信号肽效率数据库

Detail Information for SPSED0014086

Accession Number	SPSED0014086
Secreted Protein	Alkaline active xylanase (XynBYG) (promoter：P43)
Uniprot Accession Number	A0A172WBP7
GenBank Accession Number	ANF06879.1
Source Organism of the Secreted Protein	Bacillus pumilus BYG
Nucleotide Sequence of the Secreted Protein	Length = 687 nt ATGAATTTGAGAAAATTAAGACTGTTGTTTGTGATGTGTATTGGACTGACGCTTATACTGACGGCTGTACCAGCCCATGCGAGAACCATTACGAATAATGAAATGGGTAACCATAGCGGGTACGATTATGAATTATGGAAGGATTATGGAAATACCTCGATGACACTCAATAACGGCGGGGCATTTAGTGCAGGCTGGAACAATATCGGAAATGCTTTATTTAGAAAAGGGAAAAAGTTTGATTCCACTAGAACTCACCATCAGCTTGGCAACATCTCCATCAATTACAACGCAAGTTTTAACCCAGGCGGGAATTCCTATCTATGTGTCTATGGCTGGACACAATCTCCATTAGCAGAATACTACATTGTTGATTCATGGGGCACGTATCGTCCAACAGGAGCGTATAAAGGATCATTTTATGCTGATGGAGGCACATATGACATTTATGAAACAACCCGTGTCAATCAGCCTTCCATTATCGGGATCGCAACCTTCAAGCAATATTGGAGTGTACGTCAAACGAAACGTACAAGCGGAACGGTCTCCGTCAGTGCGCATTTTAGAAAATGGGAAAGCTTAGGGATGCCAATAGGGAAAATGTATGAAACGGCATTTACTGTAGAAGGCTACCAAAGCAGCGGAAGTGCAAATGTGATGACCAATCAGCTGTTTATTGGCAACTAA
Amino Acid Sequence of the Secreted Protein	Length = 228 aa MNLRKLRLLFVMCIGLTLILTAVPAHARTITNNEMGNHSGYDYELWKDYGNTSMTLNNGGAFSAGWNNIGNALFRKGKKFDSTRTHHQLGNISINYNASFNPGGNSYLCVYGWTQSPLAEYYIVDSWGTYRPTGAYKGSFYADGGTYDIYETTRVNQPSIIGIATFKQYWSVRQTKRTSGTVSVSAHFRKWESLGMPIGKMYETAFTVEGYQSSGSANVMTNQLFIGN
Expression Host	Bacillus subtilis WB700

Source Organism of the Signal Peptide	Bacillus subtilis
Source Gene of the Signal Peptide	wprA
Signal Peptide Sequence	Length = 31 aa MKRRKFSSVVAAVLIFALIFSLFSPGTKAAA
Type	Tat
Yield	19.6 (U/mL)
Performance (Current Yield / Highest Yield)	0.1
Charge	5
Charge (N-Region)	4
Hydrophobicity	0.98
Hydrophobicity Plot
Hydrophobicity (H-region)	2.44
Signal Peptide Original Protein Sequence	MKRRKFSSVVAAVLIFALIFSLFSPGTKAAAAGAIDQAAALENGKEQTGAMKEPEQVKWYKVTPGATDIQKNSHMALTVKSDSVLNVSVYPSKEKALKDETFEMYRSFTAEDGKSEVIFPYAWSGPYYVKVEYLGEEEPEDGGTAEAAAEAKYTIGYKGTKKQPSDLEEEEACPVEMSVDQKKSGKGILDKLRSIRDEQLSQTAEGKELTSLYYKAAPFIVAKLALNKTARNEIYQDLVTLKPLFDDVSENGASSSYKVTEKDQKAINRLYDKALQSVPSFLKEEIKKQADRLNMKQLQGKTAGAILTENNIAAKSEVQTTKVIFKVKDNKSLSSVHNEMKGFSASAQSKKDISNVKKAKKLFDNLYSFELPKDEKQNGAYTASAKRVKSAAATLSKMSNVEFAEPVQEYKSLANDIQYPYQWPLKNNGENGGVKNADVKYEPANTLLSKRKLNDTLIAVVDTGVDSTLADLKGKVRTDLGHNFVGRNNNAMDDQGHGTHVAGIIAAQSDNGYSMTGLNAKAKIIPVKVLDSAGSGDTEQIALGIKYAADKGAKVINLSLGGGYSRVLEFALKYAADKNVLIAAASGNDGENALSYPASSKYVMSVGATNRMDMTADFSNYGKGLDISAPGSDIPSLVPNGNVTYMSGTSMATPYAAAAAGLLFAQNPKLKRTEVEDMLKKTADDISFESVDGGEEELYDDYGDPIEIPKTPGVDWHSGYGRLNVMKAVSAADLQLKVNKLESTQTAVRGSAKEGTLIEVMNGKKKLGSAKAGKDNAFKVNIATQKQDQVLYLKATKGDAKTSYKVVVVKGKPSGTPKVNAVKTKDTAVKGKANSKAMIRVKNKSKKVIASAKADAKGTFSVKIKKQKAGTVLYVTAVDTDKKESKEAKVVVEK
Signal Peptide Original DNA Sequence	ATGAAACGCAGAAAATTCAGCTCGGTTGTGGCGGCAGTGCTTATTTTTGCACTGATTTTCAGCCTTTTTTCTCCGGGAACCAAAGCTGCAGCGGCCGGCGCGATCGATCAGGCGGCTGCTCTGGAAAACGGCAAAGAGCAGACAGGCGCCATGAAGGAGCCGGAACAGGTGAAATGGTACAAAGTGACCCCGGGAGCAACGGATATTCAGAAAAACTCACATATGGCACTGACCGTAAAGAGTGATTCAGTACTGAATGTATCTGTATATCCAAGTAAGGAAAAAGCGCTTAAAGATGAGACGTTTGAGATGTACCGTTCTTTCACAGCGGAGGATGGAAAAAGCGAAGTCATTTTTCCATACGCGTGGAGCGGCCCTTACTATGTAAAAGTTGAATACCTCGGAGAAGAAGAACCAGAGGACGGCGGAACGGCAGAAGCAGCTGCAGAAGCCAAGTATACGATTGGGTATAAAGGCACCAAAAAACAGCCGTCAGATTTAGAAGAGGAAGAAGCTTGTCCGGTTGAAATGAGTGTCGATCAGAAGAAATCAGGAAAAGGCATCCTGGATAAGTTGAGATCGATTCGTGATGAGCAGCTGAGCCAAACAGCAGAAGGCAAAGAACTGACAAGCCTTTATTACAAAGCAGCACCGTTTATCGTTGCAAAGCTCGCACTCAATAAAACAGCAAGAAATGAAATCTATCAGGATCTTGTGACATTAAAGCCGTTATTTGACGATGTGTCAGAAAACGGAGCATCATCTTCGTATAAGGTCACTGAAAAGGATCAAAAAGCGATCAACCGGCTATATGATAAAGCTTTACAATCAGTCCCGTCATTCCTTAAAGAGGAGATAAAGAAACAAGCGGACCGACTAAATATGAAGCAGCTGCAAGGCAAAACAGCAGGAGCCATTTTAACAGAAAACAATATTGCAGCAAAAAGTGAAGTTCAGACAACAAAGGTTATTTTCAAGGTGAAGGACAATAAAAGCCTCTCATCCGTACATAATGAAATGAAGGGCTTTTCTGCAAGCGCGCAATCGAAAAAAGACATATCTAATGTGAAAAAGGCAAAGAAACTGTTTGACAATCTGTATTCATTTGAACTTCCGAAAGACGAGAAACAGAACGGCGCATATACGGCAAGCGCCAAAAGGGTCAAAAGCGCTGCTGCGACACTATCCAAGATGTCCAATGTAGAGTTTGCGGAACCCGTACAGGAATACAAAAGCTTGGCAAACGATATTCAGTACCCTTATCAATGGCCGCTTAAAAACAACGGTGAAAACGGCGGTGTCAAAAATGCGGATGTGAAATATGAGCCTGCCAACACATTGCTGTCCAAACGCAAGCTTAACGATACACTCATTGCAGTAGTAGACACAGGCGTAGACAGCACGCTTGCCGATTTAAAAGGAAAAGTAAGAACAGATCTCGGACACAATTTTGTCGGACGAAATAACAATGCAATGGATGATCAGGGGCATGGGACGCATGTCGCAGGCATTATTGCAGCCCAAAGCGATAACGGCTATTCAATGACTGGATTGAATGCCAAAGCAAAAATCATCCCTGTAAAAGTGCTTGATTCCGCAGGTTCCGGAGATACTGAACAAATTGCTCTCGGCATCAAATATGCTGCTGACAAAGGAGCAAAGGTGATTAATTTAAGTTTAGGCGGAGGCTACAGCCGCGTGCTTGAATTTGCTTTGAAGTACGCAGCTGACAAAAATGTCTTGATTGCCGCAGCCAGCGGGAATGATGGAGAAAATGCCTTATCTTATCCTGCATCTTCTAAATATGTGATGTCAGTCGGCGCAACGAATCGCATGGATATGACCGCTGATTTCTCTAACTATGGAAAAGGTCTGGACATCTCTGCTCCAGGGTCTGATATCCCGAGCTTAGTGCCGAACGGAAATGTCACGTACATGAGCGGAACGTCTATGGCGACGCCATATGCTGCCGCCGCTGCGGGACTGCTGTTTGCTCAAAATCCTAAGCTAAAAAGAACAGAAGTTGAGGATATGTTGAAAAAGACGGCAGATGATATTTCCTTTGAAAGTGTCGATGGCGGAGAAGAAGAGTTGTATGACGATTATGGCGATCCGATTGAAATTCCGAAGACACCTGGTGTAGACTGGCATTCAGGCTACGGGCGGCTGAATGTCATGAAGGCTGTCAGCGCAGCTGATTTACAGCTTAAGGTCAACAAGCTGGAAAGCACTCAAACAGCTGTCAGAGGAAGCGCGAAGGAAGGCACCCTTATCGAGGTGATGAACGGCAAAAAGAAACTCGGCAGCGCCAAAGCCGGAAAAGACAATGCGTTCAAGGTGAATATCGCGACTCAAAAACAGGATCAAGTACTGTATCTGAAAGCAACAAAAGGCGATGCGAAAACATCGTATAAAGTTGTTGTCGTCAAAGGAAAACCTTCCGGCACACCGAAAGTAAACGCGGTGAAAACGAAGGATACGGCAGTAAAAGGGAAGGCAAACAGCAAAGCGATGATCAGAGTGAAAAACAAATCAAAGAAAGTCATTGCTTCTGCCAAAGCTGACGCAAAAGGAACGTTTTCGGTGAAAATCAAAAAACAAAAAGCCGGAACGGTGCTGTACGTCACGGCTGTGGATACAGATAAAAAAGAAAGCAAGGAAGCAAAAGTTGTTGTTGAAAAGTAA
Reference	Zhang W, Yang M, Yang Y, et al. Optimal secretion of alkali-tolerant xylanase in Bacillus subtilis by signal peptide screening[J]. Applied Microbiology and Biotechnology, 2016, 100(20): 8745-8756 [PubMed]
Miscellaneous	promoter：P43

SPSED Signal Peptide Secretion Efficiency Database