PangenomeCOLN315NCTC8325NewmanUSA300_FPR375704-0298108BA0217611819-97685071193ECT-R 2ED133ED98HO 5096 0412JH1JH9JKD6008JKD6159LGA251M013MRSA252MSHR1132MSSA476MW2Mu3Mu50RF122ST398T0131TCH60TW20USA300_TCH1516VC40

NCBI: 26-AUG-2013

⊟Summary[edit | edit source]

organism: Staphylococcus aureus N315
locus tag: SA1268
pan locus tag^?: SAUPAN003877000
symbol: ebhB
pan gene symbol^?: ebhB
synonym:
product: hypothetical protein

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

type: CDS
locus tag: SA1268
symbol: ebhB
product: hypothetical protein
replicon: chromosome
strand: -
coordinates: 1458130..1469802
length: 11673
essential: no DEG

⊟Accession numbers[edit | edit source]

Gene ID: 1124106 NCBI
RefSeq: NP_374549 NCBI
BioCyc:
MicrobesOnline: 103575 MicrobesOnline

⊟Phenotype[edit | edit source]

Share your knowledge and add information here. [edit]

⊟DNA sequence[edit | edit source]

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
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2521
2581
2641
2701
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2881
2941
3001
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3121
3181
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5521
5581
5641
5701
5761
5821
5881
5941
6001
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6121
6181
6241
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6481
6541
6601
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6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
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7921
7981
8041
8101
8161
8221
8281
8341
8401
8461
8521
8581
8641
8701
8761
8821
8881
8941
9001
9061
9121
9181
9241
9301
9361
9421
9481
9541
9601
9661
9721
9781
9841
9901
9961
10021
10081
10141
10201
10261
10321
10381
10441
10501
10561
10621
10681
10741
10801
10861
10921
10981
11041
11101
11161
11221
11281
11341
11401
11461
11521
11581
11641
GTGAATTATCGTGATAAAATTCAAAAGTTTAGTATTCGTAAATATACAGTTGGTACATTT
TCAACTGTCATTGCGACATTGGTATTTTTAGGATTCAATACATCACAAGCACATGCTGCT
GAAACAAATCAACCAGCAAGCGTGGTTAAACAGAAACAACAAAGTAATAATGAACAGACT
GAGAATCGAGAATCTCAAGTACAAAATTCTCAAAATTCACAAAATAGTCAATCATTATCC
GCTACTCATGAAAATGAGCAACCAAATAATAGTCAAGCTAATTTAGTAAATCAAAAAGTA
GCGCAATCATCTACTACTAATGATGAACAACCAGCATCTCAAAATGTAAATACAAAGAAA
GATTCGGCAACGGCTGCGACAACACAACCAGATAAAGAAGAAAGTAAGCATAAACAAAAC
GAAAGTCAATCTGCTAATAAAAATGGAAACGACAATAGAGCGGCTCATGTAGAAAATCAT
GAAGCAAATGTAGTAACAGCTTCAGATTCATCTGATAATGGTAACGTACAACATGACCGA
AATGAATTACAAGCATTTTTTGATGCAAATTATCATGATTATCGCTTTATTGACCGTGAA
AATGCAGATTCTGGCACATTTAACTATGTAAAAGGCATTTTTGACAAGATTAATACTTTA
TTAGGCAGTAATGATCCAATTAACAATAAAGACTTGCAACTTGCATACAAAGAATTGGAA
CAAGCTGTTGCTTTAATTCGTACAATGCCTCAACGTCAACAAACTAGCCGTCGATCAAAC
AGAATTCAAACGCGTTCTGTTGAGTCTAGAGCTGCAGAGCCTAGATCAGTATCAGACTAT
CAAAATGCAAATTCATCATATTATGTTGAAAATGCTAATGATGGTTCAGGATATCCTGTA
GGTACATATATCAATGCTTCTAGTAAAGGGGCGCCATATAATTTACCAACTACACCATGG
AATACATTGAAGGCCTCTGACTCAAAGGAAATTGCTCTTATGACAGCGAAACAAACTGGA
GATGGCTACCAATGGGTTATTAAGTTTAATAAAGGACATGCTCCACATCAAAATATGATT
TTCTGGTTTGCATTACCAGCAGACCAAGTGCCAGTAGGAAGAACTGACTTTGTAACAGTT
AATTCAGATGGAACAAATGTACAATGGAGTCATGGAGCAGGAGCAGGTGCAAATAAACCA
CTTCAACAAATGTGGGAATATGGAGTAAATGATCCTGATCGTTCACATGACTTTAAAATA
AGAAATAGAAGTGGCCAAGTAATATATAGCTGGCCAACTGTCCATGTTTATTCTTTAGAA
GATTTATCTAGAGCGAGTGATTATTTTAGTGAAGCTGGAGCGACACCTGCTACTAAAGCA
TTTGGTAGACAAAATTTTGAATATATTAATGGTCAAAAACCTGCTGAATCACCGGGTGTT
CCTAAAGTTTATACTTTCATCGGTCAAGGTGATGCAAGTTATACAATTTCATTTAAAACA
CAAGGTCCAACTGTTAATAAATTGTATTATGCAGCAGGTGGGCGTGCTTTAGAGTACAAT
CAATTATTTATGTACAGTCAACTATACGTCGAATCAACGCAAGACCATCAACAACGTCTT
AATGGTTTAAGACAAGTGGTTAATCGTACATATCGCATAGGTACAACTAAACGTGTAGAA
GTGAGTCAAGGAAATGTACAAACGAAAAAGGTATTAGAAAGTACAAACCTAAATATAGAT
GATTTTGTTGATGATCCTTTAAGTTATGTTAAGACGCCGAGTAATAAAGTGTTAGGTTTT
TACCCAACTAATGCAAATACTAACGCTTTTAGACCGGGGGGCGTTCAAGAATTAAATGAA
TATCAATTAAGTCAATTATTTACTGATCAAAAATTACAAGAAGCAGCAAGAACTAGAAAC
CCAATAAGATTAATGATTGGTTTCGACTATCCTGATGGTTATGGTAATAGTGAAACTTTA
GTTCCTGTTAACTTAACGGTATTACCTGAAATCCAACATAATATTAAATTCTTTAAAAAT
GACGATACTCAAAATATTGCTGAAAAACCATTTTCAAAACAAGCTGGGCATCCAGTTTTC
TATGTATATGCAGGTAACCAAGGGAATGCTTCCGTGAATTTAGGTGGTAGCGTAACATCT
ATTCAACCATTACGTATTAATTTAACAAGTAATGAGAATTTTACAGATAAAGATTGGCAA
ATTACAGGTATTCCGCGTACATTACACATTGAAAACTCGACAAATAGAACTAATAATGCT
AGAGAACGTAACATTGAACTTGTTGGTAATTTATTACCAGGGGATTACTTTGGTACGATA
CGTTTTGGACGTAAAGAACAATTATTTGAAATTCGTGTTAAACCACATACACCAACAATT
ACAACGACAGCTGAGCAATTAAGAGGTACAGCATTACAAAAAGTGCCTGTTAATATTTCG
GGAATACCGTTGGATCCATCGGCATTGGTTTATTTAGTTGCACCAACAAATCAAACTACG
AATGGTGGTAGTGAGGCAGATCAAATACCATCTGGTTATACGATACTTGCGACTGGTACA
CCTGATGGGGTGCATAATACAATTACTATACGACCGCAAGATTATGTTGTATTCATACCA
CCTGTAGGTAAACAAATTAGAGCAGTAGTTTATTATAATAAAGTAGTTGCATCTAATATG
AGTAATGCTGTTACTATTTTGCCAGATGACATTCCACCAACAATCAATAATCCTGTTGGA
ATAAATGCCAAATACTATCGAGGCGACGAAGTCAACTTTACAATGGGAGTCTCTGATAGA
CATTCTGGTATAAAAAATACAACTATTACTACTTTGCCAAGTGGTTGGACATCAAATTTA
ACTAAATCCGACAACAAAAACGGCTCATTAGCTATTACAGGTAGAGTCTCTATGAATCAG
GCATTTAACAGTGATATTACATTTAAAGTATCAGCGACAGACAATGTCAATAATACGACA
AATGATAGTCAATCTAAACATGTGTCAATTCATGTAGGTAAAATTAGTGAAGATGCTCAT
CCGATTGTATTAGGAAATACTGAGAAAGTTGTAGTAGTCAATCCGACTGCTGTATCTAAT
GATGAAAAGCAAAGCATAATTACTGCCTTTATGAATAAAAACCAAAATATAAGAGGATAT
TTAGCATCAACTGATCCAGTAACTGTCGATAATAATGGTAACGTCACATTACATTACCGT
GATGGCTCATCAACAACGCTTGATGCTACAAATGTGATGACATACGAACCAGTTGTGAAA
TCTGAATATCAAACTGCCAATGCTGCTAAAACAGCAACGGTAACGATTGCTAAAGGACAA
TCATTTAATATTGGTGATATTAAACAATATTTTACTTTAAGTAATGGACAAGCTATTCCA
AATGGCACATTTACAAATATTACATCTGATAGAACTATTCCAACTGCACAAGAAGTTAGT
CAAATGAATGCAGGTACGCAGTTATATCATATAGTTGCTTCAAATGCATATCATAAAGAC
ACTGAAGATTTCTATATTAGTTTAAAAATCGTTGATGTGAAACAACCTGAAGGCGATCAA
CGTGTCTATCGTACGTCAACATATGATTTAACCACTGATGAAATCTCAAAAGTAAAACAA
GCTTTTATTAATGCAAATAGAGATGTAATTACGCTTGCCGAAGGTGATATTTCAGTTACA
AATACACCTAATGGTGCTAATGTAAGTACTATTACAGTAAATATTAATAAAGGTCGATTA
ACGAAATCATTCGCGTCTAACCTAGCTAATATGAATTTCTTGCGTTGGGTTAATTTCCCA
CAAGATTATACAGTGACATGGACGAATGCAAAAATTGCAAACAGACCAACAGATGGTGGT
TTATCATGGTCCGATGACCATAAATCTTTAATTTATCGTTATGATGCTACATTAGGCACA
CAAATTACAACTAATGATATTTTAACGATGCTAAAAGCGACTACTACAGTGCCTGGATTG
CGTAATAATATTACTGGTAATGAAAAAGCACAAGCAGAAGCAGGTGGAAGACCAAACTAT
AGAACAACTGGTTATTCACAATCAAATGCGACAACTGATGGTCAACGTCAATTTACGTTG
AATGGTCAAGTGATTCAAATATTAGACATCATCAACCCTTCAAACGGTTATGGTGGGCAA
CCTGTTACAAATTCAAATACTCGTGCAAACCATAGTAACTCAACTGTTGTTAACGTAAAC
GAACCGGCAGCTAATGGTGCTGGCGCATTTACAATTGACCACGTTGTAAAAAGTAATTCT
ACACATAATGCAAGTGATGCAGTTTATAAAGCGCAGTTATACTTAACGCCATATGGTCCA
AAACAATATGTTGAACATTTAAATCAAAATACAGGAAATACTACTGACGCTATTAACATT
TATTTTGTACCAAGTGACTTAGTGAATCCAACAATTTCAGTAGGTAATTACACTAATCAT
CAAGTGTTCTCAGGTGAAACATTTACAAATACGATTACAGCGAATGATAACTTTGGTGTG
CAATCGGTAACTGTACCAAATACATCACAAATTACAGGTACTGTTGATAATAACCATCAA
CATGTTTCTGCAACGGCACCAAATGTGACATCAGCAACTAGTAAGACAATCAATTTATTA
GCAACTGATACAAGTGGTAATACAGCTACAACTTCATTCAATGTAACAGTGAAACCTTTG
CGTGATAAATATCGAGTTGGTACTTCATCAACGGCTGCTAATCCTGTTAGAATTGCCAAT
ATTTCGAATAATGCGACAGTATCACAAGCTGATCAAACGACAATTATTAATTCGTTAACG
TTTACAAGTAATGCACCAAATAGAAACTATGCAACAGCAAGCGCAAATGAAATCACTAGT
AAAACAGTTAGTAATGTCAGTCGTACTGGAAATAATGCCAATGTCACAGTAACTGTTACT
CATCAAGATGGAACAACATCAACAGTGACTGTACCTGTAAAGCATGTCATTCCAGAAATC
GTTGCACATTCGCATTACACTGTACAAGGCCAAGACTTCCCAGCAGGTAATGGTTCTAGT
GCAGCAGATTACTTTAAGTTATCTAATGGTAGTGCCATTCCAGATGCAACGATTACATGG
GTAAGTGGACAAGCGCCAAATAAAGATAATACACGTATTGGTGAAGATATAACAGTAACT
GCACATATCTTAATTGATGGCGAAACAACGCCGATTACGAAAACAGCAACATATAAAGTA
GTAAGAACTGTACCGAAACATGTCTTTGAAACAGCCAGAGGTGTTTTATACCCAGGTGTT
TCAGATATGTATGATGCGAAACAATATGTTAAGCCAGTAAATAATTCTTGGTCGACAAAT
GCGCAACATATGAATTTTCAATTTGTTGGAACATATGGTCCTAACAAAGATGTTGTAGGT
ATATCAACGCGTCTTATTAGAGTGACTTATGATAATAGACAAACTGAAGATTTAACTATT
TTATCTAAAGTTAAACCTGACCCACCAAGAATTGACGCAAACTCTGTGACATATAAAGCA
GGTCTTACAAACCAAGAAATTAAAGTTAATAACGTATTAAATAACTCGTCAGTAAAATTA
TTTAAAGCAGATAATACACCATTAAATGTCACAAATATTACTCATGGTAGTGGTTTTAGT
TCGGTTGTGACAGTAAGTGACGCGTTACCAAATGGCGGAATTAAAGCAAAATCTTCAATT
TCAATGAACAATGTGACGTATACGACGCAAGACGAACATGGTCAAGTTGTTACAGTAACA
AGAAATGAATCTGTTGATTCAAATGATAGTGCTTCTGTTACAGTAACACCACAATTACAA
GCAACTACTGAAGGCGCTGTATTTATTAAAGGTGGCGACGGTTTTGATTTCGGTCATGTA
GAACGATTTATTCAAAATCCGCCACATGGGGCAACGGTCGCATGGCATGATAGTCCAGAT
ACATGGAAGAATACAGTCGGCAACACACATAAAACTGCGGTTGTAACATTACCTAGTGGT
CAAGGTACGCGTAATGTTGAAGTTCCAGTCAAAGTTTATCCAGTTGCTAATGCTAAGGCG
CCATCACGTGATGTGAAAGGTCAAAATTTGACACATGGTACAAACGCTATTGATTACATT
ACATTTGATCCAAATACTAATACGAATGGTATTACAGCAGCATGGGCAAATAGACAACAA
CCAAATAACCAGCAAGCAGGCGTTCAACATTTAAATGTCGATGTCACATATCCAGGTATT
TCAGCTGCTAAACGAGTTCCTGTAACTGTGAACGTATATCAATTTGAATTCCCTCAAACT
ACTTATACAACAACAGTTGGTGGCACTTTAGCAAGTGGTACGCAAGCATCAGGATATGCA
CATATGCAAAACGCTTCAGGTTTACCAACAGATGGATTTACGTATAAATGGAATCGTGAT
ACTACGGGTACAAACGATGCAAACTGGGCAGCAATGAATAAACCAAATACTGCACAAGTC
GTTAATGCAAAATATGATGTCATCTATAATGGACATACATTTGCAACATCTTTACCAGCG
AAATTTGTAGTAAAAGATGTTCAACCAGCGAAACCAACTGTCACTGAAACAGCGGCAGGA
GCGATTACAATTGCACCTGGTGCGAACCAAACAGTCAATACTCATGCTGGTAATGTTACG
ACATATGCTGACAAATTAGTTATTAAACGTAATGGAAATGTTGTAACGACATTTACACGT
CGTAATAATACGAGCCCATGGGTGAAAGAAGCATCAGCAGATAATGTAACAGGTATTGTT
GGAACTAATAATGGTATTACTGTGGCAGCAGGTACTTTCAATCCTGCTGATACAATTCAA
GTTGTTGCAACACAAGGTAGTGGCGAAACAATCAGTGACGAGCAACGTAGTGATGATTTC
ACAGTTGTCGCACCACAACCGAACCAAGCGACTACGAAAATTTGGCAAAATGGTCATATT
GATATCACGCCTAATAATCCATCAGGACATTTAATTAATCCAACACAAGCAATGGATATT
GCTTACACTGAAAAAGTGGGTAATGGTGCAGAACATAGTAAGACAATTAATGTTGTTCGT
GGTCAAAATAATCAATGGACAATTGCGAATAAGCCTGACTATGTAACGTTAGATGCACAA
ACTGGTAAAGTGACGTTCAATGCCAATACTATAAAACCAAATTCATCAATCACAATTACT
CCGAAAGCAGGTACAGGTCACTCAGTAAGTAGTAATCCAAGTACATTAACTGCACCGGCA
GCTCATACTGTCAACACAACTGAAATTGTGAAAGATTATGGTTCAAATGTAACAGCAGCT
GAAATTAACAATGCAGTTCAAGTTGCTAATAAACGTACTGCAACGATTAAAAATGGCACA
GCAATGCCTACTAATTTAGCTGGTGGTAGCACAACGACGATTCCTGTGACAGTAACTTAC
AATGATGGTAGTACTGAAGAAGTACAAGAGTCCATTTTCACAAAAGCGGATAAACGTGAG
TTAATCACAGCTAAAAATCATTTAGATGATCCAGTAAGCACTGAAGGTAAAAAGCCAGGT
ACAATTACGCAGTACAATAATGCAATGCATAATGCGCAACAACAAATCAATACCGCGAAA
ACAGAAGCACAACAAGTGATTAATAATGAGCGTGCAACACCACAACAAGTTTCTGACGCA
CTAACTAAAGTTCGTGCAGCACAAACTAAGATTGATCAAGCTAAAGCATTACTTCAAAAT
AAAGAAGATAATAGCCAATTAGTAACGTCTAAAAATAACTTACAAAGTTCTGTGAACCAA
GTACCATCAACTGCTGGTATGACGCAACAAAGTATTGATAACTATAATGCGAAGAAGCGT
GAAGCAGAAACTGAAATAACTGCAGCTCAACGTGTTATTGACAATGGCGATGCAACTGCA
CAACAAATTTCAGATGAAAAACATCGTGTCGATAACGCATTAACAGCATTAAACCAAGCG
AAACATGATTTAACTGCAGATACACATGCCTTAGAGCAAGCAGTGCAACAATTGAATCGC
ACAGGTACAACGACTGGTAAGAAGCCGGCAAGTATTACTGCTTACAATAATTCGATTCGT
GCACTTCAAAGTGACTTAACAAGTGCTAAAAATAGCGCTAATGCTATCATTCAGAAGCCA
ATAAGAACAGTGCAAGAGGTACAATCTGCGTTAACAAATGTAAATCGTGTCAATGAGCGA
TTAACGCAAGCAATTAATCAATTAGTACCTTTAGCTGATAATAGTGCTTTAAGAACTGCT
AAGACGAAACTTGATGAAGAAATCAATAAATCAGTAACTACTGATGGTATGACACAATCA
TCAATCCAAGCATATGAAAATGCTAAACGTGCAGGTCAAACAGAAACAACAAATGCACAA
AATGTTATTAACAATGGTGACGCGACAGACCAACAAATTGCCGCAGAAAAAACAAAAGTA
GAAGAAAAATATAATAGCTTAAAACAAGCAATTGCTGGATTAACACCAGACTTGGCACCA
TTACAAACTGCAAAAACTCAGTTGCAAAATGATATTGATCAGCCAACGAGTACGACTGGT
ATGACAAGCGCATCTGTTGCTGCATTTAATGACAAACTTTCAGCAGCTAGAACTAAAATT
CAAGAAATTGATCGCGTACTAGCATCTCATCCAGATGTAGCAACGATTCGTCAAAACGTG
ACAGCAGCGAATGCTGCTAAAACAGCACTTGATCAAGCGCGCAATGGCTTAACAGTCGAT
AAAGCACCTTTAGAAAATGCGAAAAATCAACTACAACATAGTATTGATACGCAAACAAGT
ACAACTGGTATGACACAAGACTCTATAAATGCATACAATGCGAAGTTAACAGCTGCACGT
AATAAGGTTCAACAAATCAATCAAGTATTAGCAGGTTCACCTACTGTAGATCAAATTAAT
ACAAATACGTCTGCAGCAAATCAAGCGAAATCTGATTTAGATCATGCACGTCAAGCGTTA
ACACCAGATAAAGCGCCGCTTCAAAATGCGAAAACGCAATTAGAACAAAGCATTAATCAA
CCAACAGATACAACAGGTATGACAACCGCTTCGTTAAATGCATACAACCAAAAATTACAA
GCAGCACGTCAAAAGTTAACTGAAATTAATCAAGTGTTGAATGGCAACCCAACTGTCCAA
AATATCAATGATAAAGTGGCAGAGGCAAACCAAGCTAAGGATCAATTAAATACAGCACGT
CAAGGTTTAACATTAGATAGACAGCCAGCGTTAACAACATTACATGGTGCATCTAACTTA
AACCAAGCACAACAAAATAATTTCACGCAACAAATTAATGCTGCTCAAAATCATGCTGCG
CTTGAAACAATTAAGTCTAACATTACGGCTTTAAATACTGCGATGACGAAATTAAAAGAC
AGTGTTGCGGATAATAATACAATTAAATCAGGTCAAAATTACACTGACGCAACACCAGCT
AATAAACAAGCCTATGATAATGCAGTTAATGCGGCTAAAGGTGTCATTGGAGAAACGACT
AATCCAACGATGGATGTTAACACAGTGAACCAAAAAGCAGCATCTGTTAAATCGACGAAA
GATGCTTTAGATGGTCAACAAAACTTACAACGTGCGAAAACAGAAGCAACAAATGCGATT
ACGCATGCAAGTGATTTAAACCAAGCACAAAAGAATGCATTAACACAACAAGTGAATAGT
GCACAAAACGTGCAAGCAGTAAATGATATTAAACAAACGACTCAAAGCTTAAATACTGCT
ATGACAGGTTTAAAACGTGGCGTTGCTAATCATAACCAAGTCGTACAAAGTGATAATTAT
GTCAACGCAGATACTAATAAGAAAAATGATTACAACAATGCATACAACCATGCGAATGAC
ATTATTAATGGTAATGCACAACATCCAGTTATAACACCAAGTGATGTTAACAATGCTTTA
TCAAATGTCACAAGTAAAGAACATGCATTGAATGGTGAAGCTAAGTTAAATGCTGCGAAA
CAAGAAGCGAATACTGCATTAGGTCATTTAAACAATTTAAATAATGTACAACGTCAAAAC
TTACAATCGCAAATTAATGGTGCGCATCAAATTGATGCAGTTAATACAATTAAGCAAAAT
GCAACAAACTTGAATAGTGCAATGGGTAACTTAAGACAAGCTGTTGCAGATAAAGATCAA
GTGAAACGTACAGAAGATTATGCGGATGCAGATACAGCTAAACAAAATGCATATAACAGT
GCAGTTTCAAGTGCTGAAACAATTATTAATCAAACAGCTAATCCGACAATGTCTGTTGAT
GATGTTAATCGTGCAACTTCAGCTGTTACTACTAATAAAAATGCATTAAATGGTGATGAA
AAATTAGTACAATCTAAAACAGATGCTGCAAGAGCAATTGATGCATTACCACATTTAAAT
AATGCACAAAAAGCAGATGTTAAATCTAAAATTAATGCTGCATCAAATATTGCTGGTGTA
AATACCGTTAAACAACAAGGTACAGATTTAAATACAGCGATGGGTAACTTGCAGGGTGCA
ATCAATGATGAACAAACGACGCTTAATAGTCAAAATTATCAAGATGCGACACCTAGTAAG
AAAACAGCATACACAAATGCGGTGCAAGCTGCGAAAGATATTTTAAATAAATCAAATGGT
CAAAATAAAACGAAAGATCAAGTTACTGAAGCGATGAATCAAGTGAATTCGGCTAAAAAT
AACTTAGATGGTACGCGTTTATTAGATCAAGCGAAGCAAACAGCGAAACAGCAGTTAAAT
AATATGACGCATTTAACAACTGCACAAAAAACGAATTTAACAAATCAAATTAATAGTGGT
ACTACTGTTGCTGGTGTTCATACGGTTCAATCAAATGCCAACACATTAGATCAAGCGATG
AATACGTTAAGACAAAGTATTGCTAACAATGATGCGACTAAAGCAAGTGAAGATTACGTA
GATGCTAATAATGATAAGCAAACAGCATATAACAACGCGGTAGCTGCTGCTGAAACGATT
ATTAATGCGAATAGTAATCCAGAAATGAATCCAAGTACGATTACACAAAAAGCAGAGCAA
GTGAATAGTTCTAAAACGGCACTTAACGGTGATGAAAACTTAGCTACGGCAAAACAAAAT
GCGAAAACGTACTTAAACACATTAACGAGTATTACAGATGCTCAAAAGAACAATTTGATT
AGTCAAATTAGTAGTGCGACAAGAGTGAGTGGTGTTGATACTGTAAAACAAAATGCACAA
CATTTAGATCAAGCTATGGCTAACTTACAAAATGGTATTAACAACGAATCTCAAGTGAAA
TCATCTGAGAAATATCGTGATGCTGATACAAATAAACAACAAGAGTATGATAATGCTATT
ACTGCAGCGAAAGCGATTTTAAATAAATCGACAGGTCCAAACACTGCGCAAAATGCAGTT
GAAGCAGCATTGCAACGTGTTAATACTGCGAAAGATGCATTGAATGGTGATGCAAAATTA
ATTGCAGCTCAAAACGCAGCGAAACAACATTTAGGTACTTTAACGCATATCACTACAGCA
CAACGCAATGATTTAACAAATCAAATTTCATAA
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⊟Protein[edit | edit source]

⊟General[edit | edit source]

locus tag: SA1268
symbol: EbhB
description: hypothetical protein
length: 3890
theoretical pI: 7.62348
theoretical MW: 420625
GRAVY: -0.632365

⊟Function[edit | edit source]

TIGRFAM:
hyperosmolarity resistance protein Ebh (TIGR04264; HMM-score: 3954)
and 4 more
gram-positive signal peptide, YSIRK family (TIGR01168; HMM-score: 36.7)
Cellular processes Cellular processes Cell division chromosome segregation protein SMC (TIGR02168; HMM-score: 17.4)
Genetic information processing DNA metabolism Chromosome-associated proteins chromosome segregation protein SMC (TIGR02168; HMM-score: 17.4)
Metabolism Central intermediary metabolism Nitrogen fixation V-containing nitrogenase, delta subunit (TIGR02930; EC 1.18.6.1; HMM-score: 10.1)
TheSEED :
- Putative Staphylococcal surface anchored protein
PFAM:
B_GA (CL0598) FIVAR; FIVAR domain (PF07554; HMM-score: 395.4)
and 5 more
GA; GA module (PF01468; HMM-score: 284.7)
no clan defined YSIRK_signal; YSIRK type signal peptide (PF04650; HMM-score: 36.1)
E-set (CL0159) Rib; Rib/alpha-like repeat (PF08428; HMM-score: 27.1)
B_GA (CL0598) GA-like; GA-like domain (PF17573; HMM-score: 11.1)
E-set (CL0159) HYR; HYR domain (PF02494; HMM-score: 8.1)

⊟Structure, modifications & cofactors[edit | edit source]

domains:
modifications:
cofactors:
effectors:

⊟Localization[edit | edit source]

PSORTb: Cellwall
- Cytoplasmic Score: 0
- Cytoplasmic Membrane Score: 0
- Cellwall Score: 5.69
- Extracellular Score: 4.31
- Internal Helices: 0
LocateP: Secretory(released) (with CS)
- Prediction by SwissProt Classification: Extracellular
- Pathway Prediction: Sec-(SPI)
- Intracellular possibility: -0.17
- Signal peptide possibility: 1
- N-terminally Anchored Score: -1
- Predicted Cleavage Site: SQAHAAET
SignalP: Signal peptide SP(Sec/SPI) length 39 aa
- SP(Sec/SPI): 0.989827
- TAT(Tat/SPI): 0.008321
- LIPO(Sec/SPII): 0.000673
- Cleavage Site: CS pos: 39-40. AHA-AE. Pr: 0.9825
predicted transmembrane helices (TMHMM): 0

⊟Accession numbers[edit | edit source]

GI: 15927016 NCBI
RefSeq: NP_374549 NCBI
UniProt: Q7A5M1 UniProt

⊟Protein sequence[edit | edit source]

MNYRDKIQKFSIRKYTVGTFSTVIATLVFLGFNTSQAHAAETNQPASVVKQKQQSNNEQTENRESQVQNSQNSQNSQSLSATHENEQPNNSQANLVNQKVAQSSTTNDEQPASQNVNTKKDSATAATTQPDKEESKHKQNESQSANKNGNDNRAAHVENHEANVVTASDSSDNGNVQHDRNELQAFFDANYHDYRFIDRENADSGTFNYVKGIFDKINTLLGSNDPINNKDLQLAYKELEQAVALIRTMPQRQQTSRRSNRIQTRSVESRAAEPRSVSDYQNANSSYYVENANDGSGYPVGTYINASSKGAPYNLPTTPWNTLKASDSKEIALMTAKQTGDGYQWVIKFNKGHAPHQNMIFWFALPADQVPVGRTDFVTVNSDGTNVQWSHGAGAGANKPLQQMWEYGVNDPDRSHDFKIRNRSGQVIYSWPTVHVYSLEDLSRASDYFSEAGATPATKAFGRQNFEYINGQKPAESPGVPKVYTFIGQGDASYTISFKTQGPTVNKLYYAAGGRALEYNQLFMYSQLYVESTQDHQQRLNGLRQVVNRTYRIGTTKRVEVSQGNVQTKKVLESTNLNIDDFVDDPLSYVKTPSNKVLGFYPTNANTNAFRPGGVQELNEYQLSQLFTDQKLQEAARTRNPIRLMIGFDYPDGYGNSETLVPVNLTVLPEIQHNIKFFKNDDTQNIAEKPFSKQAGHPVFYVYAGNQGNASVNLGGSVTSIQPLRINLTSNENFTDKDWQITGIPRTLHIENSTNRTNNARERNIELVGNLLPGDYFGTIRFGRKEQLFEIRVKPHTPTITTTAEQLRGTALQKVPVNISGIPLDPSALVYLVAPTNQTTNGGSEADQIPSGYTILATGTPDGVHNTITIRPQDYVVFIPPVGKQIRAVVYYNKVVASNMSNAVTILPDDIPPTINNPVGINAKYYRGDEVNFTMGVSDRHSGIKNTTITTLPSGWTSNLTKSDNKNGSLAITGRVSMNQAFNSDITFKVSATDNVNNTTNDSQSKHVSIHVGKISEDAHPIVLGNTEKVVVVNPTAVSNDEKQSIITAFMNKNQNIRGYLASTDPVTVDNNGNVTLHYRDGSSTTLDATNVMTYEPVVKSEYQTANAAKTATVTIAKGQSFNIGDIKQYFTLSNGQAIPNGTFTNITSDRTIPTAQEVSQMNAGTQLYHIVASNAYHKDTEDFYISLKIVDVKQPEGDQRVYRTSTYDLTTDEISKVKQAFINANRDVITLAEGDISVTNTPNGANVSTITVNINKGRLTKSFASNLANMNFLRWVNFPQDYTVTWTNAKIANRPTDGGLSWSDDHKSLIYRYDATLGTQITTNDILTMLKATTTVPGLRNNITGNEKAQAEAGGRPNYRTTGYSQSNATTDGQRQFTLNGQVIQILDIINPSNGYGGQPVTNSNTRANHSNSTVVNVNEPAANGAGAFTIDHVVKSNSTHNASDAVYKAQLYLTPYGPKQYVEHLNQNTGNTTDAINIYFVPSDLVNPTISVGNYTNHQVFSGETFTNTITANDNFGVQSVTVPNTSQITGTVDNNHQHVSATAPNVTSATSKTINLLATDTSGNTATTSFNVTVKPLRDKYRVGTSSTAANPVRIANISNNATVSQADQTTIINSLTFTSNAPNRNYATASANEITSKTVSNVSRTGNNANVTVTVTHQDGTTSTVTVPVKHVIPEIVAHSHYTVQGQDFPAGNGSSAADYFKLSNGSAIPDATITWVSGQAPNKDNTRIGEDITVTAHILIDGETTPITKTATYKVVRTVPKHVFETARGVLYPGVSDMYDAKQYVKPVNNSWSTNAQHMNFQFVGTYGPNKDVVGISTRLIRVTYDNRQTEDLTILSKVKPDPPRIDANSVTYKAGLTNQEIKVNNVLNNSSVKLFKADNTPLNVTNITHGSGFSSVVTVSDALPNGGIKAKSSISMNNVTYTTQDEHGQVVTVTRNESVDSNDSASVTVTPQLQATTEGAVFIKGGDGFDFGHVERFIQNPPHGATVAWHDSPDTWKNTVGNTHKTAVVTLPSGQGTRNVEVPVKVYPVANAKAPSRDVKGQNLTHGTNAIDYITFDPNTNTNGITAAWANRQQPNNQQAGVQHLNVDVTYPGISAAKRVPVTVNVYQFEFPQTTYTTTVGGTLASGTQASGYAHMQNASGLPTDGFTYKWNRDTTGTNDANWAAMNKPNTAQVVNAKYDVIYNGHTFATSLPAKFVVKDVQPAKPTVTETAAGAITIAPGANQTVNTHAGNVTTYADKLVIKRNGNVVTTFTRRNNTSPWVKEASADNVTGIVGTNNGITVAAGTFNPADTIQVVATQGSGETISDEQRSDDFTVVAPQPNQATTKIWQNGHIDITPNNPSGHLINPTQAMDIAYTEKVGNGAEHSKTINVVRGQNNQWTIANKPDYVTLDAQTGKVTFNANTIKPNSSITITPKAGTGHSVSSNPSTLTAPAAHTVNTTEIVKDYGSNVTAAEINNAVQVANKRTATIKNGTAMPTNLAGGSTTTIPVTVTYNDGSTEEVQESIFTKADKRELITAKNHLDDPVSTEGKKPGTITQYNNAMHNAQQQINTAKTEAQQVINNERATPQQVSDALTKVRAAQTKIDQAKALLQNKEDNSQLVTSKNNLQSSVNQVPSTAGMTQQSIDNYNAKKREAETEITAAQRVIDNGDATAQQISDEKHRVDNALTALNQAKHDLTADTHALEQAVQQLNRTGTTTGKKPASITAYNNSIRALQSDLTSAKNSANAIIQKPIRTVQEVQSALTNVNRVNERLTQAINQLVPLADNSALRTAKTKLDEEINKSVTTDGMTQSSIQAYENAKRAGQTETTNAQNVINNGDATDQQIAAEKTKVEEKYNSLKQAIAGLTPDLAPLQTAKTQLQNDIDQPTSTTGMTSASVAAFNDKLSAARTKIQEIDRVLASHPDVATIRQNVTAANAAKTALDQARNGLTVDKAPLENAKNQLQHSIDTQTSTTGMTQDSINAYNAKLTAARNKVQQINQVLAGSPTVDQINTNTSAANQAKSDLDHARQALTPDKAPLQNAKTQLEQSINQPTDTTGMTTASLNAYNQKLQAARQKLTEINQVLNGNPTVQNINDKVAEANQAKDQLNTARQGLTLDRQPALTTLHGASNLNQAQQNNFTQQINAAQNHAALETIKSNITALNTAMTKLKDSVADNNTIKSGQNYTDATPANKQAYDNAVNAAKGVIGETTNPTMDVNTVNQKAASVKSTKDALDGQQNLQRAKTEATNAITHASDLNQAQKNALTQQVNSAQNVQAVNDIKQTTQSLNTAMTGLKRGVANHNQVVQSDNYVNADTNKKNDYNNAYNHANDIINGNAQHPVITPSDVNNALSNVTSKEHALNGEAKLNAAKQEANTALGHLNNLNNVQRQNLQSQINGAHQIDAVNTIKQNATNLNSAMGNLRQAVADKDQVKRTEDYADADTAKQNAYNSAVSSAETIINQTANPTMSVDDVNRATSAVTTNKNALNGDEKLVQSKTDAARAIDALPHLNNAQKADVKSKINAASNIAGVNTVKQQGTDLNTAMGNLQGAINDEQTTLNSQNYQDATPSKKTAYTNAVQAAKDILNKSNGQNKTKDQVTEAMNQVNSAKNNLDGTRLLDQAKQTAKQQLNNMTHLTTAQKTNLTNQINSGTTVAGVHTVQSNANTLDQAMNTLRQSIANNDATKASEDYVDANNDKQTAYNNAVAAAETIINANSNPEMNPSTITQKAEQVNSSKTALNGDENLATAKQNAKTYLNTLTSITDAQKNNLISQISSATRVSGVDTVKQNAQHLDQAMANLQNGINNESQVKSSEKYRDADTNKQQEYDNAITAAKAILNKSTGPNTAQNAVEAALQRVNTAKDALNGDAKLIAAQNAAKQHLGTLTHITTAQRNDLTNQIS

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Contents

⊟Summary[edit | edit source]

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Phenotype[edit | edit source]

⊟DNA sequence[edit | edit source]

⊟Protein[edit | edit source]

⊟General[edit | edit source]

⊟Function[edit | edit source]

⊟Structure, modifications & cofactors[edit | edit source]

⊟Localization[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Protein sequence[edit | edit source]

⊟Experimental data[edit | edit source]

⊟Expression & Regulation[edit | edit source]

⊟Operon[edit | edit source]

⊟Regulation[edit | edit source]

⊟Transcription pattern[edit | edit source]

⊟Protein synthesis (provided by Aureolib)[edit | edit source]

⊟Protein stability[edit | edit source]

⊟Biological Material[edit | edit source]

⊟Mutants[edit | edit source]

⊟Expression vector[edit | edit source]

⊟lacZ fusion[edit | edit source]

⊟GFP fusion[edit | edit source]

⊟two-hybrid system[edit | edit source]

⊟FLAG-tag construct[edit | edit source]

⊟Antibody[edit | edit source]

⊟Other Information[edit | edit source]

⊟Literature[edit | edit source]

⊟References[edit | edit source]

⊟Relevant publications[edit | edit source]

Search

Navigation menu

⊟Summary[edit | edit source]

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Phenotype[edit | edit source]

⊟DNA sequence[edit | edit source]

⊟Protein[edit | edit source]

⊟General[edit | edit source]

⊟Function[edit | edit source]

⊟Structure, modifications & cofactors[edit | edit source]

⊟Localization[edit | edit source]

⊟Accession numbers[edit | edit source]

⊟Protein sequence[edit | edit source]

⊟Experimental data[edit | edit source]

⊟Expression & Regulation[edit | edit source]

⊟Operon[edit | edit source]

⊟Regulation[edit | edit source]

⊟Transcription pattern[edit | edit source]

⊟Protein synthesis (provided by Aureolib)[edit | edit source]

⊟Protein stability[edit | edit source]

⊟Biological Material[edit | edit source]

⊟Mutants[edit | edit source]

⊟Expression vector[edit | edit source]

⊟lacZ fusion[edit | edit source]

⊟GFP fusion[edit | edit source]

⊟two-hybrid system[edit | edit source]

⊟FLAG-tag construct[edit | edit source]

⊟Antibody[edit | edit source]

⊟Other Information[edit | edit source]

⊟Literature[edit | edit source]

⊟References[edit | edit source]

⊟Relevant publications[edit | edit source]