Albumin-1 chain a; A1b binds to basic 7S globulin (BG) and stimulates its phosphorylation activity. Involved in the signal transduction system to regulate the growth and differentiation as a hormone peptide.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Albumin-1 chain a; A1b binds to basic 7S globulin (BG) and stimulates its phosphorylation activity. Involved in the signal transduction system to regulate the growth and differentiation as a hormone peptide.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Albumin-1 chain a; A1b binds to basic 7S globulin (BG) and stimulates its phosphorylation activity. Involved in the signal transduction system to regulate the growth and differentiation as a hormone peptide.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Uncharacterized protein.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Kunitz trypsin protease inhibitor.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Uncharacterized protein.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Uncharacterized protein.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Endoglucanase.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Uncharacterized protein.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Bowman-Birk type proteinase inhibitor; Inhibitor of trypsin and of chymotrypsin; Belongs to the Bowman-Birk serine protease inhibitor family.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Trypsin inhibitor subtype A.

Uncharacterized protein.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Kunitz trypsin protease inhibitor.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Kunitz trypsin protease inhibitor.

Bowman-Birk type proteinase inhibitor; Inhibitor of trypsin and of chymotrypsin; Belongs to the Bowman-Birk serine protease inhibitor family.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Albumin-1 chain a; A1b binds to basic 7S globulin (BG) and stimulates its phosphorylation activity. Involved in the signal transduction system to regulate the growth and differentiation as a hormone peptide.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Probable aspartic proteinase GIP1; Involved in plant defense against Phytophtora sojae. Contributes positively to soybean resistance against P.sojae. Binds the P.sojae xyloglucanase XEG1 and inhibits its cell wall degrading enzyme activity and its contribution as P.sojae virulence factor. XEG1 acts as an important virulence factor during P.sojae infection but also acts as a pathogen-associated molecular pattern (PAMP) in soybean and solanaceous species, where it can trigger defense responses including cell death.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Uncharacterized protein.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Bowman-Birk type proteinase inhibitor; Inhibitor of trypsin and of chymotrypsin; Belongs to the Bowman-Birk serine protease inhibitor family.

Glycinin A4 subunit; Glycinin is the major seed storage protein of soybean. Glycinin basic peptides (GBPs), and, to a lower extent, glycinin exhibit antibacterial activity against Gram-negative and Gram-positive bacteria (e.g. L.monocytogenes, B.subtilis, E.coli and S.enteritidis) by forming pores and aggregating in transmembranes, leading to membrane permeability and, eventually, cell death.

Trypsin inhibitor subtype A.