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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