GCAGTGGCAACCTGCTGTCCCGCTTCGTCAGTCTGCGGTCGATCAAGGAG
GAGTTTGTCCCGACCTACAAGGTCCCCTACCCTAGCAACGATGCTTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0010133 | proline catabolic process to glutamate |
| GO:0055114 | oxidation-reduction process |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0003842 | 1-pyrroline-5-carboxylate dehydrogenase activity |
| GO:0016620 | oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor |
| GO:0016491 | oxidoreductase activity |
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_002388-T1.utr5p1 | KJC3_002388-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_002388-T1.utr3p1 | KJC3_002388-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
Properties
| Property Name | Value |
|---|
| DBxref | InterPro:IPR016161 |
| DBxref | InterPro:IPR029510 |
| DBxref | InterPro:IPR016160 |
| DBxref | InterPro:IPR005931 |
| DBxref | InterPro:IPR016162 |
| DBxref | InterPro:IPR016163 |
| DBxref | InterPro:IPR015590 |
| DBxref | PFAM:PF00171 |
| 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 |
|---|
| ch2 | supercontig | ch2:2441206..2443444 + |
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