Burkholderiales bacterium JOSHI_001

Taxonomy: cellular organisms; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; unclassified Burkholderiales; unclassified Burkholderiales (miscellaneous)

Average proteome isoelectric point is 7.34

Get precalculated fractions of proteins

Acidic
pI < 6.8
6.8-7.4
pI > 7.4
Basic
    
All


Virtual 2D-PAGE plot for 4,891 proteins (isoelectric point calculated using IPC_method)

Get csv file with sequences according given criteria:
        -     Method 

     -  kDa    
                                                                                      

* You can choose from 18 different methods for calculating isoelectric point

Protein with the lowest isoelectric point:
>tr|H5WN38|H5WN38_9BURK VCBS repeat-containing protein
MASSHDNNVTGNHSNAGQQPLLVADVSPEMMSRGDRPAPALKPQASARDMAVDGSGLLNKQYTPVRLPAGKVVGVWGKAFRRGPNGELIPLAVGETVAKGDVIFTQQDGIVQIEGARTNLPRLAGVPTDTDTTISALERGAPQAVPGAGPQPGGLADELGPQIRVDRIVETLSPLALPASLVAAQTFGVV
NNNTDALPADAAPAAPEAVQDVAVTREDTAIAVPVIANDPSGAPLHVTAVNGVQLVQANGSLAQVPVTANGQPVSAANPAVGTVQLAPNGELQFTPVAGYNGPAAFNYVASNEAGQEVTAPVNITVLPVNDTPAATDDAYTTAPGQPVSIPIASNDTDPDNDRLTPTVINGLPIALGGQVVIVDPVTGKA
QGTVKLSPTGDLSFEPAPGFVGTVSFPYTVGDPTGATASATATIVVAQQDTKPLAGDDLATTPIDTPVTVSVGANDSTPDGAKPTVATLAGQPAVVGAPVTIPQGTVTLNPDGTVTFVPKPGFTGSFNVPYTVVDAAGNTAPASIVISVGANEAPSAESFTRTLGEDAPYILSPTDLGFADPDSHTLAAV
RIDTLPNAGQLLLDGKPLLAGQVVAVADIANGRLQFVPGLNESGTNYANFNFSVQDSYGAFATAPSSVTFNIEPVADGPQAAPDVFDTPEDTPVALPVLGNDTQPDGGALTVTQVAGQPISPTQPVTIVDPLTGVPQGTVTMAPDGSLSFTPVPGFNGTVNIPYQVTDETGKLASSVATVNIAGTEDPPV
ANDDLASTTAGTPVSVNLLGNDSDPDGVAPTVGTVNGQAVTPGATTTITLPQGTLVVDPAGQVTFTPNPGFSGPVSVPYTVTDAAGNTDSATLTINVGANAAPTGTDKTTSTPEDTPYTVTLADILGGYGDADGDALSNVRIDTVPASGTLVLNGVPVTPGQVVTRADIDAGKLSFVPRPNESGTPYGDF
TFSVQDSRGAFDEVPNRFVVNVTPVNDAPTARADFNSTTEETLLTVSAANGVIASGTFPGGRDSDVEGNPLTVVGVSTNGAQQPTGNVGTGVVGSFGVLTLNSDGSYTYLPDAATRDLLEGETRQDVFKYSVSDGQGGTTATTLTITIIGTSGEPVAAADVSTTPEDTPITIPVLANDVDRNGDPLTINS
VNGQPISEGSPVTITDPADPAKVLGTVELTPAGELVFTPAPGVSGPVQFPYTVQDPLGNVAQSTVTVNVLPVNDPPTANPDSFTTPEGTALPIALTANDSDPDGDKLTPTSINGLPIALGESVLIKDPVSGQPQGTVTLSPSGELTFTPAPGFSGPVTFPYTVGDPTGATSSSTVTINVTAVPQPPVAND
DLASTPIGTPVTVPLLANDSDPDGTPPVLQTIAGQPVVPGTPIVLPQGTLLPNPDGTVTFTPAPGFTGPVNIPYTVTDPQGNTDTATLTVNVGANTPPTGQDAVRTIVEDGSYTVLASDLGFADADGHQLAAVRIDTLPGNGQLLLGGVPVTAGQVINRADIVAGKLSFVPDLNENGDNYANFTFSVQDS
LGAFDTAPNRLTINVTPVEEPPLAKDDQFTVAEDTPLPLTLLANDSDPDGQPLKVTEIAGQPIAPGGSVTIKDPVTGLPQGTVSMAPDGSLTFTPAPDFSGPVSFPYTIADPQGNTDTAQATVNVTPVDEPPVAKDDLATTPLGTPVTVPLLANDSDPDGDPVTVATIAGQPATPGSTITLPEGTVTIDP
QGNLTFTPDPAFAGGPVNIPYTITDPQGNTAPAVLTVNVGENTPPTGQDGVKATPEDTPYVLKGTDFGFNDADLPDTFAGVRIDTLPANGLLALNGKPLAVGDVVPVADIAAGQLAFVPNPNENGAPYASFTFSVQDSRGAFDLAPNTLVINVTPVNDAPTAQADVNATTEGVTLTVSAADGVINSASLP
GGRDSDIDGDTLTVSAVGFNGVPGSVGAPIVGANGTLTLKADGSYSYTPNAATAALNAGESVKDVFTYSVSDGKGGTAQTTLTITVAGASNGGPVVTVPDDNGAQGGDNTIVEGGAPITGSFSISAPDGLSSVEVGGVLLTPAQLAALGTSPVAINTGEGTLTLTGFDPATGQVTYTYSAPPQTNPADVL
DSIPVVVTDTAGNSATDTLDILITDTAPVARADLNSIVEDAVLPATGNVISTGAGADTLAADPAQVATVRFGATAGTVGSPLAGAHGTLTLNPDGSYSYALNNADPAVQALNSGDSLTEVFTYVLRDADGDESTTTLTITINGATDGPPVIKVPDDNGAQAGDNSIVEGGAPISGSFTISAPDGLGSLSV
GGTVLTPAQLASLGAAPVAINTGEGTLTLTGFDPATGTVSYTYSAPAQTNPADVLDSIPVVVTDTAGRSVSDSLDILITDTAPVAVADVNSIVEDTAAPATGNVISTGAGTDTLGADLAQVATVNFGANPGTVGAPLAGAHGSLTLNPDGSYSYTLNNADPAVQALNAGESLTEVFTYVLRDADGDESTT
TLTITINGATDGPPVIKVPDDNGAQAGDNSIVEGGAPVSGSFTVSAPDGLGSLTVGGTVLTPAQLANLGTTPAVINTGEGTLTLTGFDPASGTVSYTYTAPAQTSLIDVLDSIPVVVTDRAGNSATDSLDILITDTAPVAVADVNSIVEDTAAPATGNVISTGAGTDTLGADLAQVATVNFGANPGTVGA
PLAGAHGSLTLNPDGSYSYTLNNADPAVQALNAGESLTEVFTYVLRDADGDESTTTLTITINGATDGPPVIKVPDDNGAQAGDNTIVEGGAPVSGSFTVSAPDGLGSLTVGGTVLTPAQLANLGTTPAVINTGEGTLTLTGFDPATGTVSYTYSAPAQTNPADVLDSIPVVVTDRAGNSATDSLDILITD
TAPVARADVNSIVEDTVAPATGNVISTGAGADTLGADLAQVATVNFGANPGTVGSPLAGAHGSLTLNPDGSYSYTLNNADPAVQALNAGESLTEVFTYVLRDADGDESTTTLNITISGATDGPPVIKVPDDNGAQAGDNTIVEGGTPLNGSFTVTTPDGLGSLSVGGTVLTPAQLANLGALPVAINTGEG
TLTLTGFDPATGTVRYTYSAPAQTNPADVLDSIPVVVTDRAGNSATDSLDILITDTAPAARPDVNSIGEDAVAPATGNVITTGAGADTLAADPAQVAGVSFNGAPGTVGAPIAGAHGALTLNPDGSYSYALNTADPAVQALRDAQSLTEVFTYVLRDADGDESTTTLTITINGSNDAPVVVPDVGRTPED
QPLNGNVLANDTDVDGPSLAVTAINVPGLGSFAPGATITFPTEGTLVIRADGSFTFNPAPNYNGPVPVVTYTVSDGTSPRDATLTLTVDPVNDAPAGTNNTLPGTEDTPVTIRPADFGFTDPDVGDTLAAVRIDTLPVATDGRLTLNGVPVTAGQVISRADLDAGLLRFEPALNRAGESIGAFNFSVQDS
GSPALFDPAPNRINFTLAPVNDPPVANDDIASTPINQAVTINVKANDTDPDNTPAELAVSSPVVDPALGTAVVNPDGTITFTPAANITGPVTITYTLTDPEGRSDIAVITVNVGTNNPPLGTDAARTIDEDTPYTLVASDFGFTDVDLGQTLASVRIDAVATNGRLQINGVNVVAGQVIPVASINAGLLR
FVPDLNENGNNYATFRFSVQDSAGSFDTLPNTFLFNVNPVNDAPVARADTGVTTEDLVLNVSAANGVITSTAVAAGRDTDVDLDSLSVSAVSFGANPGTVGSVLAGANGSLILSADGSYRYVPAASTNSLDDGESVQDVFTYTVSDGNGGIATSTLTITVTGTNDAPQLTADTKVTAEDTAVSDNVLAND
TDADVEALTVTGFTIAGVAGSFTPGQNASIPGVGTLVIQPNGDYTFTPALNFNGPAPLVTYTATDGTTPVSSTLTINVTPVNDPPVANDDSATTPINRPVTIDVKANDSDPDNSPAQLTVSNPVVNPAQGTAVVNPDGTITFTPANNVTGPVTITYTLTDPDGRTDTATITVNVGANTPPTGTDVTRTIA
EDGSYTVQPSDFGFADADVGQTLAAVRIDTLPGNGTLTLNGVAVTAGQVIPVAAIAAGQLRMAPDANENGNNYASFGFSVQDNAGAFDTAPNTFTLNVTPVNDDPVALADLGSTSEQTPLTVTAANGVIASAAVPAGRDSDVDGDTLNVSAVSFGANAGTVGLPLAGANGTLVLNANGSYTYTPAASTDT
LDSGESVVDVFNYTVSDGNGGLANTTLTITVTGTNDAPTVVADVGAAPEDTPIPGNVLANDSDVDGEPLSVASFSITGVPGSFAAGTTATIPGVGTLLIQANGDYLFTPVANFNGPVPVATYLATDGTASVPGTLTLNVTPVNDAPTGADKTITTAEDTPVTLSAADFGFADVDVGDALSAVRIDNLPAT
GSLTLNGSPVAAGTVVTVADINAGLLRYTAPLNANGVPLAGFDFSVRDSGTPANLFDLAPNRISFNVTPVNDAPSGADKLLNGTEDTPLTITAADFGFTDPDVGDTLAAVRIDVPPATGSLSFNGSPVLAGTVITVADINAGLLRYIPALNTNGAVASFDFSVRDSGSPALFDVAPNRISINLAAVNDPP
VANDDVAFTPINQAVTVNVKANDTDPDNTPAQLTVSNPVVNPALGTAVVNPDGTISFTPANNVTGPVTITYTLTDPSGASDTATITVNVGGNTPPTGADVTRTIAEDGSYTVLASDLGFADADAGQTLAAVRIDSLPGNGTLQLNGVNVVLGQTISVAAINAGQLRIAPDADENGNNYSNFTFSVQDNAG
AFDTAPNTFTLNVTPVNDAPSGADRTVSTAEDTPYTVSAADFGFTDPDLGDTLALVRIDSLPVSGTLQLNGANVVVGQSVTVADINAGLLRYLPPANNFGAPLASFTFSVRDSGTPALFDVAPNTLNITVTPVNDNPVANPDQGSTTENAVLTVTQANGVIASGTAPAGVDTDLDGDSLSVSAISFGATV
GAVGTPLAGANGSLTLNADGSYTYTPNAAANALDTGESVQDVFTYTVSDGKGGTAQTSLTITVNGSNDAPTVVADSNRGAEDNPLTGNVLTNDSDPDVEPLTVASFTITGVPGSFTAGSTATIPGVGSLIINANGSYSFTPVANFNGSVPQVTYVATDGTSNASTTLSLVIDPVNDAPAGTNKTISTSED
TPVTITAVDFGFSDPDVGDTMAAVRIDTLPATGSLTLNGVAVTPGQVISRADIDAGRLSYLPGLNLNGESLVGFNFSVQDSGSPALFDPVPNRLTVSVTPLNDPPVANDDNASTPINQAVTVNVKANDSDPDNTPAELTVSNPVVNPAQGTAVVNPDGTITFTPAANFTGAATITYTLTDLEGRSDTAVI
TVTVGANTPPTGADTARTILEDGSYTLLSGDFGFADADAGQTLAAVRIDTLPGNGTLTLNGVAVTAGQVIPVAAIAAGQLRMAPDANENGNNYASFGFSVQDNAGAFDTAPNTFTLNVTPVNDPPTGADKTLTTVEDTPLSVTAADFGFADLDPGDTLTAVRIDVLPATGSLQLNGAPVTAGTVVTVADI
NAGLLRYVPATNANGAPLASFDFSVRDSSLLFDTAPNRITVNVTPVNDAPSGADKTLSGTEDTPLTITAADFGFTDPDVGDTLAAVRIDVLPATGTLALNGTPVTAGTVITVADINAGLLRYTPALNANGTVASFDFSVRDSGSPALFDVAPNRISINLAAVNDPPVANDDSATTPINQPVTVNVKANDT
DPDNTPAQLTVSNPVVNPALGTAVVNPDGTITFTPAANVTGPVVITYTLTDPNGQFDTATLTVNVGANTPPTGADVTRTIAEDGNYTVLASDLGFADADAGQTLAAVRIDSLPAKGTLQLNGVNVVLGQTISVAAINAGQLRIAPAANENGNAYSNFSFSVQDNAGAFDAAPNTFTLNVTPVNDAPSGAD
KTVSTAEDTPYTVSAADFGFTDPDLGDTLALVRIDSLPVSGTLQLNGANVVVGQSVTVADINAGLLRYLPPANNFGAPLASFTFSVRDSGTPALFDVAPNTLNITVTPVNDNPVANPDQGSTTENAVLTVTQANGVIASGTAPAGVDTDVDGDSLSVSAISFGATAGTVGSSLAGAWGSLVLNANGSYTY
TPNAAANALDTGESVQDVFTYTVSDGKGGTAQTSLTITVNGSNDAPTVVADSNRGAEDNPLTGNVLTNDSDPDVEPLTVASFTITGVPGSFTAGSTATIPGVGSLVINANGSYTFTPTANFNGTVPQVTYVATDGTSNASTTLSLVIDPVNDAPAGTSKTITSAEDTPYTITAADFGFSDPDVGDTMTAV
RIDTLPASGSLTLNGVAVTAGTVVTIADINAGLLRYLPGANLNGESLVNFDFSVRDSGSPLLFDPVPNKLTFSITPVNDAPTANNDTAVATEDTALVLAPATLLLNDTDPDADPLTITSVQGAVNGTVALVGGNVVFTPATHYSGPASFTYTVRDVDGLTSTATVNLTVNAVADQPSLTVGSRAALLVVQ
NSWESVTSTSTTSEQVAATPFEGWTRVDTPDPNPGGTNALEFWTSGDTQQRQDLGNNIVVASAGNGEDFLELNNAASNVQTIGIQRSIATQAGMVYELSFDYAGRPGFGTTFTNVGIYVDGVLQQSYAGTSPQTFIDWQNIKFHFAGDGAAHVIQIRTDATAFDANGRGAFVDDVVISATQGVVAGNGVL
GAPTTIGLASYITAALVDGDGSESLSLAFAGLPTGATVTTAANPGGYAIAGGVITIPGAELASAQLNLPGSFTGHLSMGVTARATEGSNGSTATASATLELDVAPELSTVTNLPGDGLTNVIGTNTAETLTGGAAAEQLIGRDGNDVINANGGADTLDGGSGNDTLNGAAGTDALWGGAGNDNMSGGTES
DTFFWNLADRGAAGTPALDTISDFTVATPAAGGDVLNLKDLLIGEHTTGGVGNLQAYLDFDTTTTAGTTIIRISSTGGFTGGTYNAAAEDQRITLTGTDLRAGLGLAGTATDNQVLQELLNRGKLVTDN
Molecular weight: 697.83 kDa
Isoelectric point according different methods:






Protein with the highest isoelectric point:
>tr|H5WMP6|H5WMP6_9BURK 50S ribosomal protein L34
MKRTYQPSKIRRARTHGFLVRMKTRGGRAVINARRAKGRKRLSQV
Molecular weight: 5.29 kDa
Isoelectric point according different methods:






General Statistics

Number of major isoforms

Number of additional isoforms

Number of all proteins

Number of amino acids

Min. Seq. Length

Max. Seq. Length

Avg. Seq. Length

Avg. Mol. Weight

4,872

19

4,891

1,686,874

30

6,969

346.2

37.2 kDa

Amino acid frequency

Ala

Cys

Asp

Glu

Phe

Gly

His

Ile

Lys

Leu

Met

Asn

Gln

Pro

Arg

Ser

Thr

Val

Trp

Tyr

14.15

0.9

5.35

4.72

3.24

8.57

2.27

3.42

2.91

11.29

2.25

2.52

4.25

5.69

7.15

5.11

5.08

7.68

1.55

1.88

Note: For statistics only major isoforms were used (in this case 4,872 proteins)
For dipeptide frequency statistics click here
See this proteome in: uniprot_link
Proteome-pI is available under Creative Commons Attribution-NoDerivs license, for more details see here

Reference: Kozlowski LP. Proteome-pI: proteome isoelectric point database. Nucleic Acids Res. 2016. doi: 10.1093/nar/gkw978       Contact: Lukasz P. Kozlowski