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Sequences
The following sequences are available for this feature:
mRNA from alignment at ch1:3030914..3033134- Legend: exonfive_prime_UTRpolypeptideCDSthree_prime_UTR Hold the cursor over a type above to highlight its positions in the sequence below. >KJC3_001187-T1 ID=KJC3_001187-T1|Name=KJC3_001187-T1|organism=Aspergillus niger KJC3|type=mRNA|length=2221bp|location=Sequence derived from alignment at ch1:3030914..3033134- (Aspergillus niger KJC3)
AGCTGCTGCACCAGGCATCTGAAGCTTCTGTCGCCAGGATGGGTAAAGGT
TGGTTCGGCAAGATTCCTCAACATCGCTATACGCAAGGCTAACCTACTCG
CTCACTTGTTTAGGGACGGATAAGTTATATGTATGAACTCCCCCCGTCGA
AGATTTGTTCTTCCCTTTCCGCGCTCTATCGCTTATCGGAACGCACATGG
ACTAACTCAACGACTGGCATAGATCACGCACTCTGAATGGGCATCGGAGG
ATGCATTTTCTGCCAGCGCTGGAGCAGGGGTGGGCAGAGCGAAGCGAGGA
GGAGTAGATACGGCCTTCAAGCGCCTCCCCTTCAACTTCTGCTCCCTTTC
ACTACAGCCGTTCTCGCACCCGGTTTGCACCCCGTCGGGCACCATCTTCG
ACCTCACCAACATTCTCCCCTGGATTAAGAAACACGGAACAAATCCCGTG
AATGGCGCGCCTCTCAAAAGCTCCGATCTCATCAAGCTGCATCTCGCGAA
GAACGAATCCGACGAGTATGTCGATCCGGTCACGTACAAGGTTTTCACGG
ACAACACACACATTGTCGCGCTACGGAACACGGGGAATGTCTTCGCTTGG
GATACGGTCGAACGGTTGAACATCAAGGGAAAGCTGTGGCGTGATCTGGT
TACGGACGAGGAGTTCACCCGCAAGGACATCATTACGTTACAGGACCCGC
AGAACGTCGAGTCGCGGAACTTGAGCTCGTTCAACTATCTCAAGGAAGGC
GAGAGTGGGTTGACAGACGAGCAGATCCGGGAACGGGAGGATCCTTCGAA
CAATGTGAACGTCAACGCGCTGGGCAGTTCGGCCAAGATTCTAAAGGCCA
AGGAAGCTGTGGCCAAGGCACGCGCAGAGAGGTCGCAACGTGTCGGTTCT
ACGGCTACTTCAAAAGAATTGGCTAAATCTGGAAGTGCGGGAAATGCGGC
GCTGTCTCAGAAGACGGCGTCGTTTCAATCTGGCAAGGCTGTGCCGTATA
ATGCGGCCAAACACACTACTGGTTTGGCTGCCGCCTCATTCACCAGTACG
GGGATGACGCCCCACACCTCTGCCGAGCTTGCGCTTCTGTCCGACGAGGA
GTACATGCTGAAGAGAGGCCGAGTGAAGCAGAAGGGCTATGCTCGCATTT
CGACTAACGTCGGGGATGTCAACTTGGAATTGCATACGGAATACGCACCG
AAGGCCGTGTGGAACTTCATCAAACTGGCGAAGAAGGGCTACTATAGAGA
TGTCACCTTCCATCGCAACATCAAGGGATTCATGATCCAGGGTGGTGACC
CCTCTGGTACTGGAAGGGGAGGGGAAAGTATTTGGGGGAAGTACTTTAAC
GACGAGTTTGAAGGCCCACTGAAGCACGATTCCCGAGGCACTCTCAGTAT
GGCCAACAAAGGCAAAAACACGAACAGCAGTCAATTGTAAGTTCCCGCGA
TCAAGCTGGAGGAGTGCCTGCCCGCGCTAACGATTTACCCCTTGACTAGC
TTCATTGCTTATCGTGCCTTGCCCCATCTCAACAACAAGCACACCATCTT
CGGTCATGTCATTGATGACCCCACGCCCTCCTCCACGACCTTGAACAACC
TTGAACTGCACCCGACGAACCCAACTACTAATCGGCCTACTCCGGACATC
CGTATCACCGATGTGACGGTGTTTGTGGACCCGTTTGAAGAGTTTCTGAA
GCAGAAACAAACCGAGGAAGCCAAGGCGAAGGGCCAGATCGTTAACCCCG
AGGAAGAAGAGGAGAATGCGCGTCGCGCCGAAGACGACCGGATCACCTGG
ACGGGCAAAAGAGTCCGTGGTGCAGGAACTGGAGCAAAAGACGAAGGTTC
TGGTGGGGTAGGCAAGTACCTGAAAGCCGCGCTGGCCGAAAGGGCTGAGC
AGGAGGAGGATGAGATCGTGGAATTTGTAGATGACGAGCCCGAACCTGAG
CCAATGCGGAAGAAATTCAAGGGCGGAGGCGGGTTTGGGGATTTCAGTTC
TTGGGATTAGAAATTCATATACAACGGGGATATTATTCTATATGTGTATA
ACAATAGGCGTTGATGGTAAAACTTACGGATTGGGCTTGGTTTACTGTAT
GGTTCGGATCTACAATACTTGTTGTGGTGGTTTCTGGTTTCTGGGCTACT
GAGAGAAATAATCCAAACACAAGACCTTGCATGTTATTTACTGGTCTTAC
GTACAAAAAAACAGATCAATA back to topCoding sequence (CDS) from alignment at ch1:3030914..3033134- >KJC3_001187-T1 ID=KJC3_001187-T1|Name=KJC3_001187-T1|organism=Aspergillus niger KJC3|type=CDS|length=7008bp|location=Sequence derived from alignment at ch1:3030914..3033134- (Aspergillus niger KJC3)
CTTCATTGCTTATCGTGCCTTGCCCCATCTCAACAACAAGCACACCATCT
TCGGTCATGTCATTGATGACCCCACGCCCTCCTCCACGACCTTGAACAAC
CTTGAACTGCACCCGACGAACCCAACTACTAATCGGCCTACTCCGGACAT
CCGTATCACCGATGTGACGGTGTTTGTGGACCCGTTTGAAGAGTTTCTGA
AGCAGAAACAAACCGAGGAAGCCAAGGCGAAGGGCCAGATCGTTAACCCC
GAGGAAGAAGAGGAGAATGCGCGTCGCGCCGAAGACGACCGGATCACCTG
GACGGGCAAAAGAGTCCGTGGTGCAGGAACTGGAGCAAAAGACGAAGGTT
CTGGTGGGGTAGGCAAGTACCTGAAAGCCGCGCTGGCCGAAAGGGCTGAG
CAGGAGGAGGATGAGATCGTGGAATTTGTAGATGACGAGCCCGAACCTGA
GCCAATGCGGAAGAAATTCAAGGGCGGAGGCGGGTTTGGGGATTTCAGTT
CTTGGGATTAGATCACGCACTCTGAATGGGCATCGGAGGATGCATTTTCT
GCCAGCGCTGGAGCAGGGGTGGGCAGAGCGAAGCGAGGAGGAGTAGATAC
GGCCTTCAAGCGCCTCCCCTTCAACTTCTGCTCCCTTTCACTACAGCCGT
TCTCGCACCCGGTTTGCACCCCGTCGGGCACCATCTTCGACCTCACCAAC
ATTCTCCCCTGGATTAAGAAACACGGAACAAATCCCGTGAATGGCGCGCC
TCTCAAAAGCTCCGATCTCATCAAGCTGCATCTCGCGAAGAACGAATCCG
ACGAGTATGTCGATCCGGTCACGTACAAGGTTTTCACGGACAACACACAC
ATTGTCGCGCTACGGAACACGGGGAATGTCTTCGCTTGGGATACGGTCGA
ACGGTTGAACATCAAGGGAAAGCTGTGGCGTGATCTGGTTACGGACGAGG
AGTTCACCCGCAAGGACATCATTACGTTACAGGACCCGCAGAACGTCGAG
TCGCGGAACTTGAGCTCGTTCAACTATCTCAAGGAAGGCGAGAGTGGGTT
GACAGACGAGCAGATCCGGGAACGGGAGGATCCTTCGAACAATGTGAACG
TCAACGCGCTGGGCAGTTCGGCCAAGATTCTAAAGGCCAAGGAAGCTGTG
GCCAAGGCACGCGCAGAGAGGTCGCAACGTGTCGGTTCTACGGCTACTTC
AAAAGAATTGGCTAAATCTGGAAGTGCGGGAAATGCGGCGCTGTCTCAGA
AGACGGCGTCGTTTCAATCTGGCAAGGCTGTGCCGTATAATGCGGCCAAA
CACACTACTGGTTTGGCTGCCGCCTCATTCACCAGTACGGGGATGACGCC
CCACACCTCTGCCGAGCTTGCGCTTCTGTCCGACGAGGAGTACATGCTGA
AGAGAGGCCGAGTGAAGCAGAAGGGCTATGCTCGCATTTCGACTAACGTC
GGGGATGTCAACTTGGAATTGCATACGGAATACGCACCGAAGGCCGTGTG
GAACTTCATCAAACTGGCGAAGAAGGGCTACTATAGAGATGTCACCTTCC
ATCGCAACATCAAGGGATTCATGATCCAGGGTGGTGACCCCTCTGGTACT
GGAAGGGGAGGGGAAAGTATTTGGGGGAAGTACTTTAACGACGAGTTTGA
AGGCCCACTGAAGCACGATTCCCGAGGCACTCTCAGTATGGCCAACAAAG
GCAAAAACACGAACAGCAGTCAATTGGACGGATAAGTTATATATGGGTAA
AGCTTCATTGCTTATCGTGCCTTGCCCCATCTCAACAACAAGCACACCAT
CTTCGGTCATGTCATTGATGACCCCACGCCCTCCTCCACGACCTTGAACA
ACCTTGAACTGCACCCGACGAACCCAACTACTAATCGGCCTACTCCGGAC
ATCCGTATCACCGATGTGACGGTGTTTGTGGACCCGTTTGAAGAGTTTCT
GAAGCAGAAACAAACCGAGGAAGCCAAGGCGAAGGGCCAGATCGTTAACC
CCGAGGAAGAAGAGGAGAATGCGCGTCGCGCCGAAGACGACCGGATCACC
TGGACGGGCAAAAGAGTCCGTGGTGCAGGAACTGGAGCAAAAGACGAAGG
TTCTGGTGGGGTAGGCAAGTACCTGAAAGCCGCGCTGGCCGAAAGGGCTG
AGCAGGAGGAGGATGAGATCGTGGAATTTGTAGATGACGAGCCCGAACCT
GAGCCAATGCGGAAGAAATTCAAGGGCGGAGGCGGGTTTGGGGATTTCAG
TTCTTGGGATTAGATCACGCACTCTGAATGGGCATCGGAGGATGCATTTT
CTGCCAGCGCTGGAGCAGGGGTGGGCAGAGCGAAGCGAGGAGGAGTAGAT
ACGGCCTTCAAGCGCCTCCCCTTCAACTTCTGCTCCCTTTCACTACAGCC
GTTCTCGCACCCGGTTTGCACCCCGTCGGGCACCATCTTCGACCTCACCA
ACATTCTCCCCTGGATTAAGAAACACGGAACAAATCCCGTGAATGGCGCG
CCTCTCAAAAGCTCCGATCTCATCAAGCTGCATCTCGCGAAGAACGAATC
CGACGAGTATGTCGATCCGGTCACGTACAAGGTTTTCACGGACAACACAC
ACATTGTCGCGCTACGGAACACGGGGAATGTCTTCGCTTGGGATACGGTC
GAACGGTTGAACATCAAGGGAAAGCTGTGGCGTGATCTGGTTACGGACGA
GGAGTTCACCCGCAAGGACATCATTACGTTACAGGACCCGCAGAACGTCG
AGTCGCGGAACTTGAGCTCGTTCAACTATCTCAAGGAAGGCGAGAGTGGG
TTGACAGACGAGCAGATCCGGGAACGGGAGGATCCTTCGAACAATGTGAA
CGTCAACGCGCTGGGCAGTTCGGCCAAGATTCTAAAGGCCAAGGAAGCTG
TGGCCAAGGCACGCGCAGAGAGGTCGCAACGTGTCGGTTCTACGGCTACT
TCAAAAGAATTGGCTAAATCTGGAAGTGCGGGAAATGCGGCGCTGTCTCA
GAAGACGGCGTCGTTTCAATCTGGCAAGGCTGTGCCGTATAATGCGGCCA
AACACACTACTGGTTTGGCTGCCGCCTCATTCACCAGTACGGGGATGACG
CCCCACACCTCTGCCGAGCTTGCGCTTCTGTCCGACGAGGAGTACATGCT
GAAGAGAGGCCGAGTGAAGCAGAAGGGCTATGCTCGCATTTCGACTAACG
TCGGGGATGTCAACTTGGAATTGCATACGGAATACGCACCGAAGGCCGTG
TGGAACTTCATCAAACTGGCGAAGAAGGGCTACTATAGAGATGTCACCTT
CCATCGCAACATCAAGGGATTCATGATCCAGGGTGGTGACCCCTCTGGTA
CTGGAAGGGGAGGGGAAAGTATTTGGGGGAAGTACTTTAACGACGAGTTT
GAAGGCCCACTGAAGCACGATTCCCGAGGCACTCTCAGTATGGCCAACAA
AGGCAAAAACACGAACAGCAGTCAATTGGACGGATAAGTTATATATGGGT
AAAGCTTCATTGCTTATCGTGCCTTGCCCCATCTCAACAACAAGCACACC
ATCTTCGGTCATGTCATTGATGACCCCACGCCCTCCTCCACGACCTTGAA
CAACCTTGAACTGCACCCGACGAACCCAACTACTAATCGGCCTACTCCGG
ACATCCGTATCACCGATGTGACGGTGTTTGTGGACCCGTTTGAAGAGTTT
CTGAAGCAGAAACAAACCGAGGAAGCCAAGGCGAAGGGCCAGATCGTTAA
CCCCGAGGAAGAAGAGGAGAATGCGCGTCGCGCCGAAGACGACCGGATCA
CCTGGACGGGCAAAAGAGTCCGTGGTGCAGGAACTGGAGCAAAAGACGAA
GGTTCTGGTGGGGTAGGCAAGTACCTGAAAGCCGCGCTGGCCGAAAGGGC
TGAGCAGGAGGAGGATGAGATCGTGGAATTTGTAGATGACGAGCCCGAAC
CTGAGCCAATGCGGAAGAAATTCAAGGGCGGAGGCGGGTTTGGGGATTTC
AGTTCTTGGGATTAGATCACGCACTCTGAATGGGCATCGGAGGATGCATT
TTCTGCCAGCGCTGGAGCAGGGGTGGGCAGAGCGAAGCGAGGAGGAGTAG
ATACGGCCTTCAAGCGCCTCCCCTTCAACTTCTGCTCCCTTTCACTACAG
CCGTTCTCGCACCCGGTTTGCACCCCGTCGGGCACCATCTTCGACCTCAC
CAACATTCTCCCCTGGATTAAGAAACACGGAACAAATCCCGTGAATGGCG
CGCCTCTCAAAAGCTCCGATCTCATCAAGCTGCATCTCGCGAAGAACGAA
TCCGACGAGTATGTCGATCCGGTCACGTACAAGGTTTTCACGGACAACAC
ACACATTGTCGCGCTACGGAACACGGGGAATGTCTTCGCTTGGGATACGG
TCGAACGGTTGAACATCAAGGGAAAGCTGTGGCGTGATCTGGTTACGGAC
GAGGAGTTCACCCGCAAGGACATCATTACGTTACAGGACCCGCAGAACGT
CGAGTCGCGGAACTTGAGCTCGTTCAACTATCTCAAGGAAGGCGAGAGTG
GGTTGACAGACGAGCAGATCCGGGAACGGGAGGATCCTTCGAACAATGTG
AACGTCAACGCGCTGGGCAGTTCGGCCAAGATTCTAAAGGCCAAGGAAGC
TGTGGCCAAGGCACGCGCAGAGAGGTCGCAACGTGTCGGTTCTACGGCTA
CTTCAAAAGAATTGGCTAAATCTGGAAGTGCGGGAAATGCGGCGCTGTCT
CAGAAGACGGCGTCGTTTCAATCTGGCAAGGCTGTGCCGTATAATGCGGC
CAAACACACTACTGGTTTGGCTGCCGCCTCATTCACCAGTACGGGGATGA
CGCCCCACACCTCTGCCGAGCTTGCGCTTCTGTCCGACGAGGAGTACATG
CTGAAGAGAGGCCGAGTGAAGCAGAAGGGCTATGCTCGCATTTCGACTAA
CGTCGGGGATGTCAACTTGGAATTGCATACGGAATACGCACCGAAGGCCG
TGTGGAACTTCATCAAACTGGCGAAGAAGGGCTACTATAGAGATGTCACC
TTCCATCGCAACATCAAGGGATTCATGATCCAGGGTGGTGACCCCTCTGG
TACTGGAAGGGGAGGGGAAAGTATTTGGGGGAAGTACTTTAACGACGAGT
TTGAAGGCCCACTGAAGCACGATTCCCGAGGCACTCTCAGTATGGCCAAC
AAAGGCAAAAACACGAACAGCAGTCAATTGGACGGATAAGTTATATATGG
GTAAAGCTTCATTGCTTATCGTGCCTTGCCCCATCTCAACAACAAGCACA
CCATCTTCGGTCATGTCATTGATGACCCCACGCCCTCCTCCACGACCTTG
AACAACCTTGAACTGCACCCGACGAACCCAACTACTAATCGGCCTACTCC
GGACATCCGTATCACCGATGTGACGGTGTTTGTGGACCCGTTTGAAGAGT
TTCTGAAGCAGAAACAAACCGAGGAAGCCAAGGCGAAGGGCCAGATCGTT
AACCCCGAGGAAGAAGAGGAGAATGCGCGTCGCGCCGAAGACGACCGGAT
CACCTGGACGGGCAAAAGAGTCCGTGGTGCAGGAACTGGAGCAAAAGACG
AAGGTTCTGGTGGGGTAGGCAAGTACCTGAAAGCCGCGCTGGCCGAAAGG
GCTGAGCAGGAGGAGGATGAGATCGTGGAATTTGTAGATGACGAGCCCGA
ACCTGAGCCAATGCGGAAGAAATTCAAGGGCGGAGGCGGGTTTGGGGATT
TCAGTTCTTGGGATTAGATCACGCACTCTGAATGGGCATCGGAGGATGCA
TTTTCTGCCAGCGCTGGAGCAGGGGTGGGCAGAGCGAAGCGAGGAGGAGT
AGATACGGCCTTCAAGCGCCTCCCCTTCAACTTCTGCTCCCTTTCACTAC
AGCCGTTCTCGCACCCGGTTTGCACCCCGTCGGGCACCATCTTCGACCTC
ACCAACATTCTCCCCTGGATTAAGAAACACGGAACAAATCCCGTGAATGG
CGCGCCTCTCAAAAGCTCCGATCTCATCAAGCTGCATCTCGCGAAGAACG
AATCCGACGAGTATGTCGATCCGGTCACGTACAAGGTTTTCACGGACAAC
ACACACATTGTCGCGCTACGGAACACGGGGAATGTCTTCGCTTGGGATAC
GGTCGAACGGTTGAACATCAAGGGAAAGCTGTGGCGTGATCTGGTTACGG
ACGAGGAGTTCACCCGCAAGGACATCATTACGTTACAGGACCCGCAGAAC
GTCGAGTCGCGGAACTTGAGCTCGTTCAACTATCTCAAGGAAGGCGAGAG
TGGGTTGACAGACGAGCAGATCCGGGAACGGGAGGATCCTTCGAACAATG
TGAACGTCAACGCGCTGGGCAGTTCGGCCAAGATTCTAAAGGCCAAGGAA
GCTGTGGCCAAGGCACGCGCAGAGAGGTCGCAACGTGTCGGTTCTACGGC
TACTTCAAAAGAATTGGCTAAATCTGGAAGTGCGGGAAATGCGGCGCTGT
CTCAGAAGACGGCGTCGTTTCAATCTGGCAAGGCTGTGCCGTATAATGCG
GCCAAACACACTACTGGTTTGGCTGCCGCCTCATTCACCAGTACGGGGAT
GACGCCCCACACCTCTGCCGAGCTTGCGCTTCTGTCCGACGAGGAGTACA
TGCTGAAGAGAGGCCGAGTGAAGCAGAAGGGCTATGCTCGCATTTCGACT
AACGTCGGGGATGTCAACTTGGAATTGCATACGGAATACGCACCGAAGGC
CGTGTGGAACTTCATCAAACTGGCGAAGAAGGGCTACTATAGAGATGTCA
CCTTCCATCGCAACATCAAGGGATTCATGATCCAGGGTGGTGACCCCTCT
GGTACTGGAAGGGGAGGGGAAAGTATTTGGGGGAAGTACTTTAACGACGA
GTTTGAAGGCCCACTGAAGCACGATTCCCGAGGCACTCTCAGTATGGCCA
ACAAAGGCAAAAACACGAACAGCAGTCAATTGGACGGATAAGTTATATAT
GGGTAAAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004842 | ubiquitin-protein transferase activity |
| GO:0003755 | peptidyl-prolyl cis-trans isomerase activity |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006457 | protein folding |
| GO:0016567 | protein ubiquitination |
| GO:0000413 | protein peptidyl-prolyl isomerization |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from 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_001187-T1.utr3p1 | KJC3_001187-T1.utr3p1 | Aspergillus niger KJC3 | three_prime_UTR |
The following exon feature(s) are a part of this mRNA:
The following five_prime_UTR feature(s) are a part of this mRNA:
| Feature Name | Unique Name | Species | Type |
|---|
| KJC3_001187-T1.utr5p1 | KJC3_001187-T1.utr5p1 | Aspergillus niger KJC3 | five_prime_UTR |
Properties
| Property Name | Value |
|---|
| Note | antiSMASH:Cluster_1.14 |
| Note | antiSMASH:Cluster_1.13 |
| DBxref | InterPro:IPR020892 |
| DBxref | InterPro:IPR013083 |
| DBxref | InterPro:IPR029000 |
| DBxref | InterPro:IPR003613 |
| DBxref | InterPro:IPR002130 |
| DBxref | PFAM:PF04564 |
| DBxref | PFAM:PF00160 |
| Product | Peptidyl-prolyl cis-trans isomerase cyp8 |
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 |
|---|
| ch1 | supercontig | ch1:3030914..3033134 - |
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