alpha-xylosidase, maker-scaffold101_size371023-snap-gene-2.21 (gene) Tigriopus kingsejongensis

Overview
Namealpha-xylosidase
Unique Namemaker-scaffold101_size371023-snap-gene-2.21
Typegene
OrganismTigriopus kingsejongensis (Tigriopus kingsejongensis)
Associated RNAi Experiments

Nothing found

Homology
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BLAST of alpha-xylosidase vs. nr
Match: gi|1325304047|ref|XP_023333606.1| (uncharacterized protein LOC111705339 [Eurytemora affinis])

HSP 1 Score: 111.694 bits (278), Expect = 1.555e-22
Identity = 94/310 (30.32%), Postives = 152/310 (49.03%), Query Frame = 0 
Query:  108 IKEDNREPVLVSDVFKVIEDPEATGILRREYQRLYDE---MQVEGIWRLNVPKTDSLVGRFLETFNHGEGRVQRPLGVKLEFSPPILRKEDYRNKILYSTNAGNDWTIMDNPQKPLYLPLNQDTLMLVDLEKDYVGPIAFNVTAYVQDLDGSIRENQEEKQTIILEVEPVNDAPRPIFKWQSNSTLNFPLVPYNLTQSDNRGFQVQELTGMFY-DGEPSDQGLGLAILHVQSSQIGRWQGMVGNGTSGASEWEDIRVDGNLLIPEGLISEYGYRGPLPVSVYMQKLACDLDDTASSLTTPDEARCWNKVR 413
            + ED  +P+ +S   KV E+ +    +    Q++Y E   +       L +   ++++ RFL++         R LGV++     + R  DY++K+ YST+  N   +    Q  L+L  N   + +V  EKD+ G + FN+     D        + +K  I ++V PVND P P+     +   + PLVP  L Q    GF V++L G++Y D E +D  LG+ I++ Q S +G WQ     G     EW DI       +P GL  +  +RG +PVS Y++KLAC       SLT   +A CW++++
Sbjct:  773 VDEDTHKPISISRKMKVNENMDVKQHIV-AVQKVYQEWVLLSGSRFLDLQLEHVNNIL-RFLKSGT-------RTLGVQIRLVDSVERLSDYKSKLYYSTDGRNVELVTPVSQPILWLK-NNPRIQIVP-EKDFNGEVVFNIVPVALDWMNKTVFGKPKK--IRVQVSPVNDVPVPL----DSPGEDVPLVPSKLPQD---GFLVRDLAGLYYSDVESTD--LGIGIIYAQESDLGTWQYKSEGG-----EWTDILNMTYYPVPTGLKLQQSFRGVVPVSKYIEKLACSNQKVNVSLTGSADAGCWSRIK 1055
The following BLAST results are available for this feature:
BLAST of alpha-xylosidase vs. L. salmonis genes
Analysis Date: 2018-04-19 (T. kinsejongensis vs L. Salmonis peptides)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of alpha-xylosidase vs. SwissProt
Analysis Date: 2018-04-19 (T. kingejongensis peptided Blastp vs. SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of alpha-xylosidase vs. nr
Analysis Date: 2018-05-15 (T. kingsejongensis proteins Blastp vs. NR)
Total hits: 1
Match NameE-valueIdentityDescription
gi|1325304047|ref|XP_023333606.1|1.555e-2230.32uncharacterized protein LOC111705339 [Eurytemora a... [more]
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Alignments
The following features are aligned
Aligned FeatureFeature TypeAlignment Location
scaffold101_size371023supercontigscaffold101_size371023:224229..233349 +
Analyses
This gene is derived from or has results from the following analyses
Analysis NameDate Performed
maker2018-02-12 .496401
T. kinsejongensis vs L. Salmonis peptides2018-04-19
T. kingejongensis peptided Blastp vs. SwissProt2018-04-19
T. kingsejongensis proteins Blastp vs. NR2018-05-15
Properties
Property NameValue
Note-
Relationships

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

Feature NameUnique NameSpeciesType
maker-scaffold101_size371023-snap-gene-2.21-mRNA-1maker-scaffold101_size371023-snap-gene-2.21-mRNA-1Tigriopus kingsejongensismRNA


Sequences
The following sequences are available for this feature:

gene from alignment at scaffold101_size371023:224229..233349+

Legend: mRNA
Hold the cursor over a type above to highlight its positions in the sequence below.
>maker-scaffold101_size371023-snap-gene-2.21 ID=maker-scaffold101_size371023-snap-gene-2.21|Name=alpha-xylosidase|organism=Tigriopus kingsejongensis|type=gene|length=9121bp|location=Sequence derived from alignment at scaffold101_size371023:224229..233349+ (Tigriopus kingsejongensis)
AACCACAAGGCCGTTGTCATGGAGGCCGATCCGGGCTGGGAATTCCAAGG
CGAGCCCACCTGGCAAAAGTTGGTCCAGACTTCTCAACTGGACTTGGACA
CTCAAGTCCGCTATCAAGGCCAAACACGTGTCAAAAGAGCCTCGGAGAAT
ATCACCAGGCAACAGGCACGATTCAAAGTCAAGGTGCAGGATGCCCTGGC
TGGAACAGGTGGGAAATCAACGGGATGGGCAATTAAATTCTGACAGTCTG
GAGTCAGGCTATTTTTTCTGGATTCTAATCCCACGCTAAGTGGCGTTAAT
TTCATGTTCATTCCACTCTGACACTACCCTAGGAAGTACTTTGATGATCA
TTGGGCATCACCATATTAACTTTCGAGTCCAAATCTTCTTGAGACACGAC
AACCGGCCACAATCTTTTGATCCAATGGCGATCGGGCCATTTCAAACAAA
AATAGCTAACGTTAACACTTGTATGTACGATGTGTAGCATTCTCACCGAA
GGGCATTATTGAAAACAGAGTAAAATATGCACCAACCCCAGCTAATTAAC
TGCTTTTGAAGCCTCCCATGGGTTTAAACATTTGGGCAAAAATGACTGTT
TGGGTATGTATCATGTTTTTTTCTTGTAATCTGACCCATGAGAAACTCTG
TGTGAAAATAGTAACAACACGTGAATTGGGAGCAATTTGATCAAAATAAG
TGATGAAATTGTAGTGTAAACTGAAAATTCGTGCAATTGGATATGTAGCC
TTGATAAAGATGAAACAGGTTGGCATGATAAAAATTGCCAATTAACAGGT
CATATCATATCATATCAAAGCGAAAGAAACATACTGTAGTGTATGTCAAG
ATGACCATTTGATCGAAAAGTGTAATCAAGGTCACAGTTGGGTAATTATG
TGAATACCAGGCTGCTTGGATTTATAAGATCTCATTTTGACCACCCTTTG
GCATTCATATCACTGTCAGGAAGAGAATGCACGCCTAGCGCCCCCTAATT
TCAGAGTGGCAATAACTCTCAGCCATTCCCTTCGAGGCACAGCTGACTGA
AAGGGTCAGTTTGTACCAGGTTTGAACCACGCAATTTAGGACAAATCACC
TGATACGTCCCAAGTTTCCCTCACAGACTGGTTCACATGGTTCACTGGTT
CACTTATTGGTATTGGTATCATAGTAAAATATGTGGGCATTTGGAGCACG
AAGTACGTATACGTAGCCATGCCTGCAAGTGAGTATTTAATGGCAGATAT
ACAGTAGCTCCATCTACATTATAAGCCGGACATGTATGAATTGGTTTAAT
ATTTTATTCATGGCAGACGGAAAAAGATTCCTGATCCATGCCAAACCAGT
CTGGCTCATGAAATATAAAGGGAACGGTTTGACGTTAATGGGAATCTCCT
GATCTTGCTCCATGAATTCTGAATTAGCTTGCATCAGATCATCTGTGGGT
GTGATGGTAGGAATTATGAACTGAAAGTGCATCTTAGTCCGACATGCCCA
GCAGGATAATGGTGATGGATCTCAAATCATGTTTATAGCACAACTTTCCA
ATAGGGCTTCTATTTTAAGTCTTTTCTAAACGACCTTTTTGTAAAATCGA
AGTCTGAATGATTGTCTGCCAAAGGATGAACACAAAATATCTCGTCAAGT
TTGATGTAAAACCAGTGATCAAGTCAGTTAACTGATCCTTTGGATCTTCA
GATCTTTCAAAAGTTGTTGACGATGAACCACCCATCAAGTTTGTTCAGCC
TCCAGGCAGCCAATGAAGCCGAGTAAAACGACTCAAACTACTCTTAGATT
GAGGAGGAATGTTCGAGGTGCGTTTATTGAGTTTTAAAAGAAGATCGCAA
GGGGATGCGTCGCTCCTGAAATACCCTAAGAGTGAAATGGTTGAGTTGGG
GATGTAAACTAAAAAGGCTGAATTCCATAAAGTATGGACCGCGATTAAAG
CAATGGGGAGAACCTACAAAAGACCCTCCAGGCAAATATCTACGATGTAA
AACTTCATACTTTAACATGGCCACAACGTTTACCTTCTGGTATGACCAAC
AATGTTTTGCACAAGTCAGCTCCTAGCCTCTCTGAACCAACCTGAGTGGA
AATTCTACATTCAGTCTTGACTAAGAATAGGCAGGCAGTTTCTTGGATCA
CCTGTAGTTCCTAACCTGGAACAAATGTGTCTCCCGACGTATCTAGGAAT
GAGTATCCTTTATAAAAGACCTCAAGGTATAAGTGGCCTTTATAAAAACC
TCTAAGTATAATTAACCTTTAAAAAAAACCTCTGGATATAAGTAACCTTT
ATAAACTTAATATACTATATACTTATAACCTTTATATACCTGGATATAAG
TAACCTCTAGGTATAAGTAACCTTTATAAAAAAAACTCTAGGTATAAGTA
ACCTTTATAAAAAAAACTCTAGGTATGAGTAACCTTTGCCCTTGTGGATG
TATACACTATATGACCTCGCCTCAGTTGGTTGATNNNNNNNNNNNNNNNN
NNNNNNNNNNNNNNNNNNNNNNNNCACAACGTTTACCTTCTGGTATGACC
AACAATGTTTTGCACAAGTCAGCTCCTAGCCTCTCTGAACCAACCTGAGT
GGAAATTCTACATTCAGTCTTGACTAAGAATAGGCAGGCAGTTTCTTGGA
TCACCTGTAGTTCCTAACCTGGAACAAATGTGTCTCCCGACGTATCTAGG
AATGAGTATCCTTTATAAAAGACCTCAAGGTATAAGTGGCCTTTATAAAA
ACCTCTAAGTATAATTAACCTTTAAAAAAAACCTCTGGATATAAGTAACC
TTTATAAAAAACCTCTAAGTATAAGTAACCTTTATAAAAAAACTCTAGGT
ATAAGTAACCTTTATAAAAAAACCTCTAGGTATGAGTAACCTTTGCCCTT
GTGGATGTATACACTATATGACCTCGCCTCAGTTGGTTGATAATCCTGAG
GGGATGCACATTAAGTCAATTAAAATTGTGACCACATTAACAGGGAAGTT
GACATTTATTGTTGCCGAGTTGTAGTGGTCAGGTATTTTATAAAGCAGTG
ACAAGAATGTGCAGCACAAGCAGTTTTCATGTTGTCCCTCGCGCACTTGA
TTACCCGGACAAAGGGCAACACTGCTTAATGATAAGTGGGCGGCAGTATT
TTTCGTCCTGTCAGCATTACCACCCTGTGCCTCCCCCAGTATTATCACAC
GCCACCCTGATTTTCAGACCAGTTCATCACTGTTGCTCAGCTGCGCTTGC
CAGCGCTGACCTCGCTCCCAGTTTTGGCGGGAAATTCAAATACATCGGAC
GCCGTTGAACAAGGTGACCAGGACAAAGTGGAGGTATTGCGTTATGCCAT
CAAAGAGGACAACCGAGAGCCCGTCCTAGTGAGTGATGTGTTCAAGGTCA
TCGAGGATCCAGAGGCAACAGGGATCTTGAGGAGGGAATATCAGAGATGT
AAGGCGTGAGCAATTTTTTCAGTCAAGCTAGAACAGGAAATTGAAAGCAC
ACTTAGCAGGGTTGTTGCCGCTCGAATGCGTGGATTTTTAGCACACTACG
TTACGTTGGGCAGGGCTTGAGGCTAGGGCTTTGATATTGAAGCGTCTTTC
AGTCATCGACGTGTTCCTCGAAAATAAGGCGTGAAAAAGGAACATTACAC
GTTGAAGCTGAAACTCCATGTGACAGGAGACAACGAAATGACCAAGAGTT
TCCCTCGGAAAAATCCAGAAAAAAACAAAGACATCTACAGTATGTGCACA
AAAGGAACTGCAAAAAAAGTTCAAAAACACTCAACACGCAGGGGAAAATG
TGCCTCCAAACTAGTTTAAATCGCCCAGAAAGGCCTTTGCCAACTTTTTA
TCGCCGCCTTGGGGCCATTTCTGGGCAGGTTCCAAGACACAACTGGGGGT
TCATTCTGCTCACCCTGTTCTGCGGGAAGGCTACTTGGTTAGTTCGTCAT
CTCCCAAATTAGTCTTGACTGGTGCGTTACATTTAAAATCACAATTGATT
TGGGGGGACTCTGCTCAGGACTGGGAGAGGCAGCTGAAACTAAGAAAGGA
GAAGGGAGATGACCCAGAGTGCATTGCGATCCATTATCGACGCCACAGCA
CTTTAAGACAGCGAGGACGGGAGCAAAATGGTCGAGCAACATACGTGGAG
CACCTGGAGGCATGCGGTCCACTCCACTCACCTGTGTCGTCGGTTTTCGG
ACTTGGGCGGGGCCAAGCCACCTCCACCTCCTCCTCCGCCCCCACCCCCA
CCGATGCCATCGTCCGACAGGTGGTGGTAGGTGCGCTCGTGATATTTCCG
GTAATCATAGTGGTCACAATTGGGCTGGAATTAGAGAGGGATCGTGATCA
TGAGGGAAATCGTGGGATGAACTGCACATTGATTGGCAGCATGCAGTGTG
TCCACCACAAGTGAATGCAGTGTGTCCCGTATGTCAGGTGCACAGGATGC
TTGGGGGCTTTGGCCCATTGCAGTCTTTGAAAGTGATTGAGTGGGATGTG
TTTGTCAATGAACATCCATTTCTCAAGTCTATATTTGAGCGGAGAGGTCT
CGGGAGTTCGTTCGAGGCCATTAAGGCTTTGGCTAGGTCGGAAAAAACGC
CGACAAAGTGGCGGTTGCTCAAATTTTCCCGGACACACTGCACTACTCGA
GTCATGTGACTAATAGCAAGGGGGCAAACCATAATTCCAGAGAAAATAGT
TGTGTGTAAGAGGATATGGATGAGACCATCACGGTGTCTGAGGAGAGAAA
GATTGAGCAAGAGCGTGAAGCGAAGCAATAAGTGACCATGCTGACTTGGA
CTGACTAAATGCAGTATCGTATGGCTAATGGGATAGTGTCTGGAGTTGCC
TTGATAAGGGGACCCGCTCTCATTGTCTGCTGGATCTCTCTATTGCCTGG
TATTGGGTGTCCATGTCCAAGTTGCGCTCGAGTGTCCACATGAACTCGTA
TCGGTCGCCAGCCGTCGACACCACCTTGAAGCCGATGTAGCCGAGCGCAT
TGAGGATCACAATGCAGGTGCACTCAATCCGGATCCCGTGCTTGGGGTTC
CAGCCCTCTTCCCGTCCCTTCTTCATGTGTTCCGGGAACTTGCTCTGAAA
GTGCGAGGCAATTTGATTAGTAACGTTCAACTGACTCCCGGGTTGGCACA
CGATGGTTTAATCTGGCGATTGCCACGATTTGGGTCCAAGCTGTGTGGAA
CATAGGCATGCCAGGCCGCAAAAAGCGACCCTGGAAAGGGACAGACGCCT
GAATGCACAAGGTGTGACAGAATTGGGCGAAGAAGATGGACATAAGGGGG
ACGTGAAGGCTCAAAGATGGAACTTGGTGCACTTTCAAGTGCTCCAGATG
GACCACTAATTTTCTTGGGGTTCCAAAATCCATGCTTGCTGAGTCGCGTC
AATTTCCATTAGGGATCCCCTTTTTTGACTACTCAAAAGCCTTCTAGCCC
TGCATTAATGATTCTACTAAGGATATGCTTCGCCCCAGATTGCCTTTGCA
TGGCAAAGAGGCCCTTGGGACATTTTGTTCCAGTTACCGATTCTCAGGGA
TCCATAAGGTACCGTACTTGCAAAGTGGGACTGACCCTCTGGCACGAATT
TGGAGCCTCACATTTCGACAGACTTCCCCTTTGTCACATTGGTTCGACAT
TTAATAGAGGTCCATCTCAAAGGGATGCTCCAAGTTGCGACGAGCGAAAT
ATTGGACCGTTTCTATAATGGACCGACGAAACATTGGATGTTTCTATATG
GAAAGGGAACCTCATCGCGGGAAATTTCCTTGCCCTTTTGTTCCACGGTA
TGGAGCAGGCGGAATACCGCTCCAAATATTGACTTTTCGATGGGAACTTG
AAAAACATGGAAGCGATCATTTGACTTTCCACCGAAGGGAACTTTTCAGA
TTTCTAAGCCGATCAGAAGATAATTAACACGGCAGTCATTTGAATCTGAA
AACCCTCAGATGCCATTGGTGGCCTTGAAATGCCTTTGTTCCAAGTTGTC
TCCAATTCCAGTTCCTTCATCCAATTGGAATCCCCTCAAAATTGGACTCG
CACTGCGCCATGTTGACTTAATGGGAGCCATTTGGACCAATTATTTCCAC
CATGCGAGGGGAAGTCAGGTCCGCTTTGAATTTTCACCCCCTTGCGTACC
TTGTCTTATGGGATGAAGCTTGCTCACCTGCAAATATCGCATTTCCTGTG
GGGTCAATCCAAAGATACAACAGGTCTCCGCGGTGGGAATGCCCACGACC
GAGACGTAGGAGGACATGGTGGAGTAATCCGGGGACCAAGTGACGAATGG
AGCTCACCCGAGCCCAACTTGGGTTCCTAGGTCCAATCTAGAGCAACGAG
AGTCACACCTGATCGATGGTCCACTCACGAGCTCACTTCAACTCGTACTG
GAACCGAGAAGGGAACAAACACGAGCGGGCTCACGAGAAAAGGCGCCCAG
GCCGCCGCTCCGTGAGCATTCATCGTTCCCGTCCCTAAAGGGGAGAAAAG
GCCCTTTGGGAGGAAGTGAACGGTGATAAGGTCTCTTTAATCATGAAAAC
AAGTTTCTTGTGAGGTAGAACCCATATGGGACGATTGGGCGCATCCCAAA
GAGTGCCTGGAAGCAACTTGCTTTTCTTCGGCTCTTCGCCACTGGGAACT
GCGGGGATCAGTAGGACGTACTTTGGAGTGGCACATTGCACCTCTCTCCG
GGGCAATGTTATTCTGAGAGTCGGATTTGATAGATGGAACCTTCGAACTG
TTTGTATGAGTGCACACTCCCTAGTCCTGGGACCTCGTCAAGAGACAGTC
GGTGGTTGGTTGGCATGAACATGCGAGGGCGATCTCACCTCTGCAAATAT
GCAAATAACTGTCTGACATTTTACCGTAGATAGTCATTCACGTTTCATAA
TGCGTTGGGTGCCAACAGGGCACGGATGGTGTTCCGGTAGGACCATGGAT
CTGTACAGTACGCACAACACTCACGTGGAGGTAATGTGTAGGCCATATCG
GACCAAATCAAAATGCTGCCTGGGAGATGGAATGTGCTCTCTCCTCCCAG
GAAATATTGACTGTCCCGAAAATATTTCAATACCTGGAAGGAAATCTTTC
AATCCATCACAAGATCGACAGGCGGATCCACGACTCTGTGGCTCCCAAGT
TGGGGGAAGAACTGTAACTGGGAACAACATCTCACAAGAGGCAATGGCCT
CGGAGAGCATTAAGGACCAGCCTCATGGTCGCAGTTTCCGGAGTCAGCTT
TTCTTCCAAAGGACTCTCGCGTTCCTGGTCATTACCAGCCTGCCTGCTTT
TTGGGTGCGGAGACCCAAATGGGCTCTAAAGTAGGGACCCTGAGGGTCCA
AAGAAGTCTGAAAATATCACTCGCATCAATCAATTTGCTTGGACTGTCAT
CTTGGCACGATCCGAAGCTGTCTCGTGCCTTGTTCCAAGTGGCCTTGTTC
CACGAAGGCAGGCAAAACATGAGATCCTGAGGAAAAAATATAATCATGTG
GAGGTCCACAGGGTGTTTGCACCCAACAATGGCCTGGCTGTGCAGTATAT
GTATTGTCATAAGAAATGTCCTCCCGAGTGGAGAACGTTATAACAATAAA
GGGATCTAATGGATACTTTCCCTCGCCTCTGCAGTATATGACGAAATGCA
AGTGGAAGGCATTTGGCGTCTGAATGTTCCCAAGACGGACTCGTTGGTGG
GACGGTTCCTGGAAACTTTCAACCATGGCGAGGGTCGTGTCCAGAGGCCA
TTGGGGGTCAAATTGGAATTTTCACCACCCATCCTCCGCAAAGAGGATTA
CCGAAACAAAATCCTCTACTCCACCAATGCTGGCAACGAGTAAGTACTTC
AGTATGGCATCATCACTTTCGCATTCATTCCATTTGAAACTTCCATCGCC
TCATTCACAGTTGGACGATCATGGATAATCCTCAAAAGCCACTCTATTTG
CCTCTCAACCAAGACACTCTCATGCTCGTGGACCTCGAAAAAGATTATGT
GGGTCCAATTGCATTCAATGTCACCGCCTATGTCCAAGACCTGGACGGTT
CCATCCGAGAAAACCAGGAGGAGAAGCAGACCATCATCCTGGAGGTAACA
ATACCCAGTCTGACTTAGAGACACGGTCCATCACATTAGCACCATACGCA
AAGCCCTGTTGCTCACAAACTAATTTGGGAAGCACCATCTAAGGAGCTCA
GTTTGGCATGAGTGATTGTCAATCGCTGATTCACTCCTGACCCGGGGCAA
GTTGTTCCATGCTAAGCCCTAACGTCCTGGAATCTGAGATCTCGTCCAAC
GAGATTACATCACTTGAGCTACACTGGGCCTTCTCACGAGAGCTTCGTAA
ATGGAGCTCTCTAGTCTGCTTCCCAGACGTACCAACGTACAGTATGGACG
AACAAATGTACTATGGTCAATTTTCGGCTCCGTCTTGGAGGCAATGCTCG
ACATTGCGTGCACCAAATGAAGCCTGGGTTACATGGGGTGCTGTTTTATA
CCCCAGGATCAGGCACTGGTTCTCCCAAGATTTACGAGTGCTCTGTAACC
ACACTGTCGAAATGTCGATTTGAATATCTCTTTCAGGTTGAGCCCGTGAA
TGATGCACCGCGTCCGATATTCAAATGGCAGTCCAACTCCACCCTGAATT
TTCCCTTGGTGCCTTACAATTTGACCCAGTCAGACAATCGAGGCTTTCAA
GTCCAGGAGTTGACAGGTGAGAGGGCTCAGAGTGTGGTCGGCTGGACATT
GTGCCCACGTGTTCCTTGTGTTCCCAGGCATGTTTTACGATGGCGAGCCG
AGTGATCAAGGATTGGGATTGGCAATCCTGCACGTCCAAAGCTCCCAAAT
TGGTCGCTGGCAGGGAATGGTGGGCAATGGCACATCTGGCGCGAGCGAAT
GGGAAGACATCCGAGTGGATGGGAACTTGCTCATCCCAGAGGGCCTCATC
TCCGAGTATGGCTATCGAGGTCCCTTGCCGGTGTCGGTGTACATGCAGAA
ATTGGCTTGTGACCTCGACGACACGGCCTCCTCGCTAACCACACCCGATG
AGGCCAGATGTTGGAACAAGGTACGCGAGGCCTTCCACTTGAATCGGGTT
CCCGACGGCATTCTTCACTGA
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Synonyms
The feature 'alpha-xylosidase' has the following synonyms
Synonym
Tk03068
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