|
|
Sequences
The following sequences are available for this feature:
mRNA from alignment at MCQH01000084:1988..4140- Legend: polypeptideCDSexon Hold the cursor over a type above to highlight its positions in the sequence below. >ATCC10864_004621-T1 ID=ATCC10864_004621-T1|Name=ATCC10864_004621-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=2153bp|location=Sequence derived from alignment at MCQH01000084:1988..4140- (Aspergillus niger ATCC 10864)
ATGCAACCAATTCGCCCGTTCAGGGCGTCGTCGTTGCGGGTTGGAGGTCT
TTTGTCTAGGTAAGCAGTTTTATGTTTTGCTGTGTTTTTCACAATACCTC
TTTTTATCCTGCACTTGCATGATGAGACATACCCTTCCAAATTACAGAAC
CGCTGCATTGAAGCTTGGGGGTTTATCTTCCAAGTTATGAGTAACAAGGA
AGCTTTATGTCTTCTGATTTTATCTTGTCTCTGCTATCATTTTGTATGGT
ATTTGTCTGTTAGACATCTTGCTAACGGCATGTTCAGGGCAGGACTTCCG
ATTTCCCGTACATCGCAGGCCTTTCAGACTTCTGGCAGGCTTGCTCGAGT
AATACAGCACACTCTTGCACCTCTGGTACAAACAAGGCATAACAGCGTCG
ATGCGTATCCTGAGAAGGCGTTCAAGAGGCGTGTGCAATTGATCGAAGAG
GCTGTTGCTGAGTCGTATCCCCGGCTCGCGTCAAACAAGAACACGGTGAG
CTGTGCGGAATTTCGTGGCCGCTACAGCCATCTAGCAGATAATGAAATAG
TAGAGGATGATACAGTTGTTATTAATGGTAGGTCCTAGTTCTAGCCTAGC
TGGCCCTACCATGTCGTCTCGTACTTAAATCAGTAGGTAGGGTACGTACC
TTAAGACTTGTTGGAGGCAATTTGATATTCTTCGACTTAGTTCATGATGG
CCATAAAATTCAAGTTATGTGCAATCGTCGTCGACTGAAGGATATCCCTC
CGGCGACCTTCAAGCAGTTCTACCGGATGCTTCGGCGTGGCGATGCCTTC
TGTATGTTTCACCAGCCGCTCCTTAGTATTCTGCTCTAGACTGAACGATA
TCCTATAGCCGTAACGGGTAATCCTCACCGGACTGAACGAGGTGAACTCA
CTGTTCTGGCGACCGAATTACCGCAGCTTCTGTCGCCCTGTCTGCATGAT
ATTCCCGTTGATGCCCAAGGGCAGGAGAATTCGCCGTACCCTCGACATGT
TCAATTCCTTGCGGACCCGGAGACAGTAAATGTCATCAGAGCTAGATCGG
CAGTTGTCCAATATCTTCGCCAATTCTTTGTCGACCGCGCTTTTATGGAG
GTTAATACGCCGATTATCGAAGCTGTTGCTGGCGGTGCAATTGCTCGTCC
ATTTCATACTACAGCCACCGAGTTTCCAGATCGCCAATTGTCGTTACGGA
TTGCGCCGGAACTCTGGCTAAAGAGGTTGGTGGTAGGAGGGTTTGACCGG
GTTTTTGAGATTGGACCTTCGTTCCGCAATGAAGGTATTAGTCTTCAGTC
GAAGTGTTTGAACGAAAACTGACGATTTGTGACAGGCCTTGACAAAACCC
ACAACCCCGAGTTCACCACTTGCGAGTTCTACCACGCCTACGCCAACCTG
GAGGATCTCATGACCACAACCGAGCAGCTGCTTTCGGGCCTGGCTGAGCA
CCTTACAGCATTCCATCAATCGTCACCCTTCAAGAGGCCTAATCAGGAAG
ACACACCTCTGCCGTTCTCCCATCTCAATTTCTCTGCACCCTTCCGCCGA
CTCGACTTCATCACCTCCATTGAGCAGAGCATCGGGCAGAAACTGCCAGA
CCTCGCATCTCCCGATGCTCTCGAGCAGGTGAAGGCAATCTTCCGTGACC
GCAATCATGCACTTCCAGATAAAGTGACCCTCCCCCGGCTGCTGGACGAG
CTCTGCAGCATCTACGTCGAACCTCAGTGCATCGACCCAACCTTCATCGT
TAACCCGCCGGAGTGCTTATCACCGTTGTCTAAGTCCTTCATCCACCCCA
CCACCAACCAGCGCGTCGCCGCGCGCGGAGAGCTTTTCATCGAGGGCCGC
GAAGTCGTGAACACATACGAAGAGGAGAATTCGCCGTTCGAACAGCGTCG
CAAGTTTGAAGACCAGGTTCGGTACAGCAAGCAGGCTGACGAGGCGGAAG
AGATCGACGAGAGCTACTTGAAGGCGCTGGAATGGGGTCTCCCTCCGACT
GGCGGCTGGGGATGCGGTATCGACCGTCTCTGCATGCTATTCACGGGCAT
GACGAGAATCGGGGACATTCTGCCTTTTGGCAACTTGCGCAAAGTGACCA
CGCGTGCTGATGCAGCGGCCGAGAGTCAGGCTACCGAAGGGAAAGAAAAC
TAG back to topCoding sequence (CDS) from alignment at MCQH01000084:1988..4140- >ATCC10864_004621-T1 ID=ATCC10864_004621-T1|Name=ATCC10864_004621-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=8790bp|location=Sequence derived from alignment at MCQH01000084:1988..4140- (Aspergillus niger ATCC 10864)
GCCTTGACAAAACCCACAACCCCGAGTTCACCACTTGCGAGTTCTACCAC
GCCTACGCCAACCTGGAGGATCTCATGACCACAACCGAGCAGCTGCTTTC
GGGCCTGGCTGAGCACCTTACAGCATTCCATCAATCGTCACCCTTCAAGA
GGCCTAATCAGGAAGACACACCTCTGCCGTTCTCCCATCTCAATTTCTCT
GCACCCTTCCGCCGACTCGACTTCATCACCTCCATTGAGCAGAGCATCGG
GCAGAAACTGCCAGACCTCGCATCTCCCGATGCTCTCGAGCAGGTGAAGG
CAATCTTCCGTGACCGCAATCATGCACTTCCAGATAAAGTGACCCTCCCC
CGGCTGCTGGACGAGCTCTGCAGCATCTACGTCGAACCTCAGTGCATCGA
CCCAACCTTCATCGTTAACCCGCCGGAGTGCTTATCACCGTTGTCTAAGT
CCTTCATCCACCCCACCACCAACCAGCGCGTCGCCGCGCGCGGAGAGCTT
TTCATCGAGGGCCGCGAAGTCGTGAACACATACGAAGAGGAGAATTCGCC
GTTCGAACAGCGTCGCAAGTTTGAAGACCAGGTTCGGTACAGCAAGCAGG
CTGACGAGGCGGAAGAGATCGACGAGAGCTACTTGAAGGCGCTGGAATGG
GGTCTCCCTCCGACTGGCGGCTGGGGATGCGGTATCGACCGTCTCTGCAT
GCTATTCACGGGCATGACGAGAATCGGGGACATTCTGCCTTTTGGCAACT
TGCGCAAAGTGACCACGCGTGCTGATGCAGCGGCCGAGAGTCAGGCTACC
GAAGGGAAAGAAAACTAGCCGTAACGGGTAATCCTCACCGGACTGAACGA
GGTGAACTCACTGTTCTGGCGACCGAATTACCGCAGCTTCTGTCGCCCTG
TCTGCATGATATTCCCGTTGATGCCCAAGGGCAGGAGAATTCGCCGTACC
CTCGACATGTTCAATTCCTTGCGGACCCGGAGACAGTAAATGTCATCAGA
GCTAGATCGGCAGTTGTCCAATATCTTCGCCAATTCTTTGTCGACCGCGC
TTTTATGGAGGTTAATACGCCGATTATCGAAGCTGTTGCTGGCGGTGCAA
TTGCTCGTCCATTTCATACTACAGCCACCGAGTTTCCAGATCGCCAATTG
TCGTTACGGATTGCGCCGGAACTCTGGCTAAAGAGGTTGGTGGTAGGAGG
GTTTGACCGGGTTTTTGAGATTGGACCTTCGTTCCGCAATGAAGGTAGGG
TACGTACCTTAAGACTTGTTGGAGGCAATTTGATATTCTTCGACTTAGTT
CATGATGGCCATAAAATTCAAGTTATGTGCAATCGTCGTCGACTGAAGGA
TATCCCTCCGGCGACCTTCAAGCAGTTCTACCGGATGCTTCGGCGTGGCG
ATGCCTTCTGGCAGGACTTCCGATTTCCCGTACATCGCAGGCCTTTCAGA
CTTCTGGCAGGCTTGCTCGAGTAATACAGCACACTCTTGCACCTCTGGTA
CAAACAAGGCATAACAGCGTCGATGCGTATCCTGAGAAGGCGTTCAAGAG
GCGTGTGCAATTGATCGAAGAGGCTGTTGCTGAGTCGTATCCCCGGCTCG
CGTCAAACAAGAACACGGTGAGCTGTGCGGAATTTCGTGGCCGCTACAGC
CATCTAGCAGATAATGAAATAGTAGAGGATGATACAGTTGTTATTAATGA
TGCAACCAATTCGCCCGTTCAGGGCGTCGTCGTTGCGGGTTGGAGGTCTT
TTGTCTAGGCCTTGACAAAACCCACAACCCCGAGTTCACCACTTGCGAGT
TCTACCACGCCTACGCCAACCTGGAGGATCTCATGACCACAACCGAGCAG
CTGCTTTCGGGCCTGGCTGAGCACCTTACAGCATTCCATCAATCGTCACC
CTTCAAGAGGCCTAATCAGGAAGACACACCTCTGCCGTTCTCCCATCTCA
ATTTCTCTGCACCCTTCCGCCGACTCGACTTCATCACCTCCATTGAGCAG
AGCATCGGGCAGAAACTGCCAGACCTCGCATCTCCCGATGCTCTCGAGCA
GGTGAAGGCAATCTTCCGTGACCGCAATCATGCACTTCCAGATAAAGTGA
CCCTCCCCCGGCTGCTGGACGAGCTCTGCAGCATCTACGTCGAACCTCAG
TGCATCGACCCAACCTTCATCGTTAACCCGCCGGAGTGCTTATCACCGTT
GTCTAAGTCCTTCATCCACCCCACCACCAACCAGCGCGTCGCCGCGCGCG
GAGAGCTTTTCATCGAGGGCCGCGAAGTCGTGAACACATACGAAGAGGAG
AATTCGCCGTTCGAACAGCGTCGCAAGTTTGAAGACCAGGTTCGGTACAG
CAAGCAGGCTGACGAGGCGGAAGAGATCGACGAGAGCTACTTGAAGGCGC
TGGAATGGGGTCTCCCTCCGACTGGCGGCTGGGGATGCGGTATCGACCGT
CTCTGCATGCTATTCACGGGCATGACGAGAATCGGGGACATTCTGCCTTT
TGGCAACTTGCGCAAAGTGACCACGCGTGCTGATGCAGCGGCCGAGAGTC
AGGCTACCGAAGGGAAAGAAAACTAGCCGTAACGGGTAATCCTCACCGGA
CTGAACGAGGTGAACTCACTGTTCTGGCGACCGAATTACCGCAGCTTCTG
TCGCCCTGTCTGCATGATATTCCCGTTGATGCCCAAGGGCAGGAGAATTC
GCCGTACCCTCGACATGTTCAATTCCTTGCGGACCCGGAGACAGTAAATG
TCATCAGAGCTAGATCGGCAGTTGTCCAATATCTTCGCCAATTCTTTGTC
GACCGCGCTTTTATGGAGGTTAATACGCCGATTATCGAAGCTGTTGCTGG
CGGTGCAATTGCTCGTCCATTTCATACTACAGCCACCGAGTTTCCAGATC
GCCAATTGTCGTTACGGATTGCGCCGGAACTCTGGCTAAAGAGGTTGGTG
GTAGGAGGGTTTGACCGGGTTTTTGAGATTGGACCTTCGTTCCGCAATGA
AGGTAGGGTACGTACCTTAAGACTTGTTGGAGGCAATTTGATATTCTTCG
ACTTAGTTCATGATGGCCATAAAATTCAAGTTATGTGCAATCGTCGTCGA
CTGAAGGATATCCCTCCGGCGACCTTCAAGCAGTTCTACCGGATGCTTCG
GCGTGGCGATGCCTTCTGGCAGGACTTCCGATTTCCCGTACATCGCAGGC
CTTTCAGACTTCTGGCAGGCTTGCTCGAGTAATACAGCACACTCTTGCAC
CTCTGGTACAAACAAGGCATAACAGCGTCGATGCGTATCCTGAGAAGGCG
TTCAAGAGGCGTGTGCAATTGATCGAAGAGGCTGTTGCTGAGTCGTATCC
CCGGCTCGCGTCAAACAAGAACACGGTGAGCTGTGCGGAATTTCGTGGCC
GCTACAGCCATCTAGCAGATAATGAAATAGTAGAGGATGATACAGTTGTT
ATTAATGATGCAACCAATTCGCCCGTTCAGGGCGTCGTCGTTGCGGGTTG
GAGGTCTTTTGTCTAGGCCTTGACAAAACCCACAACCCCGAGTTCACCAC
TTGCGAGTTCTACCACGCCTACGCCAACCTGGAGGATCTCATGACCACAA
CCGAGCAGCTGCTTTCGGGCCTGGCTGAGCACCTTACAGCATTCCATCAA
TCGTCACCCTTCAAGAGGCCTAATCAGGAAGACACACCTCTGCCGTTCTC
CCATCTCAATTTCTCTGCACCCTTCCGCCGACTCGACTTCATCACCTCCA
TTGAGCAGAGCATCGGGCAGAAACTGCCAGACCTCGCATCTCCCGATGCT
CTCGAGCAGGTGAAGGCAATCTTCCGTGACCGCAATCATGCACTTCCAGA
TAAAGTGACCCTCCCCCGGCTGCTGGACGAGCTCTGCAGCATCTACGTCG
AACCTCAGTGCATCGACCCAACCTTCATCGTTAACCCGCCGGAGTGCTTA
TCACCGTTGTCTAAGTCCTTCATCCACCCCACCACCAACCAGCGCGTCGC
CGCGCGCGGAGAGCTTTTCATCGAGGGCCGCGAAGTCGTGAACACATACG
AAGAGGAGAATTCGCCGTTCGAACAGCGTCGCAAGTTTGAAGACCAGGTT
CGGTACAGCAAGCAGGCTGACGAGGCGGAAGAGATCGACGAGAGCTACTT
GAAGGCGCTGGAATGGGGTCTCCCTCCGACTGGCGGCTGGGGATGCGGTA
TCGACCGTCTCTGCATGCTATTCACGGGCATGACGAGAATCGGGGACATT
CTGCCTTTTGGCAACTTGCGCAAAGTGACCACGCGTGCTGATGCAGCGGC
CGAGAGTCAGGCTACCGAAGGGAAAGAAAACTAGCCGTAACGGGTAATCC
TCACCGGACTGAACGAGGTGAACTCACTGTTCTGGCGACCGAATTACCGC
AGCTTCTGTCGCCCTGTCTGCATGATATTCCCGTTGATGCCCAAGGGCAG
GAGAATTCGCCGTACCCTCGACATGTTCAATTCCTTGCGGACCCGGAGAC
AGTAAATGTCATCAGAGCTAGATCGGCAGTTGTCCAATATCTTCGCCAAT
TCTTTGTCGACCGCGCTTTTATGGAGGTTAATACGCCGATTATCGAAGCT
GTTGCTGGCGGTGCAATTGCTCGTCCATTTCATACTACAGCCACCGAGTT
TCCAGATCGCCAATTGTCGTTACGGATTGCGCCGGAACTCTGGCTAAAGA
GGTTGGTGGTAGGAGGGTTTGACCGGGTTTTTGAGATTGGACCTTCGTTC
CGCAATGAAGGTAGGGTACGTACCTTAAGACTTGTTGGAGGCAATTTGAT
ATTCTTCGACTTAGTTCATGATGGCCATAAAATTCAAGTTATGTGCAATC
GTCGTCGACTGAAGGATATCCCTCCGGCGACCTTCAAGCAGTTCTACCGG
ATGCTTCGGCGTGGCGATGCCTTCTGGCAGGACTTCCGATTTCCCGTACA
TCGCAGGCCTTTCAGACTTCTGGCAGGCTTGCTCGAGTAATACAGCACAC
TCTTGCACCTCTGGTACAAACAAGGCATAACAGCGTCGATGCGTATCCTG
AGAAGGCGTTCAAGAGGCGTGTGCAATTGATCGAAGAGGCTGTTGCTGAG
TCGTATCCCCGGCTCGCGTCAAACAAGAACACGGTGAGCTGTGCGGAATT
TCGTGGCCGCTACAGCCATCTAGCAGATAATGAAATAGTAGAGGATGATA
CAGTTGTTATTAATGATGCAACCAATTCGCCCGTTCAGGGCGTCGTCGTT
GCGGGTTGGAGGTCTTTTGTCTAGGCCTTGACAAAACCCACAACCCCGAG
TTCACCACTTGCGAGTTCTACCACGCCTACGCCAACCTGGAGGATCTCAT
GACCACAACCGAGCAGCTGCTTTCGGGCCTGGCTGAGCACCTTACAGCAT
TCCATCAATCGTCACCCTTCAAGAGGCCTAATCAGGAAGACACACCTCTG
CCGTTCTCCCATCTCAATTTCTCTGCACCCTTCCGCCGACTCGACTTCAT
CACCTCCATTGAGCAGAGCATCGGGCAGAAACTGCCAGACCTCGCATCTC
CCGATGCTCTCGAGCAGGTGAAGGCAATCTTCCGTGACCGCAATCATGCA
CTTCCAGATAAAGTGACCCTCCCCCGGCTGCTGGACGAGCTCTGCAGCAT
CTACGTCGAACCTCAGTGCATCGACCCAACCTTCATCGTTAACCCGCCGG
AGTGCTTATCACCGTTGTCTAAGTCCTTCATCCACCCCACCACCAACCAG
CGCGTCGCCGCGCGCGGAGAGCTTTTCATCGAGGGCCGCGAAGTCGTGAA
CACATACGAAGAGGAGAATTCGCCGTTCGAACAGCGTCGCAAGTTTGAAG
ACCAGGTTCGGTACAGCAAGCAGGCTGACGAGGCGGAAGAGATCGACGAG
AGCTACTTGAAGGCGCTGGAATGGGGTCTCCCTCCGACTGGCGGCTGGGG
ATGCGGTATCGACCGTCTCTGCATGCTATTCACGGGCATGACGAGAATCG
GGGACATTCTGCCTTTTGGCAACTTGCGCAAAGTGACCACGCGTGCTGAT
GCAGCGGCCGAGAGTCAGGCTACCGAAGGGAAAGAAAACTAGCCGTAACG
GGTAATCCTCACCGGACTGAACGAGGTGAACTCACTGTTCTGGCGACCGA
ATTACCGCAGCTTCTGTCGCCCTGTCTGCATGATATTCCCGTTGATGCCC
AAGGGCAGGAGAATTCGCCGTACCCTCGACATGTTCAATTCCTTGCGGAC
CCGGAGACAGTAAATGTCATCAGAGCTAGATCGGCAGTTGTCCAATATCT
TCGCCAATTCTTTGTCGACCGCGCTTTTATGGAGGTTAATACGCCGATTA
TCGAAGCTGTTGCTGGCGGTGCAATTGCTCGTCCATTTCATACTACAGCC
ACCGAGTTTCCAGATCGCCAATTGTCGTTACGGATTGCGCCGGAACTCTG
GCTAAAGAGGTTGGTGGTAGGAGGGTTTGACCGGGTTTTTGAGATTGGAC
CTTCGTTCCGCAATGAAGGTAGGGTACGTACCTTAAGACTTGTTGGAGGC
AATTTGATATTCTTCGACTTAGTTCATGATGGCCATAAAATTCAAGTTAT
GTGCAATCGTCGTCGACTGAAGGATATCCCTCCGGCGACCTTCAAGCAGT
TCTACCGGATGCTTCGGCGTGGCGATGCCTTCTGGCAGGACTTCCGATTT
CCCGTACATCGCAGGCCTTTCAGACTTCTGGCAGGCTTGCTCGAGTAATA
CAGCACACTCTTGCACCTCTGGTACAAACAAGGCATAACAGCGTCGATGC
GTATCCTGAGAAGGCGTTCAAGAGGCGTGTGCAATTGATCGAAGAGGCTG
TTGCTGAGTCGTATCCCCGGCTCGCGTCAAACAAGAACACGGTGAGCTGT
GCGGAATTTCGTGGCCGCTACAGCCATCTAGCAGATAATGAAATAGTAGA
GGATGATACAGTTGTTATTAATGATGCAACCAATTCGCCCGTTCAGGGCG
TCGTCGTTGCGGGTTGGAGGTCTTTTGTCTAGGCCTTGACAAAACCCACA
ACCCCGAGTTCACCACTTGCGAGTTCTACCACGCCTACGCCAACCTGGAG
GATCTCATGACCACAACCGAGCAGCTGCTTTCGGGCCTGGCTGAGCACCT
TACAGCATTCCATCAATCGTCACCCTTCAAGAGGCCTAATCAGGAAGACA
CACCTCTGCCGTTCTCCCATCTCAATTTCTCTGCACCCTTCCGCCGACTC
GACTTCATCACCTCCATTGAGCAGAGCATCGGGCAGAAACTGCCAGACCT
CGCATCTCCCGATGCTCTCGAGCAGGTGAAGGCAATCTTCCGTGACCGCA
ATCATGCACTTCCAGATAAAGTGACCCTCCCCCGGCTGCTGGACGAGCTC
TGCAGCATCTACGTCGAACCTCAGTGCATCGACCCAACCTTCATCGTTAA
CCCGCCGGAGTGCTTATCACCGTTGTCTAAGTCCTTCATCCACCCCACCA
CCAACCAGCGCGTCGCCGCGCGCGGAGAGCTTTTCATCGAGGGCCGCGAA
GTCGTGAACACATACGAAGAGGAGAATTCGCCGTTCGAACAGCGTCGCAA
GTTTGAAGACCAGGTTCGGTACAGCAAGCAGGCTGACGAGGCGGAAGAGA
TCGACGAGAGCTACTTGAAGGCGCTGGAATGGGGTCTCCCTCCGACTGGC
GGCTGGGGATGCGGTATCGACCGTCTCTGCATGCTATTCACGGGCATGAC
GAGAATCGGGGACATTCTGCCTTTTGGCAACTTGCGCAAAGTGACCACGC
GTGCTGATGCAGCGGCCGAGAGTCAGGCTACCGAAGGGAAAGAAAACTAG
CCGTAACGGGTAATCCTCACCGGACTGAACGAGGTGAACTCACTGTTCTG
GCGACCGAATTACCGCAGCTTCTGTCGCCCTGTCTGCATGATATTCCCGT
TGATGCCCAAGGGCAGGAGAATTCGCCGTACCCTCGACATGTTCAATTCC
TTGCGGACCCGGAGACAGTAAATGTCATCAGAGCTAGATCGGCAGTTGTC
CAATATCTTCGCCAATTCTTTGTCGACCGCGCTTTTATGGAGGTTAATAC
GCCGATTATCGAAGCTGTTGCTGGCGGTGCAATTGCTCGTCCATTTCATA
CTACAGCCACCGAGTTTCCAGATCGCCAATTGTCGTTACGGATTGCGCCG
GAACTCTGGCTAAAGAGGTTGGTGGTAGGAGGGTTTGACCGGGTTTTTGA
GATTGGACCTTCGTTCCGCAATGAAGGTAGGGTACGTACCTTAAGACTTG
TTGGAGGCAATTTGATATTCTTCGACTTAGTTCATGATGGCCATAAAATT
CAAGTTATGTGCAATCGTCGTCGACTGAAGGATATCCCTCCGGCGACCTT
CAAGCAGTTCTACCGGATGCTTCGGCGTGGCGATGCCTTCTGGCAGGACT
TCCGATTTCCCGTACATCGCAGGCCTTTCAGACTTCTGGCAGGCTTGCTC
GAGTAATACAGCACACTCTTGCACCTCTGGTACAAACAAGGCATAACAGC
GTCGATGCGTATCCTGAGAAGGCGTTCAAGAGGCGTGTGCAATTGATCGA
AGAGGCTGTTGCTGAGTCGTATCCCCGGCTCGCGTCAAACAAGAACACGG
TGAGCTGTGCGGAATTTCGTGGCCGCTACAGCCATCTAGCAGATAATGAA
ATAGTAGAGGATGATACAGTTGTTATTAATGATGCAACCAATTCGCCCGT
TCAGGGCGTCGTCGTTGCGGGTTGGAGGTCTTTTGTCTAG back to top
Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Cellular Component
| Term | Definition |
|---|
| GO:0005737 | cytoplasm |
Vocabulary: Biological Process
| Term | Definition |
|---|
| GO:0006418 | tRNA aminoacylation for protein translation |
| GO:0006430 | lysyl-tRNA aminoacylation |
Vocabulary: Molecular Function
| Term | Definition |
|---|
| GO:0004824 | lysine-tRNA ligase activity |
| GO:0000166 | nucleotide binding |
| GO:0004812 | aminoacyl-tRNA ligase activity |
| GO:0003676 | nucleic acid binding |
| 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 CDS feature(s) are a part of this mRNA:
The following exon feature(s) are a part of this mRNA:
Cross References
External references for this mRNA
| Database | Accession |
|---|
| PFAM | PF01336 |
| InterPro | IPR002313 |
| InterPro | IPR018149 |
| InterPro | IPR006195 |
| InterPro | IPR012340 |
| InterPro | IPR044136 |
| InterPro | IPR004364 |
| PFAM | PF00152 |
| InterPro | IPR004365 |
Properties
| Property Name | Value |
|---|
| 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 |
|---|
| MCQH01000084 | supercontig | MCQH01000084:1988..4140 - |
|
