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ATCC10864_009530-T1, ATCC10864_009530-T1 (mRNA) Aspergillus niger ATCC 10864

Overview
NameATCC10864_009530-T1
Unique NameATCC10864_009530-T1
TypemRNA
OrganismAspergillus niger ATCC 10864
Sequences
The following sequences are available for this feature:

mRNA from alignment at MCQH01000210:595071..596801+

Legend: polypeptideexonCDS
Hold the cursor over a type above to highlight its positions in the sequence below.
>ATCC10864_009530-T1 ID=ATCC10864_009530-T1|Name=ATCC10864_009530-T1|organism=Aspergillus niger ATCC 10864|type=mRNA|length=1731bp|location=Sequence derived from alignment at MCQH01000210:595071..596801+ (Aspergillus niger ATCC 10864)
ATGGCTGCCAACGGCTCTTCTTCGGAAGGCGATCACCGCCTGTTGATCGT
TTCCAATCGTCTGCCCATCACCATTCGTCGCTCCGGGGGTGGGAAATATG
AGTTTTCCATGTCCTCTGGTGGCCTGGTGACTGGTTTGAGCGGACTATCA
AAGACCACAACCTTCCAGTGGTATGGCTGGCCAGGACTGGAAGTGCCCGA
GGATGAGATCGACTCCGTGAAACAGCGTTTGCAGGAAGAGTTCAACGCCA
CCCCGGTGTTCATGGACGACAAACTGGCAGATCGCCACTACAATGGCTTC
TCAAGTACGTATCGTCATGATTCCCCCTCTCCACCTGCATTGGATGTGCA
TCCGCACCTATCTCCTGCGGCTGCCACCTGGCAGGGCGCGACAGGTCTGT
ATCTGTTGCTAATGTGAGCTATCAGACTCAATCTTGTGGCCTCTTCTGCA
TTATCATCCCGGTGAAATTGTTTTTGACGAAGCTGCCTGGGATGCGTATC
GTGAGGCGAACCGTCTGTTCGCAAAGACTATCGCCCATGAGGCCCGGGAA
GGAGACCTTGTCTGGGTCCACGACTATCACCTCATGCTTCTTCCGGAAGT
TCTCCGCGAAGAACTCGCAGCCTTGGGCAAGAACAATATCCGCATTGGAT
TTTTCTTGCATACTCCATTCCCGAGCAGTGAGATCTATAGAATCCTTCCT
GTGCGGAGTCAGTTGCTGCGCGGCGTGTTGCAGTGTGACTTGATCGGATT
CCATACCTATGACTATGCGCGTCACTTCCTGAGCTGTTGCTCTCATATCC
TGTAAGTGGCCACTCGCTGTCTGGCCGGGTTGTAAGCTAACGTCTCCGGC
AGTGGATTGGTCACAACCCCAAGCAGTGTCAAATTCAAAGACAGGTCTGT
CGCCGTGGGAGCTTTCCCCATCGGCATTGATCCCGACAAGTTCACCGAGG
GCCTAAAGAGCCCCAAGGTGCAGAACCGCATCGCAAGTCTCGAGAACAAG
TTCCAAGGAACCAAGTTGATGGTCAGCGTTGATCGCCTGGACTACATCAA
GGGTATTCCCCAGAAGCTGCATGCCTTGGAGGTCTTCCTCTCCCAGCATC
CTGAATGGGTGGGCAAAGTCGTGCTGGTACAGGTAGCTGTCCCGAGTCGT
CAGGATGTTGAAGAGTATCAAAACCTGAGGGCCGTGGTGAACGAGCTGGT
GGGCAGAATCAACGGAAAGTTCGGTAAGTCTGGCAATGCCAATATTTCTC
TCGCGCTTCCTAACAGCCTTGGCTCAGGAACGGTCGACTACATGCCCATC
CACTTCATGCACAAATCGGTGAGCTTTGATGAGCTCATCGCGCTGTATGC
CGCCTCCGACGCGTGTGTCGTGTCGTCGACTCGCGACGGGATGAACCTAG
TGTCGTTCGAATACGTTGCAACACAGCAGAAACGCAAGGGGGTGCTAATT
CTGTCGGAGTTTGCTGGAGCCGCGCAAAGCCTTAACGGCAGCATTGTAGT
CAACCCGTGGAACACGGAAGAACTTGCCAGCGCATACCACGAGGCCGTGT
CGATGAGTGACGATCTGCGGGCCCAAAAATTCGAAAAGCTCTACAAATAC
ATCTCCAAGTACACCAGGTAAGCTGACGCGGCCCATTGATAACTATACAA
CGCATAGTTGGCTGACGGTAATGTCGCAGTGCTTTCTGGGGCAAGTCATT
TGTTGCCGAACTATCCAAGTGTTCAACCTGA
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Coding sequence (CDS) from alignment at MCQH01000210:595071..596801+

>ATCC10864_009530-T1 ID=ATCC10864_009530-T1|Name=ATCC10864_009530-T1|organism=Aspergillus niger ATCC 10864|type=CDS|length=7215bp|location=Sequence derived from alignment at MCQH01000210:595071..596801+ (Aspergillus niger ATCC 10864)
ATGGCTGCCAACGGCTCTTCTTCGGAAGGCGATCACCGCCTGTTGATCGT
TTCCAATCGTCTGCCCATCACCATTCGTCGCTCCGGGGGTGGGAAATATG
AGTTTTCCATGTCCTCTGGTGGCCTGGTGACTGGTTTGAGCGGACTATCA
AAGACCACAACCTTCCAGTGGTATGGCTGGCCAGGACTGGAAGTGCCCGA
GGATGAGATCGACTCCGTGAAACAGCGTTTGCAGGAAGAGTTCAACGCCA
CCCCGGTGTTCATGGACGACAAACTGGCAGATCGCCACTACAATGGCTTC
TCAAACTCAATCTTGTGGCCTCTTCTGCATTATCATCCCGGTGAAATTGT
TTTTGACGAAGCTGCCTGGGATGCGTATCGTGAGGCGAACCGTCTGTTCG
CAAAGACTATCGCCCATGAGGCCCGGGAAGGAGACCTTGTCTGGGTCCAC
GACTATCACCTCATGCTTCTTCCGGAAGTTCTCCGCGAAGAACTCGCAGC
CTTGGGCAAGAACAATATCCGCATTGGATTTTTCTTGCATACTCCATTCC
CGAGCAGTGAGATCTATAGAATCCTTCCTGTGCGGAGTCAGTTGCTGCGC
GGCGTGTTGCAGTGTGACTTGATCGGATTCCATACCTATGACTATGCGCG
TCACTTCCTGAGCTGTTGCTCTCATATCCTTGGATTGGTCACAACCCCAA
GCAGTGTCAAATTCAAAGACAGGTCTGTCGCCGTGGGAGCTTTCCCCATC
GGCATTGATCCCGACAAGTTCACCGAGGGCCTAAAGAGCCCCAAGGTGCA
GAACCGCATCGCAAGTCTCGAGAACAAGTTCCAAGGAACCAAGTTGATGG
TCAGCGTTGATCGCCTGGACTACATCAAGGGTATTCCCCAGAAGCTGCAT
GCCTTGGAGGTCTTCCTCTCCCAGCATCCTGAATGGGTGGGCAAAGTCGT
GCTGGTACAGGTAGCTGTCCCGAGTCGTCAGGATGTTGAAGAGTATCAAA
ACCTGAGGGCCGTGGTGAACGAGCTGGTGGGCAGAATCAACGGAAAGTTC
GGAACGGTCGACTACATGCCCATCCACTTCATGCACAAATCGGTGAGCTT
TGATGAGCTCATCGCGCTGTATGCCGCCTCCGACGCGTGTGTCGTGTCGT
CGACTCGCGACGGGATGAACCTAGTGTCGTTCGAATACGTTGCAACACAG
CAGAAACGCAAGGGGGTGCTAATTCTGTCGGAGTTTGCTGGAGCCGCGCA
AAGCCTTAACGGCAGCATTGTAGTCAACCCGTGGAACACGGAAGAACTTG
CCAGCGCATACCACGAGGCCGTGTCGATGAGTGACGATCTGCGGGCCCAA
AAATTCGAAAAGCTCTACAAATACATCTCCAAGTACACCAGTGCTTTCTG
GGGCAAGTCATTTGTTGCCGAACTATCCAAGTGTTCAACCTGAATGGCTG
CCAACGGCTCTTCTTCGGAAGGCGATCACCGCCTGTTGATCGTTTCCAAT
CGTCTGCCCATCACCATTCGTCGCTCCGGGGGTGGGAAATATGAGTTTTC
CATGTCCTCTGGTGGCCTGGTGACTGGTTTGAGCGGACTATCAAAGACCA
CAACCTTCCAGTGGTATGGCTGGCCAGGACTGGAAGTGCCCGAGGATGAG
ATCGACTCCGTGAAACAGCGTTTGCAGGAAGAGTTCAACGCCACCCCGGT
GTTCATGGACGACAAACTGGCAGATCGCCACTACAATGGCTTCTCAAACT
CAATCTTGTGGCCTCTTCTGCATTATCATCCCGGTGAAATTGTTTTTGAC
GAAGCTGCCTGGGATGCGTATCGTGAGGCGAACCGTCTGTTCGCAAAGAC
TATCGCCCATGAGGCCCGGGAAGGAGACCTTGTCTGGGTCCACGACTATC
ACCTCATGCTTCTTCCGGAAGTTCTCCGCGAAGAACTCGCAGCCTTGGGC
AAGAACAATATCCGCATTGGATTTTTCTTGCATACTCCATTCCCGAGCAG
TGAGATCTATAGAATCCTTCCTGTGCGGAGTCAGTTGCTGCGCGGCGTGT
TGCAGTGTGACTTGATCGGATTCCATACCTATGACTATGCGCGTCACTTC
CTGAGCTGTTGCTCTCATATCCTTGGATTGGTCACAACCCCAAGCAGTGT
CAAATTCAAAGACAGGTCTGTCGCCGTGGGAGCTTTCCCCATCGGCATTG
ATCCCGACAAGTTCACCGAGGGCCTAAAGAGCCCCAAGGTGCAGAACCGC
ATCGCAAGTCTCGAGAACAAGTTCCAAGGAACCAAGTTGATGGTCAGCGT
TGATCGCCTGGACTACATCAAGGGTATTCCCCAGAAGCTGCATGCCTTGG
AGGTCTTCCTCTCCCAGCATCCTGAATGGGTGGGCAAAGTCGTGCTGGTA
CAGGTAGCTGTCCCGAGTCGTCAGGATGTTGAAGAGTATCAAAACCTGAG
GGCCGTGGTGAACGAGCTGGTGGGCAGAATCAACGGAAAGTTCGGAACGG
TCGACTACATGCCCATCCACTTCATGCACAAATCGGTGAGCTTTGATGAG
CTCATCGCGCTGTATGCCGCCTCCGACGCGTGTGTCGTGTCGTCGACTCG
CGACGGGATGAACCTAGTGTCGTTCGAATACGTTGCAACACAGCAGAAAC
GCAAGGGGGTGCTAATTCTGTCGGAGTTTGCTGGAGCCGCGCAAAGCCTT
AACGGCAGCATTGTAGTCAACCCGTGGAACACGGAAGAACTTGCCAGCGC
ATACCACGAGGCCGTGTCGATGAGTGACGATCTGCGGGCCCAAAAATTCG
AAAAGCTCTACAAATACATCTCCAAGTACACCAGTGCTTTCTGGGGCAAG
TCATTTGTTGCCGAACTATCCAAGTGTTCAACCTGAATGGCTGCCAACGG
CTCTTCTTCGGAAGGCGATCACCGCCTGTTGATCGTTTCCAATCGTCTGC
CCATCACCATTCGTCGCTCCGGGGGTGGGAAATATGAGTTTTCCATGTCC
TCTGGTGGCCTGGTGACTGGTTTGAGCGGACTATCAAAGACCACAACCTT
CCAGTGGTATGGCTGGCCAGGACTGGAAGTGCCCGAGGATGAGATCGACT
CCGTGAAACAGCGTTTGCAGGAAGAGTTCAACGCCACCCCGGTGTTCATG
GACGACAAACTGGCAGATCGCCACTACAATGGCTTCTCAAACTCAATCTT
GTGGCCTCTTCTGCATTATCATCCCGGTGAAATTGTTTTTGACGAAGCTG
CCTGGGATGCGTATCGTGAGGCGAACCGTCTGTTCGCAAAGACTATCGCC
CATGAGGCCCGGGAAGGAGACCTTGTCTGGGTCCACGACTATCACCTCAT
GCTTCTTCCGGAAGTTCTCCGCGAAGAACTCGCAGCCTTGGGCAAGAACA
ATATCCGCATTGGATTTTTCTTGCATACTCCATTCCCGAGCAGTGAGATC
TATAGAATCCTTCCTGTGCGGAGTCAGTTGCTGCGCGGCGTGTTGCAGTG
TGACTTGATCGGATTCCATACCTATGACTATGCGCGTCACTTCCTGAGCT
GTTGCTCTCATATCCTTGGATTGGTCACAACCCCAAGCAGTGTCAAATTC
AAAGACAGGTCTGTCGCCGTGGGAGCTTTCCCCATCGGCATTGATCCCGA
CAAGTTCACCGAGGGCCTAAAGAGCCCCAAGGTGCAGAACCGCATCGCAA
GTCTCGAGAACAAGTTCCAAGGAACCAAGTTGATGGTCAGCGTTGATCGC
CTGGACTACATCAAGGGTATTCCCCAGAAGCTGCATGCCTTGGAGGTCTT
CCTCTCCCAGCATCCTGAATGGGTGGGCAAAGTCGTGCTGGTACAGGTAG
CTGTCCCGAGTCGTCAGGATGTTGAAGAGTATCAAAACCTGAGGGCCGTG
GTGAACGAGCTGGTGGGCAGAATCAACGGAAAGTTCGGAACGGTCGACTA
CATGCCCATCCACTTCATGCACAAATCGGTGAGCTTTGATGAGCTCATCG
CGCTGTATGCCGCCTCCGACGCGTGTGTCGTGTCGTCGACTCGCGACGGG
ATGAACCTAGTGTCGTTCGAATACGTTGCAACACAGCAGAAACGCAAGGG
GGTGCTAATTCTGTCGGAGTTTGCTGGAGCCGCGCAAAGCCTTAACGGCA
GCATTGTAGTCAACCCGTGGAACACGGAAGAACTTGCCAGCGCATACCAC
GAGGCCGTGTCGATGAGTGACGATCTGCGGGCCCAAAAATTCGAAAAGCT
CTACAAATACATCTCCAAGTACACCAGTGCTTTCTGGGGCAAGTCATTTG
TTGCCGAACTATCCAAGTGTTCAACCTGAATGGCTGCCAACGGCTCTTCT
TCGGAAGGCGATCACCGCCTGTTGATCGTTTCCAATCGTCTGCCCATCAC
CATTCGTCGCTCCGGGGGTGGGAAATATGAGTTTTCCATGTCCTCTGGTG
GCCTGGTGACTGGTTTGAGCGGACTATCAAAGACCACAACCTTCCAGTGG
TATGGCTGGCCAGGACTGGAAGTGCCCGAGGATGAGATCGACTCCGTGAA
ACAGCGTTTGCAGGAAGAGTTCAACGCCACCCCGGTGTTCATGGACGACA
AACTGGCAGATCGCCACTACAATGGCTTCTCAAACTCAATCTTGTGGCCT
CTTCTGCATTATCATCCCGGTGAAATTGTTTTTGACGAAGCTGCCTGGGA
TGCGTATCGTGAGGCGAACCGTCTGTTCGCAAAGACTATCGCCCATGAGG
CCCGGGAAGGAGACCTTGTCTGGGTCCACGACTATCACCTCATGCTTCTT
CCGGAAGTTCTCCGCGAAGAACTCGCAGCCTTGGGCAAGAACAATATCCG
CATTGGATTTTTCTTGCATACTCCATTCCCGAGCAGTGAGATCTATAGAA
TCCTTCCTGTGCGGAGTCAGTTGCTGCGCGGCGTGTTGCAGTGTGACTTG
ATCGGATTCCATACCTATGACTATGCGCGTCACTTCCTGAGCTGTTGCTC
TCATATCCTTGGATTGGTCACAACCCCAAGCAGTGTCAAATTCAAAGACA
GGTCTGTCGCCGTGGGAGCTTTCCCCATCGGCATTGATCCCGACAAGTTC
ACCGAGGGCCTAAAGAGCCCCAAGGTGCAGAACCGCATCGCAAGTCTCGA
GAACAAGTTCCAAGGAACCAAGTTGATGGTCAGCGTTGATCGCCTGGACT
ACATCAAGGGTATTCCCCAGAAGCTGCATGCCTTGGAGGTCTTCCTCTCC
CAGCATCCTGAATGGGTGGGCAAAGTCGTGCTGGTACAGGTAGCTGTCCC
GAGTCGTCAGGATGTTGAAGAGTATCAAAACCTGAGGGCCGTGGTGAACG
AGCTGGTGGGCAGAATCAACGGAAAGTTCGGAACGGTCGACTACATGCCC
ATCCACTTCATGCACAAATCGGTGAGCTTTGATGAGCTCATCGCGCTGTA
TGCCGCCTCCGACGCGTGTGTCGTGTCGTCGACTCGCGACGGGATGAACC
TAGTGTCGTTCGAATACGTTGCAACACAGCAGAAACGCAAGGGGGTGCTA
ATTCTGTCGGAGTTTGCTGGAGCCGCGCAAAGCCTTAACGGCAGCATTGT
AGTCAACCCGTGGAACACGGAAGAACTTGCCAGCGCATACCACGAGGCCG
TGTCGATGAGTGACGATCTGCGGGCCCAAAAATTCGAAAAGCTCTACAAA
TACATCTCCAAGTACACCAGTGCTTTCTGGGGCAAGTCATTTGTTGCCGA
ACTATCCAAGTGTTCAACCTGAATGGCTGCCAACGGCTCTTCTTCGGAAG
GCGATCACCGCCTGTTGATCGTTTCCAATCGTCTGCCCATCACCATTCGT
CGCTCCGGGGGTGGGAAATATGAGTTTTCCATGTCCTCTGGTGGCCTGGT
GACTGGTTTGAGCGGACTATCAAAGACCACAACCTTCCAGTGGTATGGCT
GGCCAGGACTGGAAGTGCCCGAGGATGAGATCGACTCCGTGAAACAGCGT
TTGCAGGAAGAGTTCAACGCCACCCCGGTGTTCATGGACGACAAACTGGC
AGATCGCCACTACAATGGCTTCTCAAACTCAATCTTGTGGCCTCTTCTGC
ATTATCATCCCGGTGAAATTGTTTTTGACGAAGCTGCCTGGGATGCGTAT
CGTGAGGCGAACCGTCTGTTCGCAAAGACTATCGCCCATGAGGCCCGGGA
AGGAGACCTTGTCTGGGTCCACGACTATCACCTCATGCTTCTTCCGGAAG
TTCTCCGCGAAGAACTCGCAGCCTTGGGCAAGAACAATATCCGCATTGGA
TTTTTCTTGCATACTCCATTCCCGAGCAGTGAGATCTATAGAATCCTTCC
TGTGCGGAGTCAGTTGCTGCGCGGCGTGTTGCAGTGTGACTTGATCGGAT
TCCATACCTATGACTATGCGCGTCACTTCCTGAGCTGTTGCTCTCATATC
CTTGGATTGGTCACAACCCCAAGCAGTGTCAAATTCAAAGACAGGTCTGT
CGCCGTGGGAGCTTTCCCCATCGGCATTGATCCCGACAAGTTCACCGAGG
GCCTAAAGAGCCCCAAGGTGCAGAACCGCATCGCAAGTCTCGAGAACAAG
TTCCAAGGAACCAAGTTGATGGTCAGCGTTGATCGCCTGGACTACATCAA
GGGTATTCCCCAGAAGCTGCATGCCTTGGAGGTCTTCCTCTCCCAGCATC
CTGAATGGGTGGGCAAAGTCGTGCTGGTACAGGTAGCTGTCCCGAGTCGT
CAGGATGTTGAAGAGTATCAAAACCTGAGGGCCGTGGTGAACGAGCTGGT
GGGCAGAATCAACGGAAAGTTCGGAACGGTCGACTACATGCCCATCCACT
TCATGCACAAATCGGTGAGCTTTGATGAGCTCATCGCGCTGTATGCCGCC
TCCGACGCGTGTGTCGTGTCGTCGACTCGCGACGGGATGAACCTAGTGTC
GTTCGAATACGTTGCAACACAGCAGAAACGCAAGGGGGTGCTAATTCTGT
CGGAGTTTGCTGGAGCCGCGCAAAGCCTTAACGGCAGCATTGTAGTCAAC
CCGTGGAACACGGAAGAACTTGCCAGCGCATACCACGAGGCCGTGTCGAT
GAGTGACGATCTGCGGGCCCAAAAATTCGAAAAGCTCTACAAATACATCT
CCAAGTACACCAGTGCTTTCTGGGGCAAGTCATTTGTTGCCGAACTATCC
AAGTGTTCAACCTGA
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Annotated Terms
The following terms have been associated with this mRNA:
Vocabulary: Biological Process
TermDefinition
GO:0005992trehalose biosynthetic process
Vocabulary: Molecular Function
TermDefinition
GO:0003825alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity
GO:0003824catalytic activity
Relationships

This mRNA is a part of the following gene feature(s):

Feature NameUnique NameSpeciesType
ATCC10864_009530ATCC10864_009530Aspergillus niger ATCC 10864gene


The following polypeptide feature(s) derives from this mRNA:

Feature NameUnique NameSpeciesType
ATCC10864_009530-T1ATCC10864_009530-T1-proteinAspergillus niger ATCC 10864polypeptide


The following exon feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ATCC10864_009530-T1.exon1ATCC10864_009530-T1.exon1Aspergillus niger ATCC 10864exon
ATCC10864_009530-T1.exon2ATCC10864_009530-T1.exon2Aspergillus niger ATCC 10864exon
ATCC10864_009530-T1.exon3ATCC10864_009530-T1.exon3Aspergillus niger ATCC 10864exon
ATCC10864_009530-T1.exon4ATCC10864_009530-T1.exon4Aspergillus niger ATCC 10864exon
ATCC10864_009530-T1.exon5ATCC10864_009530-T1.exon5Aspergillus niger ATCC 10864exon


The following CDS feature(s) are a part of this mRNA:

Feature NameUnique NameSpeciesType
ATCC10864_009530-T1.cdsATCC10864_009530-T1.cdsAspergillus niger ATCC 10864CDS


Cross References
External references for this mRNA
DatabaseAccession
PFAMPF00982
InterProIPR012766
InterProIPR001830
Properties
Property NameValue
NoteCAZy:GT20
Producthypothetical protein
Analyses
This mRNA is derived from or has results from the following analyses
Analysis NameDate Performed
Aspergillus niger ATCC 10864 whole genome analysis2021-11-01
Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
MCQH01000210supercontigMCQH01000210:595071..596801 +
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