Psychroflexus torquis (strain ATCC 700755 / ACAM 623)
Average proteome isoelectric point is 6.6
Get precalculated fractions of proteins
Acidic |
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pI < 6.8 |
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6.8-7.4 |
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pI > 7.4 |
|
Basic |
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All |
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Virtual 2D-PAGE plot for 3,457 proteins (isoelectric point calculated using IPC_method)
Get csv file with sequences according given criteria:
* You can choose from 18 different methods for calculating isoelectric point
Protein with the lowest isoelectric point:>tr|K4IB75|K4IB75_PSYTT Large colossin-like cell wall protein with CnaB repeat domains
MRIITPTYLFLFIFLFINIGAFAQEEKSYTSNPFLPNPFESLLARFADPGTVTGKVYYDINNNGFQDAGEPGLEGVIIQFRRFPSGGSLDNVETDVNGNWSQNIQPGDIIYFIQPFGEDTADYADNLVITEGFGGGRATIDSNTTTDTGPTGYAFFKNVIGHLYFDENGNGTQDASEADMPDVDVVIEDF
LGDFVTVITDANGDWAAIINIGEFDVDIDNSDPDFPTGATQTEGTDLTTYQLSIDINNLPDNLLAPLFTENDGFFLSGELSGLLYDDLNNNGSQDPGEPGFENVNIIITTSLGDTITVPTDANGEWNSTVPVGLTTTEVDTSDPDFPSGVAQTEGTNPTTTTVILNQSFNEIDGFFKVGQLIGNLYFDLN
GNGTQDAAEPDMPNVDVDIVDGIGQTFVETTDADGEWSATVSTGTATATIDQNDPDFPTGATQTEGTDPTIYPVASGEIYSENSGFFQSGEVSGLLYDDLNNNGSQDPGEPGFINFNIDITNSLGETITVQTDANGEWSSIVPVGSTIIDVDNDPDFPNASQTEGTNPTTTTVIINQSFNEIDGFFKIAT
LSGHLYFDVNGNGIQDPTEPDMPDVDVEIVDGIGQTSIETTDVNGDWTINVSAGTATTTINQNDPQFPTGAEQTEGENPTVIQNVEIGETYSEIDGFYETGTLTGHLYFDENGNGAQEPSEEDMPNVDVEITDIFGVITELATDANGDWSLVLPQGDATSSIDQSDPDFPTGAAQTEGTDPTTTTVVTGQ
TVNEIDGFYETGTLTGHLYFDENGNGTQEPSEADMPNVDVEITDVFGVVTTLITNANGDWSIVLPQGIATSSIVRSDPDFPSGTAQTEGTDPTTTTIVSGETFNEIDGFFGTGTLTGHLYFDENGNGTQELSEADMPNVDVEITDIFGVITILVTDANGDWSKNLPLGNATSSIDQSDPDFPTGAAQTEG
DDPTITVILTGQTVNEIDGFFETGILMGHLYFDENGNGTQELSEADMPNVEVEITDVFGAVTTLVTDADGDWSLVLPQGDAISRIIRSDPDFPIGVTQTEGTDPTITTILGGQSLSEVDGFFVSGELTGHLYFDENGNGTQEPSEADMPNVDVEITDVFGDTTTLVTDANGDWSIGLSPGNATSNIDETD
PDFPTGAAQTEGTDPTTTAIVNGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPSEADMPNVDVEITDVFGVVTTLVTDAIGDWSIELSPGNAISNIDETDPDFPTGAAQTEGDNPTATTIVTGQTVNEIDGFYETGTLTGHLYFDENGNGTQEPSEADMPNVDVEITDVFGSVTTLVTDANGDWSLVLP
QGDAISSIVRSDPDFPAGAAQTEGDDPTTTTIVTGQTFNEIDGFYEIGTLTGHLYFDENGNGTQEPSEADMPNVDVEITDVFGAVTTLTTNANGDWSLVLPQGDATSSIVRSDPDFPTGAAQTEGDDPTTTAIVNGQTVNEIDGFFETGILTGHLYFDENGNGTQELSEADMPNVDVEITDSFSQVQTVT
TDANGDWSIGLSPGNATSNIDQADPDFPTGSTQTEGEDPTTTAIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPIEADMPNVEVEITDVFGAFTTLVSDANGDWSLVLPVGDATSSIVRSDPDFPSGAAQTEGTDPTTTTIITGQTFNEIDGFFETGILTGHLYFDENGNGTQEPSEADMPNVDVE
ITDSFSQVQTVTTDANGDWSIGLSPGNATSNIDENDPDFPTGATQTEGTDPTTTTIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPSEVDMPNVDVEITDVFGAVTTLVTDVNGDWTIELSPGNATSSIVRSDPDFPSGATQTEGTDPTTTAIVNGQTFNEIDGFYETGILTGHLYFDENGNGTQE
LSEADMPNVDVEITDSFSQVQTVTTDANGDWSIGLSPGNATSNIDENDPDFPTGATQTEGTDPTTTTIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEASEADMPNVDVEITDVFGAVTTLVTNANGDWSLVLPQGDAISSIVRSDPDFPTGAAQTEGTDPTTTTILTGQTFNEIDGFFETGTLTGH
LYFDENGNGTQEPSEADMPNVDVEITDVFGAVTTLVTNANGDWSIVLPQGNATSNIDETDPDFPTGAAQTEGTDPTTTTVVTGQTFNEIDGFYETGTLTGHLYFDINGNGTQEPTEPDMPNVDVEITDVFGAVTTLVSDADGDWSLVLPQGDATSSIVRSDPDFPTGAAQTEGTDPTTTTVVTGQTFNEI
DGFFETGILIGHLYFDENGNGTQEPSEIDMPNVDVEITDSFSQVQTVTTDANGDWSLVLPQGDAISSIVRSDPDFPTGATQTEGTDPTTTAIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPSEADMPDVDVEITDVFGAVTTLVTDANGDWSLVLPQGDAISSIVRSDPDFPTGAAQTEGTDPTT
TAIINGQTFNEIDGFFETGTLTGHLYFDENGNGTQEPSEADMPNVDVEITDSFSQVQTVTTNANGDWSLVLPQGDATSSIVRSDPDFPTGAAQTEGTDPTTTTVVTGQTFNEIDGFYETGTLTGHLYFDENGNGTQELSEADMPNVDVEITDVFGVVTTLVSDANGDWSIVLPQGDATSNIDEADPDFPT
GAAQTEGDDPTTTAIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPSEADMPNVEVEITDVFGAVTTLVTNANGDWSLVLPQGDATSSIVRSDPDFPTGAAQTEGTDPTTTAIVTGQTFNEIDGFFETGTLTGHLYFDENGNGTQEPSEADMPNVEVEITDVFGAVTTLVTNANGDWSLVLPQGDAT
SSIVRSDPDFPTGAAQTEGTDPTTTTVVTGQTVNEIDGFYETGSLAGHLYFDENGNGTQEPSESDMPNVDVEITDVFSLVQTVTTDANGDWSIVLPQGDATSSIVRSDPDFPTGAAQTEGTDPTTTTVVTGQTFNEIDGFFETGILTGHLYFDENGNGTQEPTEADMPNVDVEITDSFSQVQTVTTDANG
DWSLVLPQGDAISSIVRSDPDFPTGATQTEGDDPTTTTIVTGQTFNEIDGFFESGTLTGHLYFDENGNGTQELSEADMPNVDVEITDSFSQVQTVTTDANGDWSLVLPQGDATSSIVRSDPDFPTGAAQTEGDDPTTTAIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEPSEADMPDVDVEITDVF
GVVTTLVTDADGDWSIVLPQGDATSSIVRSDPDFPTGAAQTEGTDPTTTTVVTGQTFNEIDGFYESGILIGHLYFDENGNGTQEPSEIDMPNVDVEITDSFSQVQTVTTDANGDWSLVLPQGDATSSIVRSDPDFPTGVTQTEGTDPTTTAIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEASEAD
MPSVDVEITDSFSQVQTLTTDANGDWSLVLPQGDATSSIVRSDPDFPTGATQTEGDDPTTTTIVTGQTFNEIDGFYESGTLTGHLYFDENGNGTQEASEADMPNVDVEITDSFSQVQTVTTDANGDWSLVLPQGDAISSIVRSDPDFPTGAAQTEGDDPTTTTILTGQTFNEIDGFYESGTLTGHLYFDI
NGNGTQEPTEPDMPSVDVEITDVFGVVTTLITDANGDWSLVLPQGDATSNIDETDPDFPIGAAQTEGDDPTTTTIVNGQTFNEIDGFFESGTLTGHLYFDENGNGTQEPSEADMTDVDVEITDSFSQVQTVTTDANGDWSLVLPQGDATSSIVRSDPDFPTGATQTEGTDPTTTAIVTGQTFNEIDGFYE
SGTLTGHLYFDENGNGTQEPSEADMPDVDVEITDVFGALTTLVTDADGDWSIVLPQGDATSSIVRSDPDFPTGATQTEGDDPTTTTIVNGQTVNEIDGFFVSGELTGHLYFDENGNGTQEPSEIDMPNVDIEITDVFGATTTLVTDANGDWSIELSPGNATSSIVRSDPDFPTGATQTEGDDPTTTAIVT
GQTFNEIDGFYESGTLTGHLYFDENGNGTQDPIEPDMPNVDVEITDVFSQVQTVTTDANGDWSIDLPLGDATSNIDETDLDFPAGALLTEGTDPTITTILGGQTFNEIDGFFELGKLTGHLYFDLNGNGTQDSSEADMPNVDVVITDVFGTTTTLVTDANGDWNIDLPPGNATSDIDETDADFPIGSSQT
EGDDPTNTTIVIGQTFNEVDGFYELGILSGRLYFDNNGNGTQDTSEEGIPNVTLFVIDSFGDQLEVETNIDGDWDIEVIAGVTISEIDITDLDFPTDVTQTEGTNPTTTLVNAGSLVISDNDGFLIDDIIIYNAVSSEGSTFQNQFFRIEGIQNYPENSVQIFNRQGVKVFDVEGYGENNNKLFRGFSSG
NITIQKDERLPTGTYFYILNYINRNGTPERKNGYLHLN
Molecular weight: 467.95 kDa
Isoelectric point according different methods:
Protein with the highest isoelectric point:>tr|K4IJE2|K4IJE2_PSYTT 50S ribosomal protein L34
MKRTFQPSNKKRKNKHGFRERMSSVNGRKVLKRRRAKGRKKLSVSSEMSLRKR
Molecular weight: 6.39 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 |
3,447 |
10 |
3,457 |
1,139,476 |
31 |
4,408 |
330.6 |
37.5 kDa |
Amino acid frequency
Ala |
Cys |
Asp |
Glu |
Phe |
Gly |
His |
Ile |
Lys |
Leu |
Met |
Asn |
Gln |
Pro |
Arg |
Ser |
Thr |
Val |
Trp |
Tyr |
5.7 |
0.69 |
5.79 |
6.9 |
5.52 |
6.07 |
1.76 |
8.09 |
7.97 |
9.66 |
2.13 |
6.03 |
3.54 |
3.26 |
3.46 |
7.1 |
5.52 |
5.85 |
1.02 |
3.94 |
Note: For statistics only major isoforms were used (in this case 3,447 proteins)
For dipeptide frequency statistics click
here