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Table 1 Proteins carrying potential redox-sensitive cysteine residues in rice cultured cells expressing CA-OsRac1 or DN-OsRac1 or in PBZ-treated cultured cells

From: Disulfide proteomics of rice cultured cells in response to OsRacl and probenazole-related immune signaling pathway in rice

Spot Numbera Protein name Accession Number Gene Name Identified peptide Coverage (%) MWb plb Predicted disulfide bondc Locus name
1 Alpha-amylase isozyme 3E P27934 AMY3E/AMY1.4 3 12 45 4.769 9–109 Os08g0473600
2 Alpha-amylase isozyme 3E P27934 AMY3E/AMY1.4 6 21.4 45 4.88 9–109 Os08g0473600
3 Alpha-amylase isozyme 3E P27934 AMY3E/AMY1.4 6 12 44.3 4.975 9–109 Os08g0473600
4 L-Ascorbate Peroxidase 1, cytosolic Q10N21 OsAPX1 3 22.8 28.34 4.26 32–168 Os03g0285700
5 Probable aldo-keto reductase 3 Q7XQ45 OsAKR 8 39 39.76 5.86 120–204 Os04g0339400
6 Probable aldo-keto reductase 3 Q7XQ45 OsAKR 8 35 39.29 6.04 120–204 Os04g0339400
7 Malate dehydrogenase, cytoplasmic Q7XDC8 OsMDH 3 14.8 37.4 6.06 79–330 Os10g0478200
8 Receptor for activation C kinase 1A P49027 OsRACK1A 10 24 35.6 6.23 150–203 Os01g0686800
9 Cold shock protein 2 Q84UR8 OsCSP2 3 25 20.3 6.46 140–150 Os08g0129200
10 Thioredoxin H1 Q0D840 OsTrxh1 7 45 10 5.19 11–43
40–43d
Os07g0186000
11 Receptor for activated C kinase 1A P49027 OsRACK1A 8 46.7 35.8 6.33 150–203 Os01g0686800
  1. aSpot Numbers are as given in Figs. 1 and 3
  2. bMolecular mass and pI are as given in Figs. 1 and 3
  3. cPredicted disulfide bonds were calculated using DiANNA1.1
  4. dDisulfide bond was predicted based on similarities