Bacillus virus BMBtp2
Average proteome isoelectric point is 6.81
Get precalculated fractions of proteins
Acidic
pI < 6.8
6.8-7.4
pI > 7.4
Basic
All
Note: above files contain also dissociation constants (pKa)
Virtual 2D-PAGE plot for 53 proteins (isoelectric point calculated using IPC2_protein)
Get csv file with sequences according to given criteria:
* You can choose from 21 different methods for calculating isoelectric point
Summary statistics related to proteome-wise predictions
Protein with the lowest isoelectric point:
>tr|K4LPB5|K4LPB5_9CAUD Uncharacterized protein OS=Bacillus virus BMBtp2 OX=1236573 GN=ISGA_34 PE=4 SV=1
MM1 pKa = 7.0 ITYY4 pKa = 10.77 LLGEE8 pKa = 4.53 FIYY11 pKa = 10.79 YY12 pKa = 10.07 LVVSTAVITPVVAGGVILLEE32 pKa = 4.2 KK33 pKa = 11.05 AEE35 pKa = 4.57 GIINNEE41 pKa = 4.11 SKK43 pKa = 11.26 QNMDD47 pKa = 3.31 EE48 pKa = 4.03
Molecular weight: 5.26 kDa
Isoelectric point according different methods:
IPC2.protein.svr19 3.99
IPC2_protein 4.368
IPC_protein 4.037
Toseland 3.91
ProMoST 4.037
Dawson 3.973
Bjellqvist 4.304
Wikipedia 3.859
Rodwell 3.884
Grimsley 3.846
Solomon 3.935
Lehninger 3.884
Nozaki 4.126
DTASelect 4.126
Thurlkill 3.961
EMBOSS 3.872
Sillero 4.139
Patrickios 1.914
IPC_peptide 3.948
IPC2_peptide 4.126
IPC2.peptide.svr19 4.149
Protein with the highest isoelectric point:
>tr|K4LRV3|K4LRV3_9CAUD Uncharacterized protein OS=Bacillus virus BMBtp2 OX=1236573 GN=ISGA_31 PE=4 SV=1
MM1 pKa = 7.67 GEE3 pKa = 4.39 FISRR7 pKa = 11.84 RR8 pKa = 11.84 AEE10 pKa = 3.97 CEE12 pKa = 3.38 RR13 pKa = 11.84 RR14 pKa = 11.84 TAQLQKK20 pKa = 10.75 VALQRR25 pKa = 11.84 AIKK28 pKa = 10.11 HH29 pKa = 5.83 IEE31 pKa = 3.83 AQAKK35 pKa = 9.48 INTRR39 pKa = 11.84 KK40 pKa = 10.14 KK41 pKa = 9.89 SGATARR47 pKa = 11.84 TITSKK52 pKa = 9.37 VTGEE56 pKa = 4.21 GQNLQAIVGGNDD68 pKa = 3.16 DD69 pKa = 3.72 NLIYY73 pKa = 10.85 EE74 pKa = 4.33 EE75 pKa = 4.97 FGTGIYY81 pKa = 9.55 SEE83 pKa = 4.34 KK84 pKa = 10.58 NGRR87 pKa = 11.84 KK88 pKa = 7.53 TPWKK92 pKa = 10.44 YY93 pKa = 10.74 KK94 pKa = 10.84 DD95 pKa = 3.06 KK96 pKa = 8.91 TTGKK100 pKa = 9.51 WYY102 pKa = 8.25 VTRR105 pKa = 11.84 GKK107 pKa = 10.51 KK108 pKa = 7.89 GTRR111 pKa = 11.84 AMRR114 pKa = 11.84 KK115 pKa = 9.42 AGEE118 pKa = 4.12 SSKK121 pKa = 11.21 GQVKK125 pKa = 9.94 QIIAQTMKK133 pKa = 10.99 GGMGKK138 pKa = 9.96
Molecular weight: 15.32 kDa
Isoelectric point according different methods:
IPC2.protein.svr19 9.203
IPC2_protein 9.648
IPC_protein 9.75
Toseland 10.672
ProMoST 10.204
Dawson 10.745
Bjellqvist 10.335
Wikipedia 10.862
Rodwell 11.33
Grimsley 10.774
Solomon 10.789
Lehninger 10.774
Nozaki 10.628
DTASelect 10.335
Thurlkill 10.643
EMBOSS 11.038
Sillero 10.657
Patrickios 11.052
IPC_peptide 10.804
IPC2_peptide 8.829
IPC2.peptide.svr19 8.692
Peptides (in silico digests for buttom-up proteomics)
Below you can find
in silico digests of the whole proteome with Trypsin, Chymotrypsin, Trypsin+LysC, LysN, ArgC proteases suitable for different mass spec machines.
Try ESI
ChTry ESI
ArgC ESI
LysN ESI
TryLysC ESI
Try MALDI
ChTry MALDI
ArgC MALDI
LysN MALDI
TryLysC MALDI
Try LTQ
ChTry LTQ
ArgC LTQ
LysN LTQ
TryLysC LTQ
Try MSlow
ChTry MSlow
ArgC MSlow
LysN MSlow
TryLysC MSlow
Try MShigh
ChTry MShigh
ArgC MShigh
LysN MShigh
TryLysC MShigh
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
53
0
53
10649
45
1786
200.9
22.89
Amino acid frequency
Ala
Cys
Asp
Glu
Phe
Gly
His
Ile
Lys
Leu
5.625 ± 0.555
0.864 ± 0.169
5.756 ± 0.301
8.461 ± 0.39
3.662 ± 0.16
7.005 ± 0.536
1.634 ± 0.189
6.799 ± 0.22
8.883 ± 0.416
7.137 ± 0.263
Met
Asn
Gln
Pro
Arg
Ser
Thr
Val
Trp
Tyr
3.484 ± 0.22
5.841 ± 0.261
2.761 ± 0.232
3.935 ± 0.262
4.958 ± 0.371
5.616 ± 0.26
6.132 ± 0.359
6.47 ± 0.344
1.305 ± 0.138
3.672 ± 0.388
Note: For amino acid frequency statistics the error has been estimated with the bootstraping (x100) at the protein level
Most of the basic statistics you can see at this page can be downloaded from this CSV file
For dipeptide frequency statistics click here