Detail Information for SPSED0003052

Accession Number SPSED0003052
Secreted Protein Nuclease (NucA)
Uniprot Accession Number P00644
GenBank Accession Number CAA24594.1
Source Organism of the Secreted Protein Staphylococcus aureus
Nucleotide Sequence of the Secreted Protein Length = 696 nt
GTGTTAGTTATGACAGAATACTTATTAAGTGCTGGCATATGTATGGCAATTGTTTCAATATTACTTATAGGGATGGCTATCAGTAATGTTTCGAAAGGGCAATACGCAAAGAGGTTTTTCTTTTTCGCTACTAGTTGCTTAGTGTTAACTTTAGTTGTAGTTTCAAGTCTAAGTAGCTCAGCAAATGCATCACAAACAGATAACGGCGTAAATAGAAGTGGTTCTGAAGATCCAACAGTATATAGTGCAACTTCAACTAAAAAATTACATAAAGAACCTGCGACTTTAATTAAAGCGATTGATGGTGATACGGTTAAATTAATGTACAAAGGTCAACCAATGACATTCAGACTATTATTGGTTGATACACCTGAAACAAAGCATCCTAAAAAAGGTGTAGAGAAATATGGTCCTGAAGCAAGTGCATTTACGAAAAAAATGGTAGAAAATGCAAAGAAAATTGAAGTCGAGTTTGACAAAGGTCAAAGAACTGATAAATATGGACGTGGCTTAGCGTATATTTATGCTGATGGAAAAATGGTAAACGAAGCTTTAGTTCGTCAAGGCTTGGCTAAAGTTGCTTATGTTTACAAACCTAACAATACACATGAACAACATTTAAGAAAAAGTGAAGCACAAGCGAAAAAAGAGAAATTAAATATTTGGAGCGAAGACAACGCTGATTCAGGTCAATAA
Amino Acid Sequence of the Secreted Protein Length = 231 aa
MLVMTEYLLSAGICMAIVSILLIGMAISNVSKGQYAKRFFFFATSCLVLTLVVVSSLSSSANASQTDNGVNRSGSEDPTVYSATSTKKLHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPETKHPKKGVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKPNNTHEQHLRKSEAQAKKEKLNIWSEDNADSGQ
Expression Host Lactobacillus plantarum WCFS1

Source Organism of the Signal Peptide Lactobacillus plantarum WCFS1
Source Gene of the Signal Peptide panE
Signal Peptide Sequence Length = 36 aa
MEQVKKRYKMYKSGKMWLFAGITLVTLNMNVVTGRA
Type Sec
Yield 0.15 (U/ml)
Performance (Current Yield / Highest Yield) 0
Charge 6
Charge (N-Region) 5
Hydrophobicity -0.09
Hydrophobicity Plot
Hydrophobicity (H-region) 1.83
Signal Peptide Original Protein Sequence MEQVKKRYKMYKSGKMWLFAGITLVTLNMNVVTGRADESTHVEALTEPAVATLSEGNAEQQSPVTDAMDESAMSELVTEAQPIKVQAAEEQYTDEIVNQSDDEHANSDQVSVPVTDQVDSETPVPSDEHTATLDTHPNQSTTDDSEQPVSADEQSQDIDTDSTAKVLSSQHKTETINERGSGDLAGVIRNPERPHLTDGYRNDDMEDDDSMAGIWGAGYNADGIKWHFDADSGVLVLDGGDIYDCYGDSPWQSKSWVLQIVKVVISKPIRIIGDSGGFFENLTNVEHYEGLEKIDVSSATDLRYFFSENTHVKELDLSSWQVGNVTDMSYLFFNSPGTSQLTTINISGWDTRRVSEADYMFGPNEKLTRIIGIENLNFESLKEAGGLFIKTGLSELDLSKWKTDSLDNMAAWFMDMHNLTSVKFGSQFKTDQVTWIHLLFSGCSNLTEVDLSGFNLHRVEQNLDMFAGCERLQKITLGPDTDLTPAKIESVGLMDIEANDQYTGYWINVANPQQRLTSAELMNLYSEKNTPIGTYIWEANQAVIDANDITLEVGDDWNWTDSIESLTDQFGQKVDVQALYVANPQAVKLSGDRVNTSQPGTYQVTFKYAGKTVTALVIVKADQTSLTVHDTELHAGGTWHAQDGFDGATDKDGHAIDFNDVTITGEVNTMVPGDYQITYTYGSQTQTITVTVKENQASLNLYQNHATVHTDGQGTSTWQPQSNFQNATDSDGQTLDWSAIEVVGTPDWTTAGDYRLTYQFTDKTGQLVTATMTVTVVIEEADEQAESQSDLQIHDSTITVGESWQPSDNLVLATDVNGGELSLADLVVTGTVDTNQAGVYQVTYQYTDASGQVFTRVATVTVVAASDGDTNTEQPGATNTNDDVNGGSTGSIDGDDQAEIPTDDADQMEGDAADVDANAVIDDATPAVGTNHGKGADRNSGMQTTANGAKSVVTSWTHRSQMTNTASLQHAQTIVGGHHQESRPTESASVAVQPVTAKLGTSALPQTGEAPSRANVMGTVLLGLTMFGSWLGFRRVKRH
Signal Peptide Original DNA Sequence ATGGAACAAGTGAAGAAACGGTACAAGATGTACAAGAGTGGTAAAATGTGGCTGTTCGCTGGAATCACGCTCGTTACGTTGAACATGAATGTGGTGACGGGACGAGCAGATGAATCAACACACGTAGAAGCATTGACTGAACCGGCAGTGGCAACTTTGTCTGAAGGTAACGCTGAGCAGCAATCCCCAGTAACGGACGCCATGGATGAATCCGCAATGAGTGAACTGGTAACTGAAGCTCAACCAATTAAAGTGCAGGCCGCTGAAGAACAGTATACTGATGAGATTGTCAATCAATCTGATGATGAGCATGCGAATTCTGATCAGGTCAGTGTACCGGTCACGGATCAAGTTGACAGTGAGACCCCCGTTCCGTCAGACGAACATACTGCAACACTTGATACGCATCCGAACCAATCGACAACTGATGATTCTGAACAGCCAGTTAGTGCCGACGAGCAGTCGCAAGATATTGACACGGATAGTACTGCAAAAGTCTTGTCGTCGCAGCATAAAACGGAAACCATCAATGAGCGGGGAAGCGGTGATTTGGCTGGCGTGATTCGAAATCCAGAACGCCCACATCTCACGGATGGTTATCGCAACGATGATATGGAAGACGATGACTCGATGGCCGGCATCTGGGGTGCTGGTTACAACGCCGATGGCATTAAATGGCATTTTGACGCGGATTCTGGTGTGTTAGTGTTGGACGGTGGCGATATTTACGATTGCTATGGGGATAGTCCGTGGCAATCAAAATCGTGGGTGTTACAAATAGTTAAAGTTGTGATTTCAAAGCCAATTCGCATTATAGGTGATAGTGGGGGCTTCTTTGAAAATTTGACGAATGTTGAACACTATGAAGGGCTTGAAAAAATTGATGTTAGTTCTGCGACGGATTTAAGATATTTCTTTTCAGAAAATACGCATGTTAAGGAGCTAGATTTGAGCAGCTGGCAGGTGGGAAATGTGACTGATATGTCTTACCTGTTTTTCAATTCTCCAGGGACTAGCCAACTAACGACAATCAATATTTCAGGGTGGGACACTCGTCGAGTAAGTGAAGCGGACTACATGTTTGGTCCCAATGAAAAGTTAACTCGTATTATTGGTATCGAGAATTTGAACTTTGAAAGCCTAAAAGAAGCAGGCGGTTTGTTTATCAAAACGGGGTTGTCGGAGCTAGACTTATCCAAATGGAAGACTGATAGCCTTGACAATATGGCTGCTTGGTTTATGGACATGCACAACTTAACCAGTGTTAAATTCGGGTCTCAGTTCAAAACAGATCAGGTTACTTGGATTCATTTGCTATTTTCAGGATGTTCCAATTTAACTGAGGTGGATCTATCTGGTTTTAATTTGCATCGCGTTGAACAAAATCTCGACATGTTTGCGGGATGTGAGCGTCTACAAAAAATTACACTTGGTCCGGATACTGATTTGACGCCAGCCAAAATCGAGTCGGTTGGGCTAATGGACATTGAAGCTAATGACCAATATACCGGTTACTGGATAAATGTAGCCAATCCCCAGCAACGGTTAACTAGTGCTGAACTGATGAATCTGTATTCAGAAAAAAATACGCCGATTGGAACCTACATCTGGGAAGCAAACCAAGCAGTTATCGATGCCAACGACATTACCCTGGAAGTTGGCGATGATTGGAACTGGACGGACAGTATCGAGAGTTTAACCGACCAATTTGGTCAAAAAGTCGATGTTCAGGCCCTCTATGTGGCTAATCCCCAGGCTGTGAAACTATCGGGTGACCGAGTAAATACAAGTCAGCCGGGTACTTACCAGGTCACTTTCAAGTATGCAGGTAAGACGGTCACTGCTTTGGTGATCGTGAAAGCTGACCAGACAAGTTTGACTGTCCATGATACAGAGTTACACGCTGGTGGCACTTGGCATGCGCAGGACGGTTTTGACGGGGCGACGGATAAAGACGGTCACGCCATCGACTTTAACGATGTGACGATAACAGGTGAAGTGAACACCATGGTTCCGGGTGATTACCAGATTACTTACACGTATGGTAGTCAGACGCAGACGATTACTGTAACTGTTAAGGAAAACCAAGCCAGTTTGAACTTATATCAAAACCACGCAACGGTGCATACGGATGGGCAGGGAACCAGTACTTGGCAGCCCCAAAGCAATTTTCAGAATGCCACTGATAGTGATGGTCAAACGTTAGACTGGTCGGCCATTGAGGTCGTTGGAACGCCAGATTGGACTACAGCCGGGGACTATCGGTTGACGTATCAATTTACTGACAAGACTGGTCAGTTGGTGACGGCAACGATGACGGTAACGGTGGTTATCGAGGAGGCCGACGAACAGGCGGAATCCCAAAGCGATTTACAGATTCATGATTCAACTATTACTGTCGGTGAGTCGTGGCAACCAAGCGATAATTTAGTCTTGGCTACGGATGTTAATGGCGGTGAATTGTCGCTTGCTGACCTAGTCGTAACTGGCACGGTCGATACTAATCAAGCCGGTGTTTACCAGGTGACTTATCAGTATACGGATGCGAGTGGTCAAGTTTTCACTCGCGTGGCAACAGTCACGGTCGTTGCGGCGAGCGATGGCGATACGAATACTGAACAGCCAGGCGCTACCAATACCAATGACGATGTGAACGGCGGCTCGACTGGAAGTATCGATGGTGATGATCAAGCAGAAATACCTACGGATGATGCTGACCAGATGGAGGGTGATGCGGCTGACGTTGATGCAAATGCAGTTATTGATGACGCAACACCTGCGGTTGGCACGAATCATGGAAAGGGTGCGGATCGTAATTCTGGCATGCAAACGACGGCTAATGGGGCTAAATCAGTAGTCACTTCATGGACGCATCGGAGCCAGATGACCAACACAGCTAGTCTGCAACACGCGCAAACTATCGTTGGCGGTCATCATCAAGAATCACGGCCGACTGAATCAGCTTCGGTAGCTGTTCAGCCTGTAACGGCCAAACTCGGCACATCGGCTTTACCGCAAACTGGTGAAGCGCCAAGTCGTGCAAATGTGATGGGAACAGTGCTATTGGGGTTGACCATGTTCGGTAGTTGGCTCGGATTTCGGCGTGTGAAACGCCATTAA
Reference Mathiesen G, Sveen A, Brurberg M B, et al. Genome-wide analysis of signal peptide functionality in Lactobacillus plantarum WCFS1[J]. BMC Genomics, 2009, 10(1): 425. [PubMed]
Miscellaneous -