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Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000166:137924..140050+ Legend: polypeptideexonCDS Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_006313-T1 ID=ATCC10864_006313-T1|Name=ATCC10864_006313-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2127bp|location=Sequence derived from alignment at MCQH01000166:137924..140050+ (Aspergillus niger ATCC 10864)
ATGACACAACTTTTCGCCTCCAGTCCGTCCTCCGTGACGAACGAGAAACG
CGGGAACTTTCCCAGTCTCTCCCTGGCCTCCAAGAAGCATTCCAACGATT
CGAGCCACTTCCCCACCAGAATCAAGAATTTCTTTCGCATCAACAGTTCC
AGCAGCAATTCTTCCCATGCCAGCCACCACAACAATGAATCGCGTGATCG
CGATGGCAACACCTCCCCACCTGCAAAATCAGATGCCAAATCCGGCTTTA
GACAATCCCGGTTCCTTCCCACTATCGGCCGAAATCGCTCAACCACCGTT
GCCAGTGAAGGCAATCCGCTAGACGAAGGCGTCTCCCCGACCGCAACGGC
CAATCCATACTTTGTCCACCAGGGCCAGCCTTCATTACAGCATCGGAACG
ATGGCTCGGTGCCGTCCTCCCCTCCCGATACCCCCGAATTGCAGGTGGAC
GGGGTCTCTGCTGCCGAGCAAGCCACCACAGCCAACAAGGTTGAATTGGC
TCGTAAGCTCCGTCGTGTTGCTTCTGCCCCGAATGCGCAGGGTTTGTTTG
CCCGTGGTGGGTCCGACGAACGTCCCCAGACGGCTGAGGCTGGAAAGGAA
CTTCTGGAGCCGTCTGGGGTTGATGATCCACAAGTCACTACGGTGGAGGT
GGCGTCCGACAAAGATGTGAATCTTGCCGTGCCGAAACTTGGTCCCCACA
GTAAGATTCCTACTCCTGGTCAGATTCGGGATTCGGTTGCATTCCGCAGG
ACATATAGTTCCAACTCGATCAAGGTGCGCAATGTGGAGGTAGGACCGGG
GAGCTTCGATAAGATCAAGTTGATCGGAAAGGGTGATGTGGGCAAGGTGT
ACCTGGTCCGGGAGAAGAAGTCGAGCCGGCTCTATGCTATGAAAGGTGGG
TTTTGATGTCTGTGGCCTTGTCTACTGGCGAAGTATGCTGACTTGACTAG
TACTGAGCAAGAAGGAGATGATCAAGCGGAACAAGATTAAGCGGGCATTG
GCCGAGCAGGAAATCCTCGCCACCAGCAACCATCCATTCATTGTTACACT
CTACCATTCCTTCCAGTCCGAGGACTATCTCTACCTGTGCATGGAATACT
GCAGTGGTGGCGAATTCTTCAGAGGTGTGTTAGACGTATGCCAGGGTGTT
GACTGTCGCTGACTCTTCTAGCTCTTCAAACCCGCCCAGGAAAGTGCATT
TCTGAGGATGCTGCGCGATTCTATGCGGCAGAAGTTACTGCTGCTTTGGA
ATACCTCCACCTTATGGGATTCATCTACCGTGATTTGAAGCCAGAAAGTA
TGTACTGTAATAGTTTAGAGGCGTTGACTTGTGCTGACAATATTGCTCTA
GATATTCTTCTTCACCAGTCTGGCCACATTATGCTGTCTGACTTTGATCT
GTCGAAGCAATCCGGACCGGGCGGTGCGCCCACAATGATCCCGGCGCGGA
GTGGCAATTCCACAACGTCTCTACCGACGATTGACACCAAGTCATGCATT
GCCGACTTCAGAACCAATTCATTCGTCGGTACGGAAGAGTACATTGCACC
CGAGGTCATCAAGGGTTGCGGACATACTAGCGCCGTTGACTGGTGGACGC
TTGGTATCTTGATCTACGAGATGCTGTACGGCACGACGCCGTTCAAGGGC
AAGAACAGGAATGCTACTTTTGGCAACATCCTGCGAGATGAGGTGCAATT
TCCCGAGCACTCAGCGGCCCAGCCAACCTCCAAGTAAGCTCTCACGGTCA
TGCTTTACCACACGGTTGCTAACATTCGCAGCCTCTGCAAATCATTAATT
CGTAAACTGCTCATCAAGGATGAGACCAAGCGCCTTGGAGCTCGAGCCGG
TGCTTCGGACGTCAAGACCCATCCCTTCTTCCGGCAGACGCAGTGGGCGC
TTATCCGGCATATGAAGCCGCCAATGATCCCCCACCAGAGCCGTGGAACG
GATACTCTCAACTTCCGCAATGTCAAGGAGAGCGCGAGCGTCGATATTGG
TGGATCCAGCACGACCAAGATGAAGGGTGTACCGATGGATTCAGGTCTTG
CGACGCCGAATGGCGAGATAGCCGATCCGTTCGAGGAGTTCAACAGCGTC
ACCCTTCACCATGACGGAGACATGTGA back to topCoding sequence (CDS) from alignment at MCQH01000166:137924..140050+ >ATCC10864_006313-T1 ID=ATCC10864_006313-T1|Name=ATCC10864_006313-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=9615bp|location=Sequence derived from alignment at MCQH01000166:137924..140050+ (Aspergillus niger ATCC 10864)
ATGACACAACTTTTCGCCTCCAGTCCGTCCTCCGTGACGAACGAGAAACG
CGGGAACTTTCCCAGTCTCTCCCTGGCCTCCAAGAAGCATTCCAACGATT
CGAGCCACTTCCCCACCAGAATCAAGAATTTCTTTCGCATCAACAGTTCC
AGCAGCAATTCTTCCCATGCCAGCCACCACAACAATGAATCGCGTGATCG
CGATGGCAACACCTCCCCACCTGCAAAATCAGATGCCAAATCCGGCTTTA
GACAATCCCGGTTCCTTCCCACTATCGGCCGAAATCGCTCAACCACCGTT
GCCAGTGAAGGCAATCCGCTAGACGAAGGCGTCTCCCCGACCGCAACGGC
CAATCCATACTTTGTCCACCAGGGCCAGCCTTCATTACAGCATCGGAACG
ATGGCTCGGTGCCGTCCTCCCCTCCCGATACCCCCGAATTGCAGGTGGAC
GGGGTCTCTGCTGCCGAGCAAGCCACCACAGCCAACAAGGTTGAATTGGC
TCGTAAGCTCCGTCGTGTTGCTTCTGCCCCGAATGCGCAGGGTTTGTTTG
CCCGTGGTGGGTCCGACGAACGTCCCCAGACGGCTGAGGCTGGAAAGGAA
CTTCTGGAGCCGTCTGGGGTTGATGATCCACAAGTCACTACGGTGGAGGT
GGCGTCCGACAAAGATGTGAATCTTGCCGTGCCGAAACTTGGTCCCCACA
GTAAGATTCCTACTCCTGGTCAGATTCGGGATTCGGTTGCATTCCGCAGG
ACATATAGTTCCAACTCGATCAAGGTGCGCAATGTGGAGGTAGGACCGGG
GAGCTTCGATAAGATCAAGTTGATCGGAAAGGGTGATGTGGGCAAGGTGT
ACCTGGTCCGGGAGAAGAAGTCGAGCCGGCTCTATGCTATGAAAGTACTG
AGCAAGAAGGAGATGATCAAGCGGAACAAGATTAAGCGGGCATTGGCCGA
GCAGGAAATCCTCGCCACCAGCAACCATCCATTCATTGTTACACTCTACC
ATTCCTTCCAGTCCGAGGACTATCTCTACCTGTGCATGGAATACTGCAGT
GGTGGCGAATTCTTCAGAGCTCTTCAAACCCGCCCAGGAAAGTGCATTTC
TGAGGATGCTGCGCGATTCTATGCGGCAGAAGTTACTGCTGCTTTGGAAT
ACCTCCACCTTATGGGATTCATCTACCGTGATTTGAAGCCAGAAAATATT
CTTCTTCACCAGTCTGGCCACATTATGCTGTCTGACTTTGATCTGTCGAA
GCAATCCGGACCGGGCGGTGCGCCCACAATGATCCCGGCGCGGAGTGGCA
ATTCCACAACGTCTCTACCGACGATTGACACCAAGTCATGCATTGCCGAC
TTCAGAACCAATTCATTCGTCGGTACGGAAGAGTACATTGCACCCGAGGT
CATCAAGGGTTGCGGACATACTAGCGCCGTTGACTGGTGGACGCTTGGTA
TCTTGATCTACGAGATGCTGTACGGCACGACGCCGTTCAAGGGCAAGAAC
AGGAATGCTACTTTTGGCAACATCCTGCGAGATGAGGTGCAATTTCCCGA
GCACTCAGCGGCCCAGCCAACCTCCAACCTCTGCAAATCATTAATTCGTA
AACTGCTCATCAAGGATGAGACCAAGCGCCTTGGAGCTCGAGCCGGTGCT
TCGGACGTCAAGACCCATCCCTTCTTCCGGCAGACGCAGTGGGCGCTTAT
CCGGCATATGAAGCCGCCAATGATCCCCCACCAGAGCCGTGGAACGGATA
CTCTCAACTTCCGCAATGTCAAGGAGAGCGCGAGCGTCGATATTGGTGGA
TCCAGCACGACCAAGATGAAGGGTGTACCGATGGATTCAGGTCTTGCGAC
GCCGAATGGCGAGATAGCCGATCCGTTCGAGGAGTTCAACAGCGTCACCC
TTCACCATGACGGAGACATGTGAATGACACAACTTTTCGCCTCCAGTCCG
TCCTCCGTGACGAACGAGAAACGCGGGAACTTTCCCAGTCTCTCCCTGGC
CTCCAAGAAGCATTCCAACGATTCGAGCCACTTCCCCACCAGAATCAAGA
ATTTCTTTCGCATCAACAGTTCCAGCAGCAATTCTTCCCATGCCAGCCAC
CACAACAATGAATCGCGTGATCGCGATGGCAACACCTCCCCACCTGCAAA
ATCAGATGCCAAATCCGGCTTTAGACAATCCCGGTTCCTTCCCACTATCG
GCCGAAATCGCTCAACCACCGTTGCCAGTGAAGGCAATCCGCTAGACGAA
GGCGTCTCCCCGACCGCAACGGCCAATCCATACTTTGTCCACCAGGGCCA
GCCTTCATTACAGCATCGGAACGATGGCTCGGTGCCGTCCTCCCCTCCCG
ATACCCCCGAATTGCAGGTGGACGGGGTCTCTGCTGCCGAGCAAGCCACC
ACAGCCAACAAGGTTGAATTGGCTCGTAAGCTCCGTCGTGTTGCTTCTGC
CCCGAATGCGCAGGGTTTGTTTGCCCGTGGTGGGTCCGACGAACGTCCCC
AGACGGCTGAGGCTGGAAAGGAACTTCTGGAGCCGTCTGGGGTTGATGAT
CCACAAGTCACTACGGTGGAGGTGGCGTCCGACAAAGATGTGAATCTTGC
CGTGCCGAAACTTGGTCCCCACAGTAAGATTCCTACTCCTGGTCAGATTC
GGGATTCGGTTGCATTCCGCAGGACATATAGTTCCAACTCGATCAAGGTG
CGCAATGTGGAGGTAGGACCGGGGAGCTTCGATAAGATCAAGTTGATCGG
AAAGGGTGATGTGGGCAAGGTGTACCTGGTCCGGGAGAAGAAGTCGAGCC
GGCTCTATGCTATGAAAGTACTGAGCAAGAAGGAGATGATCAAGCGGAAC
AAGATTAAGCGGGCATTGGCCGAGCAGGAAATCCTCGCCACCAGCAACCA
TCCATTCATTGTTACACTCTACCATTCCTTCCAGTCCGAGGACTATCTCT
ACCTGTGCATGGAATACTGCAGTGGTGGCGAATTCTTCAGAGCTCTTCAA
ACCCGCCCAGGAAAGTGCATTTCTGAGGATGCTGCGCGATTCTATGCGGC
AGAAGTTACTGCTGCTTTGGAATACCTCCACCTTATGGGATTCATCTACC
GTGATTTGAAGCCAGAAAATATTCTTCTTCACCAGTCTGGCCACATTATG
CTGTCTGACTTTGATCTGTCGAAGCAATCCGGACCGGGCGGTGCGCCCAC
AATGATCCCGGCGCGGAGTGGCAATTCCACAACGTCTCTACCGACGATTG
ACACCAAGTCATGCATTGCCGACTTCAGAACCAATTCATTCGTCGGTACG
GAAGAGTACATTGCACCCGAGGTCATCAAGGGTTGCGGACATACTAGCGC
CGTTGACTGGTGGACGCTTGGTATCTTGATCTACGAGATGCTGTACGGCA
CGACGCCGTTCAAGGGCAAGAACAGGAATGCTACTTTTGGCAACATCCTG
CGAGATGAGGTGCAATTTCCCGAGCACTCAGCGGCCCAGCCAACCTCCAA
CCTCTGCAAATCATTAATTCGTAAACTGCTCATCAAGGATGAGACCAAGC
GCCTTGGAGCTCGAGCCGGTGCTTCGGACGTCAAGACCCATCCCTTCTTC
CGGCAGACGCAGTGGGCGCTTATCCGGCATATGAAGCCGCCAATGATCCC
CCACCAGAGCCGTGGAACGGATACTCTCAACTTCCGCAATGTCAAGGAGA
GCGCGAGCGTCGATATTGGTGGATCCAGCACGACCAAGATGAAGGGTGTA
CCGATGGATTCAGGTCTTGCGACGCCGAATGGCGAGATAGCCGATCCGTT
CGAGGAGTTCAACAGCGTCACCCTTCACCATGACGGAGACATGTGAATGA
CACAACTTTTCGCCTCCAGTCCGTCCTCCGTGACGAACGAGAAACGCGGG
AACTTTCCCAGTCTCTCCCTGGCCTCCAAGAAGCATTCCAACGATTCGAG
CCACTTCCCCACCAGAATCAAGAATTTCTTTCGCATCAACAGTTCCAGCA
GCAATTCTTCCCATGCCAGCCACCACAACAATGAATCGCGTGATCGCGAT
GGCAACACCTCCCCACCTGCAAAATCAGATGCCAAATCCGGCTTTAGACA
ATCCCGGTTCCTTCCCACTATCGGCCGAAATCGCTCAACCACCGTTGCCA
GTGAAGGCAATCCGCTAGACGAAGGCGTCTCCCCGACCGCAACGGCCAAT
CCATACTTTGTCCACCAGGGCCAGCCTTCATTACAGCATCGGAACGATGG
CTCGGTGCCGTCCTCCCCTCCCGATACCCCCGAATTGCAGGTGGACGGGG
TCTCTGCTGCCGAGCAAGCCACCACAGCCAACAAGGTTGAATTGGCTCGT
AAGCTCCGTCGTGTTGCTTCTGCCCCGAATGCGCAGGGTTTGTTTGCCCG
TGGTGGGTCCGACGAACGTCCCCAGACGGCTGAGGCTGGAAAGGAACTTC
TGGAGCCGTCTGGGGTTGATGATCCACAAGTCACTACGGTGGAGGTGGCG
TCCGACAAAGATGTGAATCTTGCCGTGCCGAAACTTGGTCCCCACAGTAA
GATTCCTACTCCTGGTCAGATTCGGGATTCGGTTGCATTCCGCAGGACAT
ATAGTTCCAACTCGATCAAGGTGCGCAATGTGGAGGTAGGACCGGGGAGC
TTCGATAAGATCAAGTTGATCGGAAAGGGTGATGTGGGCAAGGTGTACCT
GGTCCGGGAGAAGAAGTCGAGCCGGCTCTATGCTATGAAAGTACTGAGCA
AGAAGGAGATGATCAAGCGGAACAAGATTAAGCGGGCATTGGCCGAGCAG
GAAATCCTCGCCACCAGCAACCATCCATTCATTGTTACACTCTACCATTC
CTTCCAGTCCGAGGACTATCTCTACCTGTGCATGGAATACTGCAGTGGTG
GCGAATTCTTCAGAGCTCTTCAAACCCGCCCAGGAAAGTGCATTTCTGAG
GATGCTGCGCGATTCTATGCGGCAGAAGTTACTGCTGCTTTGGAATACCT
CCACCTTATGGGATTCATCTACCGTGATTTGAAGCCAGAAAATATTCTTC
TTCACCAGTCTGGCCACATTATGCTGTCTGACTTTGATCTGTCGAAGCAA
TCCGGACCGGGCGGTGCGCCCACAATGATCCCGGCGCGGAGTGGCAATTC
CACAACGTCTCTACCGACGATTGACACCAAGTCATGCATTGCCGACTTCA
GAACCAATTCATTCGTCGGTACGGAAGAGTACATTGCACCCGAGGTCATC
AAGGGTTGCGGACATACTAGCGCCGTTGACTGGTGGACGCTTGGTATCTT
GATCTACGAGATGCTGTACGGCACGACGCCGTTCAAGGGCAAGAACAGGA
ATGCTACTTTTGGCAACATCCTGCGAGATGAGGTGCAATTTCCCGAGCAC
TCAGCGGCCCAGCCAACCTCCAACCTCTGCAAATCATTAATTCGTAAACT
GCTCATCAAGGATGAGACCAAGCGCCTTGGAGCTCGAGCCGGTGCTTCGG
ACGTCAAGACCCATCCCTTCTTCCGGCAGACGCAGTGGGCGCTTATCCGG
CATATGAAGCCGCCAATGATCCCCCACCAGAGCCGTGGAACGGATACTCT
CAACTTCCGCAATGTCAAGGAGAGCGCGAGCGTCGATATTGGTGGATCCA
GCACGACCAAGATGAAGGGTGTACCGATGGATTCAGGTCTTGCGACGCCG
AATGGCGAGATAGCCGATCCGTTCGAGGAGTTCAACAGCGTCACCCTTCA
CCATGACGGAGACATGTGAATGACACAACTTTTCGCCTCCAGTCCGTCCT
CCGTGACGAACGAGAAACGCGGGAACTTTCCCAGTCTCTCCCTGGCCTCC
AAGAAGCATTCCAACGATTCGAGCCACTTCCCCACCAGAATCAAGAATTT
CTTTCGCATCAACAGTTCCAGCAGCAATTCTTCCCATGCCAGCCACCACA
ACAATGAATCGCGTGATCGCGATGGCAACACCTCCCCACCTGCAAAATCA
GATGCCAAATCCGGCTTTAGACAATCCCGGTTCCTTCCCACTATCGGCCG
AAATCGCTCAACCACCGTTGCCAGTGAAGGCAATCCGCTAGACGAAGGCG
TCTCCCCGACCGCAACGGCCAATCCATACTTTGTCCACCAGGGCCAGCCT
TCATTACAGCATCGGAACGATGGCTCGGTGCCGTCCTCCCCTCCCGATAC
CCCCGAATTGCAGGTGGACGGGGTCTCTGCTGCCGAGCAAGCCACCACAG
CCAACAAGGTTGAATTGGCTCGTAAGCTCCGTCGTGTTGCTTCTGCCCCG
AATGCGCAGGGTTTGTTTGCCCGTGGTGGGTCCGACGAACGTCCCCAGAC
GGCTGAGGCTGGAAAGGAACTTCTGGAGCCGTCTGGGGTTGATGATCCAC
AAGTCACTACGGTGGAGGTGGCGTCCGACAAAGATGTGAATCTTGCCGTG
CCGAAACTTGGTCCCCACAGTAAGATTCCTACTCCTGGTCAGATTCGGGA
TTCGGTTGCATTCCGCAGGACATATAGTTCCAACTCGATCAAGGTGCGCA
ATGTGGAGGTAGGACCGGGGAGCTTCGATAAGATCAAGTTGATCGGAAAG
GGTGATGTGGGCAAGGTGTACCTGGTCCGGGAGAAGAAGTCGAGCCGGCT
CTATGCTATGAAAGTACTGAGCAAGAAGGAGATGATCAAGCGGAACAAGA
TTAAGCGGGCATTGGCCGAGCAGGAAATCCTCGCCACCAGCAACCATCCA
TTCATTGTTACACTCTACCATTCCTTCCAGTCCGAGGACTATCTCTACCT
GTGCATGGAATACTGCAGTGGTGGCGAATTCTTCAGAGCTCTTCAAACCC
GCCCAGGAAAGTGCATTTCTGAGGATGCTGCGCGATTCTATGCGGCAGAA
GTTACTGCTGCTTTGGAATACCTCCACCTTATGGGATTCATCTACCGTGA
TTTGAAGCCAGAAAATATTCTTCTTCACCAGTCTGGCCACATTATGCTGT
CTGACTTTGATCTGTCGAAGCAATCCGGACCGGGCGGTGCGCCCACAATG
ATCCCGGCGCGGAGTGGCAATTCCACAACGTCTCTACCGACGATTGACAC
CAAGTCATGCATTGCCGACTTCAGAACCAATTCATTCGTCGGTACGGAAG
AGTACATTGCACCCGAGGTCATCAAGGGTTGCGGACATACTAGCGCCGTT
GACTGGTGGACGCTTGGTATCTTGATCTACGAGATGCTGTACGGCACGAC
GCCGTTCAAGGGCAAGAACAGGAATGCTACTTTTGGCAACATCCTGCGAG
ATGAGGTGCAATTTCCCGAGCACTCAGCGGCCCAGCCAACCTCCAACCTC
TGCAAATCATTAATTCGTAAACTGCTCATCAAGGATGAGACCAAGCGCCT
TGGAGCTCGAGCCGGTGCTTCGGACGTCAAGACCCATCCCTTCTTCCGGC
AGACGCAGTGGGCGCTTATCCGGCATATGAAGCCGCCAATGATCCCCCAC
CAGAGCCGTGGAACGGATACTCTCAACTTCCGCAATGTCAAGGAGAGCGC
GAGCGTCGATATTGGTGGATCCAGCACGACCAAGATGAAGGGTGTACCGA
TGGATTCAGGTCTTGCGACGCCGAATGGCGAGATAGCCGATCCGTTCGAG
GAGTTCAACAGCGTCACCCTTCACCATGACGGAGACATGTGAATGACACA
ACTTTTCGCCTCCAGTCCGTCCTCCGTGACGAACGAGAAACGCGGGAACT
TTCCCAGTCTCTCCCTGGCCTCCAAGAAGCATTCCAACGATTCGAGCCAC
TTCCCCACCAGAATCAAGAATTTCTTTCGCATCAACAGTTCCAGCAGCAA
TTCTTCCCATGCCAGCCACCACAACAATGAATCGCGTGATCGCGATGGCA
ACACCTCCCCACCTGCAAAATCAGATGCCAAATCCGGCTTTAGACAATCC
CGGTTCCTTCCCACTATCGGCCGAAATCGCTCAACCACCGTTGCCAGTGA
AGGCAATCCGCTAGACGAAGGCGTCTCCCCGACCGCAACGGCCAATCCAT
ACTTTGTCCACCAGGGCCAGCCTTCATTACAGCATCGGAACGATGGCTCG
GTGCCGTCCTCCCCTCCCGATACCCCCGAATTGCAGGTGGACGGGGTCTC
TGCTGCCGAGCAAGCCACCACAGCCAACAAGGTTGAATTGGCTCGTAAGC
TCCGTCGTGTTGCTTCTGCCCCGAATGCGCAGGGTTTGTTTGCCCGTGGT
GGGTCCGACGAACGTCCCCAGACGGCTGAGGCTGGAAAGGAACTTCTGGA
GCCGTCTGGGGTTGATGATCCACAAGTCACTACGGTGGAGGTGGCGTCCG
ACAAAGATGTGAATCTTGCCGTGCCGAAACTTGGTCCCCACAGTAAGATT
CCTACTCCTGGTCAGATTCGGGATTCGGTTGCATTCCGCAGGACATATAG
TTCCAACTCGATCAAGGTGCGCAATGTGGAGGTAGGACCGGGGAGCTTCG
ATAAGATCAAGTTGATCGGAAAGGGTGATGTGGGCAAGGTGTACCTGGTC
CGGGAGAAGAAGTCGAGCCGGCTCTATGCTATGAAAGTACTGAGCAAGAA
GGAGATGATCAAGCGGAACAAGATTAAGCGGGCATTGGCCGAGCAGGAAA
TCCTCGCCACCAGCAACCATCCATTCATTGTTACACTCTACCATTCCTTC
CAGTCCGAGGACTATCTCTACCTGTGCATGGAATACTGCAGTGGTGGCGA
ATTCTTCAGAGCTCTTCAAACCCGCCCAGGAAAGTGCATTTCTGAGGATG
CTGCGCGATTCTATGCGGCAGAAGTTACTGCTGCTTTGGAATACCTCCAC
CTTATGGGATTCATCTACCGTGATTTGAAGCCAGAAAATATTCTTCTTCA
CCAGTCTGGCCACATTATGCTGTCTGACTTTGATCTGTCGAAGCAATCCG
GACCGGGCGGTGCGCCCACAATGATCCCGGCGCGGAGTGGCAATTCCACA
ACGTCTCTACCGACGATTGACACCAAGTCATGCATTGCCGACTTCAGAAC
CAATTCATTCGTCGGTACGGAAGAGTACATTGCACCCGAGGTCATCAAGG
GTTGCGGACATACTAGCGCCGTTGACTGGTGGACGCTTGGTATCTTGATC
TACGAGATGCTGTACGGCACGACGCCGTTCAAGGGCAAGAACAGGAATGC
TACTTTTGGCAACATCCTGCGAGATGAGGTGCAATTTCCCGAGCACTCAG
CGGCCCAGCCAACCTCCAACCTCTGCAAATCATTAATTCGTAAACTGCTC
ATCAAGGATGAGACCAAGCGCCTTGGAGCTCGAGCCGGTGCTTCGGACGT
CAAGACCCATCCCTTCTTCCGGCAGACGCAGTGGGCGCTTATCCGGCATA
TGAAGCCGCCAATGATCCCCCACCAGAGCCGTGGAACGGATACTCTCAAC
TTCCGCAATGTCAAGGAGAGCGCGAGCGTCGATATTGGTGGATCCAGCAC
GACCAAGATGAAGGGTGTACCGATGGATTCAGGTCTTGCGACGCCGAATG
GCGAGATAGCCGATCCGTTCGAGGAGTTCAACAGCGTCACCCTTCACCAT
GACGGAGACATGTGA back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006468 | protein phosphorylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004672 | protein kinase activity |
| GO:0005524 | ATP binding |
Relationships
This mRNA is a part of the following gene feature(s):
The following polypeptide feature(s) derives from this mRNA:
The following exon feature(s) are a part of this mRNA:
The following CDS feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
Properties
| Property Name | Value |
|---|
| Product | AGC |
| Product | serine/threonine protein kinase |
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 |
|---|
| MCQH01000166 | supercontig | MCQH01000166:137924..140050 + |
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