SPSED Signal Peptide Secretion Efficiency Database
Detail Information for SPSED0010001
| Accession Number | SPSED0010001 |
| Secreted Protein | CotA-laccase |
| Uniprot Accession Number | A0A0G2QNK1 |
| GenBank Accession Number | AGO57931.1 |
| Source Organism of the Secreted Protein | Bacillus pumilus W3 | Nucleotide Sequence of the Secreted Protein | Length = 1533 ntATGAACCTAGAAAAATTTGTTGACGAGCTGCCAATTCCAGAAGTCGCAGAGCCCGTCAAAAAAAACCCAAGACAAACGTATTATGAAATCGCTATGGAGGAGGTGTTCCTAAAAGTTCATAGTGATCTGCCCCCAACCAAGTTATGGACCTATAATGGCGGTTTGCCTGGTCCAACCATTAAAGCGAATCGAAATGAAAAGGTCAAAGTGAAATGGATGAACAAATTGCCGCTGAAACACTTCCTGCCTGTCGATCATACCATTCACGCTGGACACCATGATGAACCCGAAGTCAAAACAGTCGTTCACCTGCATGGGGGCGTGACACCTGCAAGCAGTGACGGTTATCCAGAGGCTTGGTTTTCGCGAGACTTTGAAGCGACCGGCCCCTTCTTTGAACGAGAGGTTTACGAATACCCTAATCACCAGCAAGCATGCACATTGTGGTATCACGATCATGCCATGGCATTAACACGATTAAATGTATACGCCGGATTAGCTGGCTTTTATTTGATCTCAGATGCGTTTGAAAAATCACTCGAATTACCGAAAGATGAATATGATATCCCTTTAATGATCATGGACCGGACATTCCAGGAGGATGGCGCACTATTTTATCCAAGTAGACCAAATAACACACCAGAAGATAGTGACCTTCCAGATCCCTCTATCGTGCCATTTTTTTGCGGGGAAACGATTTTAGTCAATGGAAAAGTATGGCCATATTTAGAAGTAGAGCCTCGAAAATATCGTTTTCGTATCTTAAACGCGTCCAATACAAGAACTTACGAGCTTCATCTAGATAACGACGCCACAATCTTACAAATTGGATCTGATGGCGGCTTTTTGCCAAGACCTGTTCATCACCAATCTTTTAGCATTGCACCTGCTGAACGTTTTGATGTCATCATCGACTTCTCAGCTTACGAAAACCAAACGATTGTTTTAAAAAATAAGGCAGGCTGCGGTCAGGAAGTCAATCCAGAAACAGATGCGAACATTATGCAATTTAAAGTCACTCGACCGCTCAAAGGAAGAGCAGCTAAAACATTACGTCCGATCTTCAAACCACTTCCACCACTCCGGCCGAGCCGAGCTGATAACGAGCGAACGCTGACCCTTACTGGCACACAAGATAAATATGGGCGCCCTATTTTATTACTAGATAACCAGTTTTGGAATGATCCTGTTACGGAAAATCCTCGACTTGGCAGTGTAGAGGTATGGAACATCGTTAACCCAACAAGGGGCACACACCCTATTCATTTACATCTTGTTCAATTTCGGGTGATTGATAGAAGACCATTCGATACAGACATCTATCAATCAACAGGTGAAATCGTGTACACGGGACCAAATGAAGCGCCTCCTTTGCATGAACAAGGATACAAGGATACAATTCAGGCGCATGCCGGTGAAGTCATTCGCATCATCGCTCGGTTTGTCCCATATAGCGGACGGTATGTGTGGCATTGTCACATATTAGAACACGAGGATTATGACATGATGCGGCCGATGGATATCATCCAGTAA |
| Amino Acid Sequence of the Secreted Protein | Length = 510 aaMNLEKFVDELPIPEVAEPVKKNPRQTYYEIAMEEVFLKVHSDLPPTKLWTYNGGLPGPTIKANRNEKVKVKWMNKLPLKHFLPVDHTIHAGHHDEPEVKTVVHLHGGVTPASSDGYPEAWFSRDFEATGPFFEREVYEYPNHQQACTLWYHDHAMALTRLNVYAGLAGFYLISDAFEKSLELPKDEYDIPLMIMDRTFQEDGALFYPSRPNNTPEDSDLPDPSIVPFFCGETILVNGKVWPYLEVEPRKYRFRILNASNTRTYELHLDNDATILQIGSDGGFLPRPVHHQSFSIAPAERFDVIIDFSAYENQTIVLKNKAGCGQEVNPETDANIMQFKVTRPLKGRAAKTLRPIFKPLPPLRPSRADNERTLTLTGTQDKYGRPILLLDNQFWNDPVTENPRLGSVEVWNIVNPTRGTHPIHLHLVQFRVIDRRPFDTDIYQSTGEIVYTGPNEAPPLHEQGYKDTIQAHAGEVIRIIARFVPYSGRYVWHCHILEHEDYDMMRPMDIIQ |
| Expression Host | Bacillus subtilis WB600 |
| Source Organism of the Signal Peptide | Bacillus subtilis |
| Source Gene of the Signal Peptide | wapA |
| Signal Peptide Sequence | Length = 28 aaMKKRKRRNFKRFIAAFLVLALMISLVPA |
| Type | Tat |
| Yield | 238.5 (U/ml) |
| Performance (Current Yield / Highest Yield) | 1 |
| Charge | 8 |
| Charge (N-Region) | 8 |
| Hydrophobicity | 0.45 |
| Hydrophobicity Plot |
|
| Hydrophobicity (H-region) | 2.89 |
| Signal Peptide Original Protein Sequence | MKKRKRRNFKRFIAAFLVLALMISLVPADVLAKSTEEENGNRIAADDPEETLQKEQTEEAVPFDPKDINKEGEITSERTENTKLYYEGDGVYKQEVYLDPIHTKETPDADWEDISPELKESTSKQVETENAILNSDFQKQMKNGLYATFEHNDHKVTYSLAEAKGPNKTSLTPKDTSADYKTDSNEIVYPDVFPNIDLQTFTFNENIKEDLVLHQYNGYNTFTFQLKTDLQAKEQEDGSIDFSDEKGKVVFSVPKPFMTDSKLDELSGEVERSDKVSYKLEKNEEGYLLHLTADENWLKDPERVYPVSIDPSTSLSVSSDTFVMSAYPTTNYSASSQKWDANLKAYVLKTGYYDKTTGTNYAFMKFNNLKPIQNMTVTKATLKTYVAHSYYGTKATGLWLDTVNSNYDNAKVTWNTKPASKNIGKADVHKGQWASYDVTAAVKSWNSGGANYGFKLHTNGNGKEYWKKLISSANSANKPYIEVTYTIPKGNTPTIKAYHNGDSTGYFDISWKKVEGAKGYKVWIYNGKEYQAISAGNVTSWSTKGKKIWPTSAEIASKRYKLHLDGKDGAELALDPSPVYKNSGGSYATSKNYWIGVSAIFDQGEGAMSAPAKPVIPNVGKAQAPSAKGYNNGNATGYFDLSWKAVSGATGYKVQVFNGKGFETLDLGNQTSWTTKGKKIWPTSAEIKAGKYALHLKDGSGAELPINPGPTYKNAGGDGAKRNYSFKIIAYNKDGEAIASPAATPALPDIARPKNVTGYLYTNTKSSQTGYVNLIWEKVQNAKGYKVNIYNGKEYQSFDVGDADHWTTQNKNIWPTSEEIKAGSYKLHTDGKGGELALDPSPVYNNANGNYKGKKNYSFTLVAYDANGETIPTAPFNPTFHEGAEFLGTEEYWSIIDIPSGQLNGATGNVIVNEEDLSIDGRGPGLGLSRTYNSLDSSDHLFGQGWYADAETSVISTDGGAMYIDEDATTHRFTKKADGTYQPPTGVYLELTETADQFILKTKDQTNAYFNKKGGKLQKVVDGHNNATVYTYNDKNQLTAITDASGRKLTFTYDENGHVTSITGPKNKKVTYSYENDLLKKVTDTDGTVTSYDYDSEGRLVKQYSANSTEAKPVFTEYQYSGHRLEKAINAKKETYVYSYDADKKTLLMTQPNGRKVQYGYNEAGNPIQVIDDAEGLKITTNTKYEGNNVVEDVDPNDVGTGKATESYQYDKDGNVTSVKDAYGTETYEYNKNNDVTKMKDTEGNVTDIAYDGLDAVSETDQSGKSSSAAVYDKYGNQIQSSKDLSASTNILKDGSFEAQKSGWNLTASKDSGKISVIADKSGVLSGSKALEVLSQSTSAGTDHGYSSATQTVELEPNTTYTLSGKIKTDLAKSRAYFNIDLRDKDQKRIQWIHNEYSALAGKNDWTKRQITFTTPANAGKAVVYMEVDHKDKDGKGKAWFDEVQLEKGEVSSSYNPVQNSSFTSATENWNVSGASVDSEEGFNDDVSLKAARTSASQAGSVTKQTVVLGQSANDKPVYLTLTGMSKASSVKFTDEKDYSLQANVTYADGSTGIYNAKFPSGTQEWNRAAVVIPKTKPINKVDISILFQKSATGTVWFDDIRLIEGSLLTKSTYDSNGNYVTKEEDELGYATSTDYDETGKKTSETDAKGEKTTYTYDQADQLTNMTLSNGTSILHSYDKEGNEVSKTIRAGADQTYKFEYDVMGKLVKTTDPLGNVLASEYDANSNLTKTISPNGNEVSLSYDGTDRVKSKSYNGTEKYIFTYDKNGNETSVVNKEQNTTKKRTFDNKNRLTELTDRGGSQTWTYPSDSDKLKTFSWIHGDQKGTNQFTYNKLDQMIEMKDSTSSYSFDYDENGNVQTFITGNGGGTSFSYDERNLVSSLHIGDKNGGDILTESYEYDANGNRTTINSSASGKVQYEYGKLNQLVKETHEDGTVIEYTYDGFGNRKTVTTIKDGSSKTVNASFNIMNQLTKVNDESISYDKNGNRTSDGKFTYTWDAEDNLTAVTKKGEDKPFATYKYDEKGNRIQKTVNGKVTNYFYDGDSLNVLYETDADNNVTKSYTYGDSGQLLSYTENGKKYFYHYNAHGDIIAISDSTGKTVAKYQYDAWGNPTKTEASDEVKDNRYRYAGYQYDEETGLYYLMARYYEPRNGVFLSLDPDPGSDGDSLDQNGYAYGNNNPVMNVDPDGHWVWLVVNAGFAAYDGYKAYKSGKGWKGAAWAAASNFGPGKIFKGASRAYKFTKKAVKITGHTRHGLNQSIGRNGGRGVNLRAKLNAVRSPKKVIKQPNGATKYVGKKATVVLNKRGKVITAYGSSRAKGSKHVFHTHGKGNKSKRRR |
| Signal Peptide Original DNA Sequence | ATGAAAAAAAGAAAGAGGCGAAACTTTAAAAGGTTCATTGCAGCATTTTTAGTGTTGGCTTTAATGATTTCATTAGTGCCAGCCGATGTACTAGCAAAATCTACAGAAGAAGAGAATGGAAACCGTATTGCTGCCGATGATCCAGAAGAAACTCTTCAGAAAGAACAAACTGAGGAAGCTGTACCTTTTGATCCAAAAGATATAAACAAAGAGGGTGAGATCACCTCTGAAAGAACAGAAAATACAAAACTCTATTATGAAGGTGACGGTGTCTATAAACAGGAAGTATACCTTGATCCTATTCATACAAAGGAAACACCGGATGCCGACTGGGAAGACATTTCTCCTGAGTTAAAAGAGTCGACAAGCAAACAAGTCGAGACAGAGAACGCTATTTTGAATTCAGATTTTCAAAAGCAAATGAAGAACGGGCTTTATGCGACTTTTGAGCATAATGACCATAAGGTTACATATTCACTAGCAGAAGCGAAAGGCCCGAATAAAACTTCACTTACTCCGAAAGATACCTCAGCAGATTATAAGACTGACAGTAATGAGATTGTGTATCCGGATGTGTTTCCGAATATTGATCTTCAGACTTTCACATTCAATGAAAACATAAAAGAAGATTTAGTCCTTCATCAGTATAATGGATACAACACATTTACATTTCAGTTAAAAACCGATTTGCAGGCTAAAGAACAAGAGGATGGATCCATTGATTTTTCTGATGAAAAAGGAAAAGTTGTTTTTTCTGTGCCTAAGCCTTTTATGACGGATTCAAAACTAGATGAGCTTTCCGGCGAGGTTGAACGGTCAGACAAAGTCAGCTATAAGCTGGAAAAGAATGAAGAAGGGTATTTGCTTCATCTTACGGCAGACGAGAACTGGCTGAAAGACCCAGAACGCGTATATCCAGTATCTATCGACCCGTCAACTTCTTTATCTGTTTCATCGGATACGTTTGTCATGAGTGCCTACCCGACGACGAACTATTCGGCCTCCTCACAAAAATGGGATGCTAATTTAAAGGCCTATGTACTGAAAACGGGCTATTATGACAAAACAACAGGCACAAACTATGCGTTCATGAAATTTAACAACCTAAAGCCAATTCAAAATATGACTGTCACTAAAGCTACATTAAAAACATACGTAGCCCATTCCTATTATGGAACAAAGGCAACCGGCCTTTGGCTGGATACGGTCAACAGCAATTATGATAATGCAAAAGTGACATGGAACACCAAACCGGCATCTAAAAATATCGGAAAAGCCGACGTCCATAAAGGACAGTGGGCGAGTTATGATGTGACCGCTGCTGTAAAGTCATGGAACTCCGGCGGGGCCAACTATGGATTTAAGCTTCATACAAACGGAAACGGCAAGGAATATTGGAAAAAACTAATTTCTTCAGCGAACTCCGCCAATAAACCATATATTGAAGTGACGTATACCATTCCAAAGGGAAACACACCTACAATCAAAGCCTATCACAACGGCGATTCCACTGGTTATTTCGATATCAGCTGGAAAAAGGTTGAAGGCGCAAAAGGATATAAGGTATGGATTTACAATGGTAAGGAATATCAAGCGATTTCTGCAGGCAACGTCACGTCGTGGAGCACAAAAGGTAAAAAAATCTGGCCTACGAGCGCAGAAATTGCCTCCAAGAGATATAAACTGCATCTGGACGGCAAGGATGGAGCTGAATTGGCATTAGATCCATCCCCGGTCTATAAGAATTCCGGCGGAAGCTATGCTACAAGCAAAAACTATTGGATTGGCGTCAGTGCGATATTTGACCAAGGTGAAGGAGCGATGTCCGCACCGGCAAAGCCCGTTATCCCTAATGTAGGAAAAGCACAAGCACCGTCAGCAAAGGGCTACAATAATGGGAATGCCACAGGATACTTCGACCTTTCTTGGAAAGCTGTATCCGGTGCAACCGGCTATAAGGTTCAGGTGTTCAATGGGAAAGGCTTTGAGACACTTGATCTCGGAAATCAGACGTCTTGGACCACAAAAGGGAAAAAGATCTGGCCGACAAGTGCAGAAATCAAGGCGGGAAAATATGCTCTTCACCTAAAGGACGGAAGCGGAGCAGAGCTGCCGATCAATCCCGGACCAACCTATAAAAACGCCGGGGGAGATGGAGCCAAAAGAAATTACTCGTTTAAAATTATCGCATACAACAAAGACGGCGAAGCCATTGCATCCCCGGCTGCTACCCCGGCACTTCCTGATATCGCTAGGCCAAAGAATGTAACTGGCTATTTGTATACAAATACAAAATCGAGTCAAACGGGTTATGTGAATTTGATATGGGAAAAGGTTCAAAATGCGAAGGGCTATAAAGTTAACATTTACAACGGTAAAGAATATCAGTCCTTTGATGTTGGTGATGCTGATCATTGGACAACCCAAAATAAAAACATCTGGCCGACTTCTGAGGAAATCAAAGCCGGAAGCTATAAGCTTCATACAGATGGAAAAGGCGGGGAATTAGCCCTCGATCCATCACCTGTCTATAACAATGCAAATGGGAATTACAAAGGGAAGAAGAATTATTCTTTCACGCTTGTCGCCTATGATGCGAATGGTGAAACGATTCCAACGGCGCCCTTTAACCCAACGTTCCATGAAGGCGCAGAATTCCTAGGTACAGAAGAGTACTGGTCTATCATTGATATCCCAAGCGGCCAGTTAAATGGTGCGACAGGCAATGTCATTGTGAATGAAGAAGATTTGTCAATTGATGGACGCGGTCCGGGACTTGGCTTATCGAGAACCTACAACAGTCTTGACAGCTCTGATCACTTATTTGGACAAGGCTGGTATGCTGATGCAGAAACATCTGTCATCTCAACGGATGGCGGGGCAATGTATATCGATGAAGACGCTACGACACATCGATTCACGAAAAAAGCCGATGGCACGTATCAGCCGCCGACCGGTGTATATCTTGAATTAACAGAAACAGCTGATCAGTTCATATTAAAAACAAAGGATCAAACCAACGCTTATTTCAATAAAAAAGGCGGCAAACTCCAAAAGGTAGTGGATGGCCATAACAATGCAACTGTCTATACTTACAATGACAAAAATCAACTGACCGCCATTACAGATGCATCAGGCCGCAAGCTTACATTTACCTATGATGAAAACGGCCATGTGACGTCCATCACAGGACCTAAGAATAAGAAAGTCACCTACTCATATGAGAATGATTTGCTGAAGAAGGTTACAGATACAGACGGGACTGTCACAAGCTATGACTACGATAGTGAAGGGCGCCTTGTCAAACAATATTCAGCTAACAGTACCGAAGCAAAGCCTGTCTTTACCGAATATCAGTATAGCGGTCACCGTCTCGAAAAAGCGATCAACGCTAAAAAAGAAACATATGTCTACAGCTATGATGCTGATAAAAAGACGCTTCTCATGACACAGCCAAATGGCCGGAAAGTACAGTATGGCTATAATGAAGCGGGAAATCCGATTCAGGTCATTGATGATGCGGAAGGGTTAAAAATTACAACGAATACAAAGTATGAAGGCAACAATGTTGTAGAAGATGTAGATCCAAATGACGTCGGCACCGGAAAAGCAACGGAAAGCTATCAATATGACAAAGATGGCAACGTTACGTCGGTTAAAGATGCATATGGAACTGAGACATACGAATACAACAAAAACAACGATGTCACAAAGATGAAGGATACCGAGGGCAATGTCACGGATATTGCTTATGACGGACTGGATGCTGTATCCGAAACCGATCAGAGCGGAAAATCATCGTCAGCAGCTGTTTATGATAAATATGGAAACCAGATTCAATCGAGCAAAGATTTATCAGCTTCAACTAATATTTTGAAAGATGGAAGCTTTGAAGCTCAAAAATCCGGCTGGAATCTGACTGCCTCTAAAGACAGCGGCAAAATTTCAGTCATCGCCGATAAAAGCGGAGTTCTTTCCGGATCAAAGGCATTGGAGGTCTTGAGCCAATCAACGTCTGCCGGAACAGATCATGGGTATTCGTCAGCAACACAAACAGTTGAGCTGGAGCCGAATACAACCTATACATTAAGCGGGAAAATCAAAACAGATCTTGCGAAATCAAGAGCCTATTTTAACATTGATTTGCGAGACAAAGATCAAAAACGAATTCAATGGATTCACAATGAATACAGTGCATTAGCCGGAAAAAATGACTGGACAAAACGGCAAATCACTTTTACGACTCCAGCGAATGCAGGCAAAGCTGTTGTGTATATGGAAGTCGATCATAAAGATAAAGATGGCAAAGGAAAAGCATGGTTTGATGAAGTCCAGCTGGAAAAAGGCGAAGTATCATCAAGCTATAACCCAGTTCAAAACAGCAGCTTCACATCAGCAACGGAAAACTGGAATGTAAGCGGAGCATCCGTTGATTCTGAAGAAGGCTTTAATGATGATGTATCATTAAAAGCTGCCCGGACCAGTGCGTCCCAAGCCGGATCAGTAACAAAACAAACCGTTGTCTTAGGGCAAAGCGCAAATGACAAACCGGTTTATCTCACACTGACAGGAATGTCGAAAGCAAGCAGCGTCAAATTTACAGATGAAAAAGACTATTCTCTGCAGGCGAATGTCACTTACGCTGACGGCAGCACAGGCATCTACAATGCGAAATTCCCTTCTGGAACACAGGAATGGAACCGAGCAGCTGTCGTCATCCCTAAAACAAAGCCGATCAATAAAGTCGATATCAGTATTCTGTTCCAAAAGAGTGCGACAGGCACAGTCTGGTTTGATGATATCCGTTTGATTGAAGGAAGCCTTCTGACTAAAAGCACGTATGACAGTAATGGCAACTATGTGACCAAGGAAGAGGACGAACTAGGTTACGCCACTTCAACTGATTACGATGAAACTGGTAAGAAAACGTCTGAAACAGATGCAAAAGGTGAAAAAACAACCTATACGTATGATCAGGCAGACCAATTGACAAACATGACGCTCTCTAACGGCACGTCTATCCTTCACAGCTATGATAAGGAAGGCAATGAGGTAAGCAAAACCATCCGGGCAGGAGCAGATCAAACCTATAAATTCGAATATGATGTCATGGGCAAGCTTGTCAAAACAACTGACCCTCTCGGCAATGTGTTAGCAAGCGAATATGATGCCAACAGCAACCTGACCAAAACCATTTCACCAAATGGCAACGAAGTGTCTCTTTCTTATGATGGAACAGACCGGGTGAAATCAAAGTCGTATAACGGTACAGAAAAGTACATTTTCACGTATGACAAAAATGGAAATGAAACGTCGGTCGTCAATAAAGAGCAGAACACCACAAAGAAACGGACATTTGACAACAAAAACCGTTTAACCGAACTGACAGACCGCGGCGGCAGCCAAACTTGGACATATCCTAGTGACTCCGATAAGCTGAAAACCTTCTCGTGGATTCATGGGGACCAAAAAGGAACGAATCAATTTACGTATAACAAGCTGGATCAAATGATTGAGATGAAAGACAGTACATCCTCATATTCATTTGATTATGATGAAAATGGAAACGTCCAAACCTTTATTACGGGCAACGGCGGCGGAACAAGTTTTTCATATGACGAAAGAAACCTTGTAAGCTCGCTGCATATCGGTGACAAAAACGGCGGAGACATTCTGACGGAAAGCTATGAATATGATGCCAACGGCAACCGCACAACGATAAACAGCTCAGCAAGCGGCAAGGTGCAATATGAGTATGGGAAGCTGAATCAGCTTGTCAAAGAAACCCATGAAGACGGTACTGTTATTGAATACACATATGATGGATTCGGAAACCGGAAAACCGTTACAACTATAAAAGACGGCTCAAGCAAAACGGTGAACGCTTCCTTCAACATCATGAACCAGCTGACAAAAGTCAATGATGAAAGCATCTCTTACGATAAAAACGGCAACCGCACATCCGACGGCAAATTCACATATACGTGGGATGCAGAAGATAACCTGACCGCCGTTACCAAAAAAGGCGAAGACAAGCCATTCGCAACATATAAGTATGACGAAAAAGGAAACAGAATCCAAAAAACCGTCAACGGAAAAGTCACGAACTACTTCTACGACGGAGACAGCTTGAACGTCTTGTATGAAACAGACGCGGACAACAACGTCACAAAATCATACACGTACGGAGACAGCGGCCAGCTGTTATCCTACACAGAAAATGGTAAGAAATATTTCTATCACTACAACGCTCACGGCGACATCATCGCGATCTCAGACAGCACTGGAAAAACCGTTGCCAAGTATCAATACGACGCATGGGGAAATCCAACAAAAACCGAAGCAAGCGACGAAGTAAAAGACAATCGCTACCGCTACGCAGGCTACCAATACGACGAAGAAACCGGCCTGTACTATCTCATGGCCCGCTACTACGAGCCAAGAAACGGCGTGTTCCTATCGCTCGACCCAGACCCGGGCAGCGACGGAGATTCATTGGATCAGAATGGGTATGCTTATGGAAATAATAACCCAGTGATGAATGTTGATCCGGACGGGCATTGGGTATGGCTTGTGGTAAATGCCGGATTTGCAGCCTATGATGGATATAAGGCATATAAATCAGGTAAAGGATGGAAAGGTGCTGCTTGGGCAGCTGCTTCTAATTTTGGTCCTGGGAAGATATTTAAGGGTGCTAGTCGCGCCTATAAGTTTACGAAGAAGGCAGTTAAAATCACAGGTCATACAAGACATGGACTTAATCAATCTATAGGAAGAAATGGAGGCCGTGGAGTCAATTTAAGGGCCAAACTGAATGCTGTGCGAAGCCCTAAAAAAGTAATAAAACAACCTAATGGGGCAACGAAATATGTTGGAAAAAAAGCTACAGTTGTTTTAAATAAAAGGGGTAAAGTAATCACAGCTTATGGAAGTTCAAGAGCTAAGGGTTCTAAACACGTATTCCATACACACGGAAAAGGAAATAAATCTAAGAGAAGGCGTTAA |
| Reference | Guan Z B, Shui Y, Song C M, et al. Efficient secretory production of CotA-laccase and its application in the decolorization and detoxification of industrial textile wastewater[J]. Environmental Science and Pollution Research, 2015, 22(12): 9515-9523. [PubMed] |
| Miscellaneous | - |