Mocis latipes granulovirus

Taxonomy: Viruses; Naldaviricetes; Lefavirales; Baculoviridae; Betabaculovirus

Average proteome isoelectric point is 6.61

Get precalculated fractions of proteins

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



Virtual 2D-PAGE plot for 145 proteins (isoelectric point calculated using IPC2_protein)

Get csv file with sequences according to given criteria:
        -     Method 

     -  kDa    
                                                                                      

* 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|A0A2I6UI14|A0A2I6UI14_9BBAC LEF-10 OS=Mocis latipes granulovirus OX=2072024 PE=4 SV=1
MM1 pKa = 7.69SDD3 pKa = 3.23VFEE6 pKa = 6.36DD7 pKa = 3.42ILDD10 pKa = 4.07GNVRR14 pKa = 11.84LVDD17 pKa = 3.44NKK19 pKa = 10.76YY20 pKa = 10.83LIFYY24 pKa = 9.69VLDD27 pKa = 3.78YY28 pKa = 11.63VDD30 pKa = 5.85DD31 pKa = 4.2EE32 pKa = 4.84ASANHH37 pKa = 5.21KK38 pKa = 9.61QIRR41 pKa = 11.84TSCFGTVDD49 pKa = 3.86AVCAVDD55 pKa = 5.23DD56 pKa = 4.83SSDD59 pKa = 3.59SMSVSSVSSKK69 pKa = 10.81LL70 pKa = 3.48

Molecular weight: 7.7 kDa
Isoelectric point according different methods:





Protein with the highest isoelectric point:
>tr|A0A161CD46|A0A161CD46_9BBAC Uncharacterized protein OS=Mocis latipes granulovirus OX=2072024 PE=4 SV=1
MM1 pKa = 7.42EE2 pKa = 3.98RR3 pKa = 11.84TGRR6 pKa = 11.84RR7 pKa = 11.84RR8 pKa = 11.84SRR10 pKa = 11.84SRR12 pKa = 11.84SRR14 pKa = 11.84SPQRR18 pKa = 11.84RR19 pKa = 11.84RR20 pKa = 11.84SYY22 pKa = 10.51RR23 pKa = 11.84RR24 pKa = 11.84RR25 pKa = 11.84SRR27 pKa = 11.84SASSGYY33 pKa = 9.45RR34 pKa = 11.84RR35 pKa = 11.84RR36 pKa = 11.84SRR38 pKa = 11.84SRR40 pKa = 11.84SGYY43 pKa = 8.48RR44 pKa = 11.84RR45 pKa = 11.84RR46 pKa = 11.84SRR48 pKa = 11.84SGQRR52 pKa = 11.84RR53 pKa = 11.84HH54 pKa = 6.31HH55 pKa = 6.2VNQYY59 pKa = 7.91VV60 pKa = 2.9

Molecular weight: 7.52 kDa
Isoelectric point according different methods:





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

145

0

145

40635

50

1162

280.2

32.34

Amino acid frequency

Ala

Cys

Asp

Glu

Phe

Gly

His

Ile

Lys

Leu

4.73 ± 0.146

2.537 ± 0.142

6.167 ± 0.112

5.318 ± 0.197

4.476 ± 0.146

3.522 ± 0.131

2.471 ± 0.116

6.509 ± 0.133

6.76 ± 0.256

9.566 ± 0.193

Met

Asn

Gln

Pro

Arg

Ser

Thr

Val

Trp

Tyr

2.579 ± 0.109

7.818 ± 0.148

3.652 ± 0.155

3.876 ± 0.123

4.39 ± 0.159

5.955 ± 0.142

6.231 ± 0.153

7.282 ± 0.135

0.866 ± 0.063

5.244 ± 0.192
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
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 2.0: Proteome Isoelectric Point Database Update. Nucleic Acids Res. 2021, doi: 10.1093/nar/gkab944 Contact: Lukasz P. Kozlowski