| General Information: |
|
| Name(s) found: |
gi|9655951
[NCBI NR]
gi|15641462 [NCBI NR] |
| Description(s) found:
SHOW ONLY BEST |
|
| Organism: | Vibrio cholerae O1 biovar El Tor str. N16961 |
| Length: | 4558 amino acids |
Gene Ontology: |
|
| Cellular Component: | NONE FOUND |
| Biological Process: | NONE FOUND |
| Molecular Function: | NONE FOUND |
| Sequence: |
|
| Sequence: [PDR BLAST] [ProtParam] |
1 11 21 31 41 51
| | | | | |
1 MVFYLIPKRR VWLMGKPFWR SVEYFFTGNY SADDGNNNIV AIGFGGQIHA YGGDDHVTVG 60
61 SIGATVYTGS GNDTVVGGSA YLKVEDSTGH LIVKGAAGYA DINKSGDGNV SFAGAAGGVS 120
121 IDHLGNHGDV SYGGAAAYNG ITRKGLSGNV TFAGAGGYNA LWHETNQGNL SFTGAGAGNK 180
181 LDRTWSNRYQ GSHGDVTFDG AGAANSISSR VETGNITFRG AGADNHLVRK GKVGDITLQG 240
241 AGASNRIERT HQAEDVYTQT RGNIRFEGVG GYNSLYSDVA HGDIHFSGGG AYNTIIRKGS 300
301 GNDFAKEGMT NAKADEIVLT KAVMSGSWIG QDHHVTAVKS ASEPNTYLFA FADSTYTKIN 360
361 KVQLRNDPQT GELKYYSTAW YKEVNHLSNL ANQDISDNGG FTAVNINGAY TLSDLKVEHQ 420
421 QSVTVHAVEK SLTEYEWVTY ANGAVIDAKE VSLSDAKMGG HAIYADGTKV DVKAVKSNRQ 480
481 PNTYIYAKVL GPYTKIVVVE LANDPETGAL KYQARSWYKE GDHTANIANQ DISSATGYNP 540
541 MGKGGYSLSD LHYSVNAVRS TSETVADIEE YTDQTLFKPA NDSGESSGDV RFNGAGGGNV 600
601 IKSNVTRGNV HFNGGGIANV ILHSSQFGNT EFNGGGAANV IVKSGEEGDL TFRGAGLANV 660
661 LVHQSEQGKM DVYAGGAVNV LVRLGDGQYL AHLLAYGNIS VQKGSGDSRV VMLGGYNTHT 720
721 QIGSGNGLWL AAGGFNVMTQ VGKGDVAAVL AGGANVLTKM GEGELTSGML GGANVITHIS 780
781 NDDQLSNTTA VALGGANILT KKGKGNTLAV MGGGANVLTH VGDGTTTGVM VGGANILTKV 840
841 GNGDTTGILL GVGNVLTHVG DGQTLGVMGA AGNIFTKVGD GTSIAVMIGA GNIFTHVGEG 900
901 NAWALMGGLG NVFTKVGNGD ALALMVAEAN VFTHIGDGMS VALMLAKGNV ATKVGNGTTL 960
961 AAMVGNVNIF THIGHGSTFA AMIGQANIMT KVGNDLTAAL MVGKANIMTH VGDGTSLGLF1020
1021 AGEVNVMTKV GNGTTLAAMF GKANIMTHVG DGLTGVLALG EANIVTKLGD DFMGVVAAAK1080
1081 ANVVTHVGDA TTAAVLAGKG NILTKVGEGT TVGLLISDVG NVMTHVGDGT TIGIAKGKAN1140
1141 LITKVGDGLG VNVTWGQANV FTQVGDGDRY NFAKGEANLI TKVGDGQEVS VVQGEANIIT1200
1201 HVGNGDDYTG AWGKANVITK VGHGQNVVLA KGEANIVTQV GDGDSFNALW SKGNIVTKVG1260
1261 DGMQVTAAKG QANITTTVGN GLNVTAAYGD ANINTKVGDG VSVNVAWGKY NINTKVGDGL1320
1321 NVAVMKGKAN ANIHVGDGLN INASYAQNNV AIKVGNGDFY SLAVASSNTS SNKLSALFDN1380
1381 IKQTVLGVGG SQAINYLVQG DEASSSGTHK GRGAIATPEI TKLDGFQMDA IKEVSSDLGD1440
1441 SLTGSVTKVD TPDLNKMQHA LNVDDSSVQA PNLIVNGDFE LGEHGWQSTH GVEASYAGSV1500
1501 YGVEGEGHGA RVTELDTYTN TSLYQDLANL AQGEVIAVSF DFAKRAGLSN NEGIEVLWNG1560
1561 EVVFSSSGDE SAWQQKNLKL TAQAGSNRIE FKGTGHNDGL GYILDNVVAT SESSQQANAI1620
1621 REHATQNPAA QNALSDKERA EADRQRLEQE KQKQLDAVAG SQSQLESTDQ QALENNGQAQ1680
1681 RDAVKEESEA VTAELAKLAQ GLDVLDGQAT HTGESGDQWR NDFAGGLLDG VQSQLDDAKQ1740
1741 LANDKIAAAK QTLSDNNSKV KESVAKSEAG VAQGEQNRAG VEQDIADAQA DAEKRKADAL1800
1801 AKGKDAQQAE SDAHHAVNNA QSRGDRDVQL AENKANQAQA DAQGAKQNEG DRPDRQGVTG1860
1861 SGLSGNAHSV EGAGETDSHV NTDSQTNADG RFSEGLTEQE QEALEGATNA VNRLQINAGI1920
1921 RAKNSVSSMT SMFSETNSKS IVVPTKVSPE PERQEVTRRD VRISGVNLES LSAVQGSQPT1980
1981 GQLASKSVPG FKSHFASTSI GIENELSGLV VVLPKNSAQT FGYVHDSQGN PLFMLTKDMN2040
2041 QGGYSNPVGI NDIQGVNNWQ THTIELVTYP SEISDTAAVE SRKEAMLWLA KEFTDHINQS2100
2101 NHQSLPHLVS DDGRFTLVIS NSKHLIAAGN GTSIDAQGKT IGMTPSGQQA TMAISAKEFG2160
2161 TSSSPEVRLL ESAPWYQAGL RDEFLANAKN TTLDDPATAQ NVYAYLTSVY SKTADLAKEY2220
2221 GIYINDWDPA SEGFSPNAQG LTDPKVKNAW SILPRTKPVR MLELLSAEDS RYVRQQIAEK2280
2281 LKGTYSESLA KNVFEYFQYG GEVAGHGINN ATTGSVQQPE PAILFEFRSV PSALSDFVPK2340
2341 TASTVKVDVK ALDHFDSASR KAIITEVNAL VSGSEDFDAW YQEYRASKGQ PPVKNPKSSA2400
2401 SANHKAEWLM TQHAEQWAKI TAPYTDNHET LTSTKLASND KEELHALGET SNLENNKQQE2460
2461 NVASIINTML NDMLPFYALR TERNLLVQEG DEGFEVRAWP GTEDKSKTII LEDPEDAAQH2520
2521 KAIERFILAN FDNFEQMPDE LFLVDNKVIS HHEGRTHVLA QKVDGAWQYN ATVELMSVTE2580
2581 LLDAANVTGK IRGESYQQVI DALTDYHASI TEHADYEPES VEKLLNLRKK IEGYVLGHPD2640
2641 SGRVEAMNSL LNQVNTRLDE VSLLSVAEQT IQAQNSFSRL YDQLEAANLK ESKHLYLDQN2700
2701 GDFVTKGKGN LANIDLLGSR EAVLEKVKLT VSNEYGQTVA DTIFAGLSAK DLAKDGKGVD2760
2761 IAGLNKVHQA IEQHLSPVSA TLYIWKPSDH SALGHAALQI GQGRTQLEGQ AAADFNQQNY2820
2821 VSWWPLGSKS SNISNILNVA TKDQPDLKLR WSDFSQPAHQ NDTLEHDVAS EENDGFGLHD2880
2881 GDIKLKRFIE KLNAAKGIDA SFKEASEGYA SVLLGNPDML ETTSIPAHVF QPFVEQWNDT2940
2941 SYDMMDVAHR FAQELRLQAQ RSDDPELLEK RIGNVIRQFA ERALEEIETF KASQADQGRV3000
3001 FRINLEGLDV AAMQAEWHRL SNDPDARYQL LTKNCSSTVA KVLKAGGADK LIGHTWLPKF3060
3061 GVWTPTELFN FGQALQEAQL EIAAKKQSHQ VTDVLDALSG NEKPKENVAI ENDGTPPRDK3120
3121 ESLSPLTRFL NNELYGDKEA RRKIGEITQT LLDHAVEKGE SQKITLQGEA GRLTGYYHQG3180
3181 TAPSEGETSS PSGKVVLFLH GSGSSAEEQA SAIRNHYQKQ GIDMLAVNLR GYGESDGGPS3240
3241 EKGLYQDART MFNYLVNDKG IDPSNIIIHG YSMGGPIAAD LARYAAQNGQ AVSGLLLDRP3300
3301 MPSMTKAITA HEVANPAGIV GAIAKAVNGQ FSVEKNLEGL PKETSILLLT DNEGLGNEGE3360
3361 KLRTKLTASG YNVTGEQTFY GHEASNRLMS QYADQIVSGL SSSASVDEDL DQQGLDTTST3420
3421 KDQGISNKND HLQVVDSKEA LADGKILHNQ NVNSWGPITV TPTTDGGETR FDGQIIVQME3480
3481 NDPVVAKAAA NLAGKHAESS VVVQLDSDGN YRVVYGDPSK LDGKLRWQLV GHGRDHSETN3540
3541 NTRLSGYSAD ELAVKLAKFQ QSFNQAENIN NKPDHISIVG CSLVSDDKQK GFGHQFINAM3600
3601 DANGLRVDVS VRSSELAVDE AGRKHTKDAN GDWVQKAENN KVSLSWDAQG EVVAKDERIR3660
3661 NGIAEGDIDL SRIGVNNVDE PARGAIGDNN DVFDAPEKRK PETEVIANSS SSNQFSYSGN3720
3721 IQVNVGEGEF TAVNWGTSNV GIKVGTGGFK SLAFGDNNVM VHIGDGESKH SVXIGGYQAL3780
3781 EGAQMFLGNR NVSFNFGHSN DLILMMDKSI PTPPLVNPFD GAARISGVLQ GIATSGEGED3840
3841 WLAAQEQQWT LSGAKKFVKD MSGLDQSSSV DYTTLVELDS QNERDSRGLK HDAEATLNKQ3900
3901 YNQWLSGNGN SGTSQLSRAD KLRQANEKLA FNFAVGGQGX DIQVTTGXWN FMFGDNIQSI3960
3961 LDTNLGSLFG LMTQQFTATG QAKTTFTYTP QDLPRQLKNK LLGQLAGVGA ETTLADIFGV4020
4021 DYTASGQIVS RNGQAVDGVA ILKEMLEVIG EFSGDQLQAF VDPAKLLDSL KAGIDMGADG4080
4081 IKSFAETHGL KEKAPEEEKD NSSVSVNGAN VNSAQGATVA DGNTETAETQ DRAFGFNSLN4140
4141 LPNLFATIFS QDKQKEMKSL VENLKQNLTA DLLNMKEKTF DFLRNSGHLQ GDGDINISLG4200
4201 NYNFNWGGDG KDLGAYLGDN NNFWGGRGDD VFYATGKSNI FTGGEGNDMG VLMGRENMMF4260
4261 GGDGNDTAVV AGRINHVFLG AGDDQSFVFG EGGEIDTGSG RDYVVTSGNF NRVDTGDDQD4320
4321 YSVTIGNNNQ VELGAGNDFA NIFGNYNRIN AGAGNDVVKL MGYHAVLNGG DGDDHLIATA4380
4381 ISKFSQFNGG EGRDLMVLGG YQNTFKGGTD VDSFVVSGDV IDNLVEDIRS EDNIVFNGID4440
4441 WQKLWFERSG YDLKLSILRD PSNDSDQSKF EHIGSVTFSD YFNGNRAQVV IGMSEKDLSG4500
4501 EREYTMLSDS AIDALVQAMS GFEPQAGDNG FIDSLESKSQ AAISMAWSDV VHKKGLMV |
NOT SHOWING SINGLE HITS. [ Show Single Hits ]
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| Protein predicted to be: | GLOBULAR (No transmembrane regions or signal peptide) |
| Confidence of classification: | 0.97 |
Source: Reynolds et al. (2008)