Advances in Proteomics Research in Environmental Stress Response in Plants

409

TABLE 13.2 (Continued)

Plant Species

Organ Used for

Fractionation

Experimental

Condition

Technique

Used

No. of

Identified

DAP (Differentially Abundant Proteins)

References

Proteins

Chloroplasts

Arabidopsis

thaliana

Leaves

Cold

2D-DIGE

43

Up: AOC2; ATP synthase α, β, γ, δ, SHMT; FIB;

CAT-2, glyoxalase I, Trx m, PGM.

Goulas et al.

(2006)

Down: RubisCO activase (RCA), 2-Cys PrxA,B;

CA-1; PGK, PRK, quinone oxidoreductase

Zea mays

Leaves

1, 25 mM NaCl

2DE-MALDI­

TOF

12

Up: ferredoxin-NADP reductase, 23 kDa PSII,

FtsH-like; ATP synthase CF1ε.

Zorb et al.

(2009)

Down: ATP synthase CF1α, LHC a/b binding

protein

Glycine max

Leaves

Ozone stress

2DE­

MALDI-TOF/

MS

32

Down: RuBisCO activase, RuBisCO large and

small subunits, sedoheptulose-1,7-bisphosphatase,

chlorophyll a/b-binding protein, ferredoxin-NADP

reductase, Cytochrome c-553-like, Cytochrome

b6-f complex

Ahsan et al.

(2010)

Populus tremula

Leaves

Ozone stress

2-DE/MALDI

TOF MS

27

Down: ferredoxin-NADP+ oxidoreductase (FNR),

ATPase β subunit, RuBisCO activase, RuBisCO

large subunit, APX

Bohler et al.

(2011)

Triticum aestivum

Leaves

150 mM NaCl

2-DE/

LTQ-FTICR

65

Up: Rubisco, glutamate dehydrogenase,

glyceraldehyde-3-phosphate dehydrogenase,

isocitrate dehydrogenase, photosystem I, and

pyridoxal biosynthesis protein PDX1.2 and

PDX1.3.

Kamal et al.

(2012)

Down: ATP synthase α, β, γ, V-type proton

ATPase subunits