PangenomeCOLN315NCTC8325NewmanUSA300_FPR3757JSNZ04-0298108BA0217611819-97685071193ECT-R 2ED133ED98HO 5096 0412JH1JH9JKD6008JKD6159LGA251M013MRSA252MSHR1132MSSA476MW2Mu3Mu50RF122ST398T0131TCH60TW20USA300_TCH1516VC40

NCBI: 06-JUL-2013

⊟Summary[edit | edit source]

organism: Staphylococcus aureus Newman
locus tag: NWMN_1344
pan locus tag^?: SAUPAN003872000
symbol: ebh2
pan gene symbol^?: ebh2
synonym:
product: cell wall associated fibronectin-binding protein

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

type: CDS
locus tag: NWMN_1344
symbol: ebh2
product: cell wall associated fibronectin-binding protein
replicon: chromosome
strand: -
coordinates: 1476047..1486435
length: 10389
essential: unknown

⊟Accession numbers[edit | edit source]

Gene ID: 5330797 NCBI
RefSeq: YP_001332378 NCBI
BioCyc:
MicrobesOnline: 3706896 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
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401
5461
5521
5581
5641
5701
5761
5821
5881
5941
6001
6061
6121
6181
6241
6301
6361
6421
6481
6541
6601
6661
6721
6781
6841
6901
6961
7021
7081
7141
7201
7261
7321
7381
7441
7501
7561
7621
7681
7741
7801
7861
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
TTGGTACAACAATCGACTACTGTTGCAGAAGCACAAGGTAATGAGCAAAAAGCAAACAAT
GTTGATGCAGCAATGGACAAATTACGTCAAAGTATTGCAGATAATGCGACAACAAAACAA
AACCAAAATTATACTGATGCAAGTCAGAATAAAAAGGATGCGTACAATAATGCTGTCACA
ACTGCACAAGGTATTATTGATCAAACTACAAGTCCAACTTTAGATCCGACTGTTATCAAT
CAAGCTGCTGGACAAGTAAGCACAACTAAAAATGCATTAAATGGTAATGAAAACCTAGAG
GCAGCGAAACAACAAGCGTCACAATCATTAGGTTCATTAGATAACTTAAATAATGCGCAA
AAACAAACAGTTACTGATCAAATTAATGGCGCGCATACTGTTGATGAAGCAAATCAAATT
AAGCAAAATGCGCAAAACTTAAATACAGCGATGGGTAACTTGAAACAAGCGATAGCTGAC
AAAGATGCTACGAAAGCGACAGTTAACTTCACTGATGCAGATCAAGCAAAACAACAAGCA
TATAACACTGCTGTTACAAATGCTGAAAATATCATTTCAAAAGCTAATGGCGGCAATGCA
ACACAAGCTGAAGTTGAACAAGCAATCAAACAAGTTAATGCTGCAAAACAAGCATTAAAT
GGTAATGCCAACGTTCAACATGCAAAAGACGAAGCAACAGCATTAATTAATAGCTCTAAT
GACCTTAACCAAGCACAAAAAGACGCATTAAAACAACAAGTTCAAAATGCAACTACTGTA
GCTGGTGTAAACAATGTTAAACAAACAGCACAAGAGTTAAACAATGCTATGACACAATTA
AAACAAGGCATTGCAGATAAAGAACAAACAAAAGCTGATGGTAACTTTGTCAATGCAGAT
CCTGATAAGCAAAATGCATATAATCAAGCAGTAGCGAAAGCTGAAGCATTAATTAGTGCT
ACGCCTGATGTTGTCGTTACACCTAGCGAAATTACTGCAGCGTTAAATAAAGTTACGCAA
GCTAAAAATGATTTAAATGGTAATACAAACTTAGCAACGGCGAAACAAAATGTTCAACAT
GCTATTGATCAATTGCCAAACTTAAACCAAGCGCAACGTGATGAATACAGCAAACAAATC
ACGCAAGCAACACTTGTACCAAACGTCAATGCTATTCAACAAGCGGCGACAACGCTTAAT
GACGCGATGACACAATTGAAACAAGGTATTGCGAATAAAGCACAAATTAAAGGTAGCGAG
AACTATCACGATGCTGATACTGACAAGCAAACAGCATATGATAATGCAGTAACAAAAGCA
GAAGAATTGTTAAAACAAACAACAAATCCAACAATGGATCCAAATACAATTCAACAAGCA
TTAACTAAAGTGAATGACACAAATCAAGCACTTAACGGTAATCAAAAATTAGCTGATGCC
AAACAAGATGCTAAGACAACACTTGGTACACTAGATCATTTAAATGATGCTCAAAAACAA
GCGCTAACAACTCAAGTTGAACAAGCACCAGATATTGCAACAGTTAATAATGTTAAGCAA
AATGCTCAAAATCTGAATAATGCTATGACTAACTTAAACAATGCATTACAAGATAAAACT
GAGACATTAAATAGCATTAACTTTACTGATGCAGATCAAGCTAAGAAAGATGCTTATACT
AATGCGGTTTCACATGCAGAAGGTATTTTATCTAAAGCAAATGGCAGCAATGCAAGTCAA
ACTGAAGTGGAACAAGCGATGCAACGTGTGAACGAAGCGAAACAAGCATTGAATGGTAAT
GACAATGTACAACGTGCAAAAGATGCAGCGAAACAAGTGATTACAAATGCAAATGATTTA
AATCAAGCGCAAAAAGATGCATTAAAACAACAAGTCGATGCTGCGCAAACTGTTGCAAAT
GTAAACACGATTAAGCAAACAGCACAAGATTTAAATCAAGCAATGACACAATTGAAACAA
GGTATTGCAGATAAAGACCAAACTAAAGCAAGTGGTAACTTTGTCAATGCTGATACTGAT
AAGCAAAATGCTTACAACAATGCGGTAGCACATGCTGAACAAATAATTAGTGGTACACCA
AATGCAAACGTGGATCCACAACAAGTGGCTCAAGCGTTACAACAAGTGAATCAAGCTAAG
GGTGATTTAAACGGTAACCATAACTTACAAGTTGCTAAAGACAATGCAAATACAGCCATT
GATCAGTTACCAAACTTAAATCAACCACAAAAAACAGCATTAAAAGACCAAGTGTCGCAT
GCAGAACTTGTTACAGGTGTTAATGCTATTAAGCAAAATGCTGATGCGTTAAATAATGCA
ATGGGTACATTGAAACAACAAATTCAAGCGAACAGTCAAGTACCACAGTCAGTTGACTTT
ACACAAGCGGATCAAGACAAACAACAAGCATATAACAATGCGGCTAACCAAGCGCAACAA
ATCGCAAATGGCATACCAACACCTGTATTGACGCCTGATACAGTAACACAAGCAGTGACA
ACTATGAATCAAGCGAAAGATGCATTAAACGGTGATGAAAAATTAGCACAAGCGAAACAA
GAAGCTTTAGCAAATCTTGATACGTTACGCGATTTAAATCAACCACAACGTGATGCATTA
CGTAACCAAATCAATCAAGCACAAGCGTTAGCTACAGTTGAACAAACTAAACAAAATGCA
CAAAATGTGAATACAGCAATGAGTAACTTGAAACAAGGTATTGCAAACAAAGATACTGTC
AAAGCAAGTGAGAACTATCATGATGCTGATGCCGATAAGCAAACAGCATATACAAATGCA
GTGTCTCAAGCGGAAGGTATTATCAATCAAACGACAAATCCAACGCTTAACCCAGATGAA
ATAACACGTGCATTAACTCAAGTGACTGATGCTAAAAATGGCTTAAACGGTGAAGCTAAA
TTGGCAACTGAAAAGCAAAATGCTAAAGATGCCGTAAGTGGGATGACGCATTTAAACGAT
GCTCAAAAACAAGCATTAAAAGGTCAAATCGATCAATCGCCTGAAATTGCTACAGTGAAC
CAAGTTAAACAAACAGCAACGAGCCTAGATCAAGCAATGGATCAATTATCACAAGCTATT
AATGATAAAGCTCAAACATTAGCGGACGGTAATTACTTAAATGCAGATCCTGACAAACAA
AATGCGTATAAACAGGCAGTAGCAAAAGCTGAAGCATTATTGAATAAACAAAGTGGTACT
AATGAAGTACAAGCACAAGTTGAAAGCATCACTAATGAAGTGAACGCAGCGAAACAAGCA
TTAAATGGTAATGACAATTTGGCAAATGCAAAACAACAAGCAAAACAACAATTGGCGAAC
TTAACACACTTAAATGATGCACAAAAACAATCATTTGAAAGTCAAATTACACAAGCGCCA
CTTGTTACAGATGTCACTACGATTAATCAAAAAGCACAAACGTTAGATCATGCGATGGAA
TTATTAAGAAATAGTGTTGCGGATAATCAAACGACATTAGCGTCTGAAGATTATCATGAT
GCAACTGCGCAAAGACAAAATGACTATAACCAAGCTGTAACAGCTGCTAATAATATCATT
AATCAAACTACATCGCCTACGATGAATCCAGATGATGTTAATGGTGCAACGACACAAGTG
AATAATACGAAAGTTGCATTAGATGGTGATGAAAACCTTGCAGCAGCTAAACAACAAGCA
AACAACAGACTTGATCAATTAGATCATTTGAATAATGCGCAAAAGCAACAGTTACAATCA
CAAATTACGCAATCATCTGATATTGCTGCAGTTAATGGTCACAAACAAACAGCAGAATCT
TTAAATACTGCGATGGGTAACTTAATTAATGCGATTGCAGATCATCAAGCCGTTGAACAA
CGTGGTAACTTCATCAATGCTGATACTGATAAACAAACTGCTTATAATACAGCGGTAAAT
GAAGCAGCAGCAATGATTAACAAACAAACTGGTCAAAATGCGAACCAAACAGAAGTAGAA
CAAGCTATTACTAAAGTTCAAACAACACTTCAAGCGTTAAATGGAGACCATAATTTACAA
GTTGCTAAAACAAATGCGACGCAAGCAATTGATGCTTTAACAAGCTTAAATGATCCTCAA
AAAACAGCATTAAAAGACCAAGTTACAGCTGCAACTTTAGTAACTGCAGTTCATCAAATT
GAACAAAATGCGAATACGCTTAACCAAGCAATGCATGGTTTAAGACAGAGCATTCAAGAT
AACGCAGCAACTAAAGCAAATAGCAAATATATCAACGAAGATCAACCAGAGCAACAAAAC
TATGATCAAGCTGTTCAAGCCGCAAATAATATTATCAATGAACAAACTGCAACATTAGAT
AATAATGCGATTAATCAAGCAGCGACAACTGTGAATACAACGAAAGCAGCATTACATGGT
GATGTGAAGTTACAAAATGATAAAGATCATGCTAAGCAAACGGTTAGTCAATTAGCACAT
CTAAACAATGCACAAAAACATATGGAAGATACGTTAATTGATAGTGAAACAACTAGAACA
GCAGTTAAGCAAGATTTGACTGAAGCACAAGCATTAGATCAACTTATGGATGCATTACAA
CAAAGTATTGCTGACAAAGATGCAACACGTGCGAGCAGTGCATATGTCAATGCAGAACCG
AATAAAAAACAATCCTATGATGAAGCAGTTCAAAATGCTGAGTCTATCATTGCAGGATTA
AATAATCCAACTATCAATAAAGGTAATGTATCAAGTGCGACTCAAGCAGTAATATCATCT
AAAAATGCATTAGATGGTGTTGAACGATTAGCTCAAGATAAGCAAACTGCTGGAAATTCT
CTAAATCATTTAGATCAATTAACACCAGCTCAACAACAAGCGCTAGAAAATCAAATTAAT
AATGCAACAACTCGTGGCGAAGTAGCACAAAAATTAACTGAAGCACAAGCACTTAACCAA
GCAATGGAAGCTTTACGTAATAGCATTCAAGATCAACAGCAAACGGAAGCGGGTAGCAAG
TTTATCAATGAAGATAAACCACAAAAAGATGCTTACCAAGCAGCAGTTCAAAATGCAAAA
GATTTAATTAATCAAACTAACAATCCAACGCTTGATAAAGCACAAGTTGAACAATTGACA
CAAGCTGTTAACCAAGCTAAAGATAACCTACACGGTGATCAAAAACTTGCAGACGATAAA
CAACATGCGGTTACTGATTTAAATCAATTAAATGGTTTGAATAATCCGCAACGTCAAGCA
CTTGAAAGCCAAATAAACAACGCAGCAACTCGTGGCGAAGTAGCACAAAAATTAGCTGAA
GCAAAAGCGCTTGATCAAGCAATGCAAGCATTACGTAATAGTATTCAAGATCAACAACAA
ACAGAATCTGGTAGCAAGTTTATCAATGAAGATAAACCGCAAAAAGATGCTTACCAAGCA
GCAGTTCAAAATGCAAAAGATTTAATTAACCAAACAGGTAATCCAACACTCGACAAATCA
CAAGTAGAACAATTGACACAAGCAGTAACAACTGCAAAAGATAATCTACATGGTGATCAA
AAACTTGCTCGTGATCAACAACAAGCAGTAACAACTGTAAATGCATTGCCAAACTTAAAT
CATGCACAACAACAAGCATTAACTGATGCTATAAATGCAGCGCCTACAAGAACAGAGGTT
GCACAACATGTTCAAACTGCTACTGAACTTGATCACGCGATGGAAACATTGAAAAATAAA
GTTGATCAAGTGAATACAGATAAGGCTCAACCAAATTACACTGAAGCGTCAACTGATAAA
AAAGAAGCAGTAGATCAAGCGTTACAAGCTGCAGAAAGCATTACAGATCCAACTAATGGT
TCAAATGCGAATAAAGACGCTGTAGACCAAGTATTAACTAAGCTTCAAGAAAAAGAAAAT
GAGTTAAATGGTAATGAGAGAGTCGCTGAAGCTAAAACACAAGCGAAACAAACTATTGAC
CAATTAACACATTTAAATGCTGATCAAATTGCAACTGCTAAACAAAACATTGATCAAGCG
ACGAAACTTCAACCAATTGCTGAATTAGTAGATCAAGCAACGCAATTGAATCAATCTATG
GATCAATTACAACAAGCAGTTAATGAACATGCTAACGTTGAGCAAACTGTAGATTACACA
CAAGCAGATTCAGATAAACAAAATGCTTATAAACAAGCTATTGCTGATGCTGAAAATGTA
TTGAAACAAAATGCGAATAAGCAACAAGTGGATCAAGCACTTCAAAATATTTTAAATGCA
AAACAAGCATTAAATGGTGATGAACGTGTAGCACTTGCTAAAACAAATGGTAAACATGAC
ATCGACCAATTGAATGCATTAAACAATGCTCAACAAGATGGATTTAAAGGTCGCATCGAT
CAATCAAACGATTTAAATCAAATCCAACAAATTGTAGATGAGGCTAAGGCACTTAATCGT
GCAATGGATCAATTGTCACAAGAAATCACTGACAATGAAGGACGCACGAAAGGTAGCACG
AACTATGTCAATGCAGATACACAAGTCAAACAAGTATATGATGAAACGGTTGATAAAGCG
AAACAAGCACTTGATAAATCGACTGGTCAAAACTTAACTGCAAAACAAGTTATCAAATTA
AATGATGCAGTCACTGCAGCTAAGAAAGCATTAAATGGTGAAGAAAGACTTAATAATCGT
AAAGCTGAAGCATTACAAAGATTGGATCAATTAACACATCTAAACAATGCTCAAAGACAA
TTAGCAATCCAACAAATTAATAATGCTGAAACGCTAAATAAAGCATCTCGAGCAATTAAT
AGAGCAACTAAATTAGATAATGCAATGGGTGCAGTACAACAATATATTGACGAACAGCAC
CTTGGTGTTATCAGCAGCACAAATTACATCAATGCAGATGACAATTTGAAAGCAAATTAT
GATAATGCAATTGCGAATGCAGCACATGAGTTAGATAAAGTGCAAGGTAATGCAATTGCA
AAAGCTGAAGCAGAGCAATTGAAACAAAATATTATCGATGCTCAAAATGCATTAAATGGA
GACCAAAACCTTGCAAATGCCAAAGATAAAGCAAATGCGTTTGTTAATTCGTTAAATGGA
TTAAATCAACAGCAACAAGATCTTGCACATAAAGCAATTAACAATGCCGATACTGTATCA
GATGTAACAGATATTGTTAATAATCAAATTGACTTAAATGATGCAATGGAAACATTGAAA
CATTTAGTTGACAATGAAATTCCAAATGCAGAGCAAACTGTCAATTACCAAAACGCTGAC
GATAATGCTAAAACAAACTTCGATGATGCCAAACGTCTAGCAAATACATTGCTAAATAGT
GATAACACAAATGTGAATGATATCAATGGCGCAATCCAAGCAGTCAATGATGCAATCCAT
AATCTTAATGGTGATCAACGACTACAAGATGCTAAAGACAAGGCAATTCAATCTATTAAT
CAAGCTTTAGCTAATAAGCTAAAAGAAATCGAAGCTTCAAATGCGACGGATCAAGACAAG
CTTATTGCGAAAAATAAAGCAGAAGAATTGGCAAACAGCATCATCAACAACATTAATAAA
GCAACAAGTAATCAGGCTGTATCTCAAGTTCAAACAGCAGGCAACCACGCGATTGAACAA
GTGCATGCCAATGAAATACCAAAAGCAAAAATTGATGCCAATAAAGACGTTGATAAGCAA
GTTCAAGCATTAATTGACGAAATTGATCGAAATCCAAATCTAACAGATAAGGAAAAACAA
GCACTTAAAGATCGTATTAATCAAATACTTCAACAAGGTCATAACGGCATTAACAATGCG
ATGACTAAAGAAGAAATTGAACAAGCCAAAGCACAACTTGCGCAAGCATTACAAGACATC
AAAGATTTAGTGAAAGCTAAAGAAGATGCGAAACAAGATGTTGATAAACAAGTTCAAGCT
TTAATTGACGAAATCGATCAAAATCCAAATCTAACAGATAAGGAAAAACAAGCACTTAAA
GATCGTATTAATCAAATACTTCAACAAGGTCATAACGACATTAACAATGCGATGACAAAA
GAAGCAATTGAACAAGCAAAAGAACGTTTAGCGCAAGCATTGCAAGACATCAAAGATTTA
GTGAAAGCTAAAGAAGATGCGAAAAATGATATTGATAAACGTGTACAAGCTTTAATTGAC
GAAATCGATCAAAATCCAAATCTAACAGATAAGGAAAAACAAGCACTTAAAGATCGAATT
AATCAAATACTTCAACAAGGTCATAACGACATTAACAATGCGCTGACTAAAGAAGAAATT
GAGCAGGCAAAAGCACAACTTGCACAAGCATTGCAAGACATCAAAGATTTAGTGAAAGCT
AAAGAAGATGCGAAAAATGCAATAAAAGCCTTAGCTAATGCGAAGCGTGATCAAATCAAT
TCAAATCCAGATTTAACACCTGAGCAAAAAGCAAAAGCGCTCAAAGAAATTGACGAAGCT
GAAAAACGAGCACTACAAAACGTTGAGAATGCTCAAACTATAGATCAATTAAATCGAGGA
TTAAACTTAGGTTTAGATGACATTAGAAATACACATGTATGGGAGGTTGATGAACAACCT
GCTGTAAATGAAATTTTTGAAGCAACACCTGAGCAAATCCTAGTTAATGGTGAACTCATT
GTACATCGTGATGACATCATTACAGAACAAGATATTCTTGCACACATAAACTTAATTGAT
CAGCTTTCAGCAGAAGTCATCGATACACCATCAACTGCAACGATTTCTGATAGCTTAACA
GCAAAAGTTGAAGTTACATTGCTTGATGGATCAAAAGTGATTGTTAATGTTCCTGTAAAA
GTTGTAGAAAAAGAATTGTCAGTAGTCAAACAACAGGCAATTGAATCAATCGAAAATGCG
GCACAACAAAAGATTAATGAAATCAATAATAGTGTGACATTAACACTGGAACAAAAAGAA
GCTGCAATTGCAGAAGTTAATAAGCTTAAACAACAAGCAATTGATCATGTTAACAATGCA
CCTGATGTTCATTCAGTTGAAGAAATTCAACAACAAGAACAAGCGCATATTGAACAATTT
AATCCAGAACAATTTACGATTGAACAAGCAAAATCAAATGCAATTAAATCGATTGAAGAT
GCAATTCAACATATGATTGATGAAATCAAAGCTCGTACTGATCTAACAGATAAAGAGAAG
CAAGAAGCTATTGCTAAGTTAAATCAATTAAAAGAACAAGCAATTCAAGCGATTCAACGT
GCGCAAAGCATCGATGAAATAAGTGAGCAATTGGAACAATTTAAAGCTCAAATGAAAGCA
GCTAATCCAACAGCAAAAGAACTAGCTAAACGCAAGCAAGAAGCTATTAGTAGAATTAAA
GACTTTTCAAATGAAAAAATAAATAGTATTCGAAATAGTGAAATTGGCACAGCTGATGAA
AAACAAGCAGCAATGAATCAAATTAACGAAATTGTGCTTGAAACAATTAGAGATATTAAT
AATGCGCATACATTACAGCAAGTTGAGGCTGCATTGAACAATGGTATTGCTCGAATTTCA
GCAGTACAAATTGTAACATCTGATCGTGCTAAACAATCGTCAAGTACTGGAAATGAATCT
AATAGCCATTTAACAATTGGTTATGGAACTGCAAATCATCCATTTAACAGTTCGACTATT
GGACATAAAAAGAAACTTGATGAAGATGATGACATTGATCCACTTCATATGCGTCACTTT
AGTAATAATTTCGGTAATGTTATTAAAAACGCTATTGGTGTGGTGGGTATCTCTGGTTTA
CTAGCTAGTTTCTGGTTCTTCATTGCCAAACGTCGTCGTAAAGAAGATGAAGAGGAAGAA
TTAGAAATAAGAGATAATAATAAAGATTCAATAAAAGAGACTTTAGACGATACAAAACAT
TTACCACTTTTATTTGCGAAACGTCGCAGAAAAGAAGATGAAGAAGATGTTACTGTTGAA
GAAAAAGATTCGCTAAATAATGGCGAGTCACTCGATAAAGTTAAACATACGCCGTTCTTC
TTACCAAAACGTCGTCGTAAAGAAGATGAAGAAGATGTGGAAGTTACAAATGAAAACACA
GATGAAAAAGTGTTGAAAGATAACGAACATTCACCACTCTTATTCGCAAAACGACGCAAA
GATAAAGAGGAAGATGTTGAAACAACAACTAGTATTGAATCTAAAGATGAGGACGTTCCT
TTATTATTGGCTAAAAAGAAAAATCAAAAAGATAACCAATCCAAAGACAAAAAGTCAGCA
TCAAAAAATACTTCTAAAAAGGTAGCAGCTAAAAAGAAGAAAAAGAAAGCTAAGAAAAAT
AAAAAATAA
60
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10389

⊟Protein[edit | edit source]

⊟General[edit | edit source]

locus tag: NWMN_1344
symbol: Ebh2
description: cell wall associated fibronectin-binding protein
length: 3462
theoretical pI: 4.80041
theoretical MW: 378163
GRAVY: -0.838619

⊟Function[edit | edit source]

TIGRFAM:
TheSEED :
- Putative Staphylococcal surface anchored protein
PFAM:
B_GA (CL0598) FIVAR; FIVAR domain (PF07554; HMM-score: 831.6)
GA; GA module (PF01468; HMM-score: 714.7)
and 4 more
DUF1542; Domain of Unknown Function (DUF1542) (PF07564; HMM-score: 314.7)
E-set (CL0159) Rib; Rib domain (PF08428; HMM-score: 16.7)
KNTase_C (CL0291) HEPN; HEPN domain (PF05168; HMM-score: 12.6)
no clan defined DUF2110_N; DUF2110 N-terminal domain (PF24872; HMM-score: 10)

⊟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: 9.39
- Extracellular Score: 0.61
- Internal Helix: 1
DeepLocPro: Cell wall & surface
- Cytoplasmic Score: 0.0006
- Cytoplasmic Membrane Score: 0
- Cell wall & surface Score: 0.9848
- Extracellular Score: 0.0146
LocateP: Intracellular /TMH start AFTER 60
- Prediction by SwissProt Classification: Cytoplasmic
- Pathway Prediction: Possibly Sec-
- Intracellular possibility: 0.17
- Signal peptide possibility: -1
- N-terminally Anchored Score: -1
- Predicted Cleavage Site: No CleavageSite
SignalP: no predicted signal peptide
- SP(Sec/SPI): 0.04651
- TAT(Tat/SPI): 0.005185
- LIPO(Sec/SPII): 0.011001
predicted transmembrane helices (TMHMM): 1

⊟Accession numbers[edit | edit source]

GI: 151221556 NCBI
RefSeq: YP_001332378 NCBI
UniProt: A6QGY4 UniProt

⊟Protein sequence[edit | edit source]

MVQQSTTVAEAQGNEQKANNVDAAMDKLRQSIADNATTKQNQNYTDASQNKKDAYNNAVTTAQGIIDQTTSPTLDPTVINQAAGQVSTTKNALNGNENLEAAKQQASQSLGSLDNLNNAQKQTVTDQINGAHTVDEANQIKQNAQNLNTAMGNLKQAIADKDATKATVNFTDADQAKQQAYNTAVTNAENIISKANGGNATQAEVEQAIKQVNAAKQALNGNANVQHAKDEATALINSSNDLNQAQKDALKQQVQNATTVAGVNNVKQTAQELNNAMTQLKQGIADKEQTKADGNFVNADPDKQNAYNQAVAKAEALISATPDVVVTPSEITAALNKVTQAKNDLNGNTNLATAKQNVQHAIDQLPNLNQAQRDEYSKQITQATLVPNVNAIQQAATTLNDAMTQLKQGIANKAQIKGSENYHDADTDKQTAYDNAVTKAEELLKQTTNPTMDPNTIQQALTKVNDTNQALNGNQKLADAKQDAKTTLGTLDHLNDAQKQALTTQVEQAPDIATVNNVKQNAQNLNNAMTNLNNALQDKTETLNSINFTDADQAKKDAYTNAVSHAEGILSKANGSNASQTEVEQAMQRVNEAKQALNGNDNVQRAKDAAKQVITNANDLNQAQKDALKQQVDAAQTVANVNTIKQTAQDLNQAMTQLKQGIADKDQTKASGNFVNADTDKQNAYNNAVAHAEQIISGTPNANVDPQQVAQALQQVNQAKGDLNGNHNLQVAKDNANTAIDQLPNLNQPQKTALKDQVSHAELVTGVNAIKQNADALNNAMGTLKQQIQANSQVPQSVDFTQADQDKQQAYNNAANQAQQIANGIPTPVLTPDTVTQAVTTMNQAKDALNGDEKLAQAKQEALANLDTLRDLNQPQRDALRNQINQAQALATVEQTKQNAQNVNTAMSNLKQGIANKDTVKASENYHDADADKQTAYTNAVSQAEGIINQTTNPTLNPDEITRALTQVTDAKNGLNGEAKLATEKQNAKDAVSGMTHLNDAQKQALKGQIDQSPEIATVNQVKQTATSLDQAMDQLSQAINDKAQTLADGNYLNADPDKQNAYKQAVAKAEALLNKQSGTNEVQAQVESITNEVNAAKQALNGNDNLANAKQQAKQQLANLTHLNDAQKQSFESQITQAPLVTDVTTINQKAQTLDHAMELLRNSVADNQTTLASEDYHDATAQRQNDYNQAVTAANNIINQTTSPTMNPDDVNGATTQVNNTKVALDGDENLAAAKQQANNRLDQLDHLNNAQKQQLQSQITQSSDIAAVNGHKQTAESLNTAMGNLINAIADHQAVEQRGNFINADTDKQTAYNTAVNEAAAMINKQTGQNANQTEVEQAITKVQTTLQALNGDHNLQVAKTNATQAIDALTSLNDPQKTALKDQVTAATLVTAVHQIEQNANTLNQAMHGLRQSIQDNAATKANSKYINEDQPEQQNYDQAVQAANNIINEQTATLDNNAINQAATTVNTTKAALHGDVKLQNDKDHAKQTVSQLAHLNNAQKHMEDTLIDSETTRTAVKQDLTEAQALDQLMDALQQSIADKDATRASSAYVNAEPNKKQSYDEAVQNAESIIAGLNNPTINKGNVSSATQAVISSKNALDGVERLAQDKQTAGNSLNHLDQLTPAQQQALENQINNATTRGEVAQKLTEAQALNQAMEALRNSIQDQQQTEAGSKFINEDKPQKDAYQAAVQNAKDLINQTNNPTLDKAQVEQLTQAVNQAKDNLHGDQKLADDKQHAVTDLNQLNGLNNPQRQALESQINNAATRGEVAQKLAEAKALDQAMQALRNSIQDQQQTESGSKFINEDKPQKDAYQAAVQNAKDLINQTGNPTLDKSQVEQLTQAVTTAKDNLHGDQKLARDQQQAVTTVNALPNLNHAQQQALTDAINAAPTRTEVAQHVQTATELDHAMETLKNKVDQVNTDKAQPNYTEASTDKKEAVDQALQAAESITDPTNGSNANKDAVDQVLTKLQEKENELNGNERVAEAKTQAKQTIDQLTHLNADQIATAKQNIDQATKLQPIAELVDQATQLNQSMDQLQQAVNEHANVEQTVDYTQADSDKQNAYKQAIADAENVLKQNANKQQVDQALQNILNAKQALNGDERVALAKTNGKHDIDQLNALNNAQQDGFKGRIDQSNDLNQIQQIVDEAKALNRAMDQLSQEITDNEGRTKGSTNYVNADTQVKQVYDETVDKAKQALDKSTGQNLTAKQVIKLNDAVTAAKKALNGEERLNNRKAEALQRLDQLTHLNNAQRQLAIQQINNAETLNKASRAINRATKLDNAMGAVQQYIDEQHLGVISSTNYINADDNLKANYDNAIANAAHELDKVQGNAIAKAEAEQLKQNIIDAQNALNGDQNLANAKDKANAFVNSLNGLNQQQQDLAHKAINNADTVSDVTDIVNNQIDLNDAMETLKHLVDNEIPNAEQTVNYQNADDNAKTNFDDAKRLANTLLNSDNTNVNDINGAIQAVNDAIHNLNGDQRLQDAKDKAIQSINQALANKLKEIEASNATDQDKLIAKNKAEELANSIINNINKATSNQAVSQVQTAGNHAIEQVHANEIPKAKIDANKDVDKQVQALIDEIDRNPNLTDKEKQALKDRINQILQQGHNGINNAMTKEEIEQAKAQLAQALQDIKDLVKAKEDAKQDVDKQVQALIDEIDQNPNLTDKEKQALKDRINQILQQGHNDINNAMTKEAIEQAKERLAQALQDIKDLVKAKEDAKNDIDKRVQALIDEIDQNPNLTDKEKQALKDRINQILQQGHNDINNALTKEEIEQAKAQLAQALQDIKDLVKAKEDAKNAIKALANAKRDQINSNPDLTPEQKAKALKEIDEAEKRALQNVENAQTIDQLNRGLNLGLDDIRNTHVWEVDEQPAVNEIFEATPEQILVNGELIVHRDDIITEQDILAHINLIDQLSAEVIDTPSTATISDSLTAKVEVTLLDGSKVIVNVPVKVVEKELSVVKQQAIESIENAAQQKINEINNSVTLTLEQKEAAIAEVNKLKQQAIDHVNNAPDVHSVEEIQQQEQAHIEQFNPEQFTIEQAKSNAIKSIEDAIQHMIDEIKARTDLTDKEKQEAIAKLNQLKEQAIQAIQRAQSIDEISEQLEQFKAQMKAANPTAKELAKRKQEAISRIKDFSNEKINSIRNSEIGTADEKQAAMNQINEIVLETIRDINNAHTLQQVEAALNNGIARISAVQIVTSDRAKQSSSTGNESNSHLTIGYGTANHPFNSSTIGHKKKLDEDDDIDPLHMRHFSNNFGNVIKNAIGVVGISGLLASFWFFIAKRRRKEDEEEELEIRDNNKDSIKETLDDTKHLPLLFAKRRRKEDEEDVTVEEKDSLNNGESLDKVKHTPFFLPKRRRKEDEEDVEVTNENTDEKVLKDNEHSPLLFAKRRKDKEEDVETTTSIESKDEDVPLLLAKKKNQKDNQSKDKKSASKNTSKKVAAKKKKKKAKKNKK

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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]

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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]