Research Article

Proteome analysis of tobacco leaves reveals dynamic changes in protein expression among different cultivation areas

Published: November 30, 2015
Genet. Mol. Res. 14 (4) : 15276-15284 DOI: https://doi.org/10.4238/2015.November.30.3
Cite this Article:
L.M. Lu, K.Y. Ye, Z.X. Tang, L. Liu, Y. Chen, J. Luo, Y.B. Huang (2015). Proteome analysis of tobacco leaves reveals dynamic changes in protein expression among different cultivation areas. Genet. Mol. Res. 14(4): 15276-15284. https://doi.org/10.4238/2015.November.30.3
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Abstract

The leaves of tobacco plants were used to analyze differences in protein content of tobacco grown in the four main flue-cured tobacco-producing areas of Sichuan Province, China. An improved protein extraction method, isoelectric focusing/sodium dodecyl sulfate-polyacrylamide gel electrophoresis two-dimensional gel electrophoretic separation, was used to extract and separate total protein from tobacco leaves. Proteomic maps with relatively high resolution and repeatability were produced. At isoelectric points 4 to 7 and molecular weight ranging from 20-100 kDa, we detected 1032, 1030, 1019, and 1011 clearly visible protein spots in tobacco leaves from the four study areas. Proteome comparison between these protein spots showed that 119 spots with a greater than 2-fold change in expression quantity contributed to the variation in expression. Of which, 115 were successfully identified and annotated. According to the annotation results, these proteins participate in photosynthesis, energy metabolism, mineral nutrition, terpene metabolism, defensive reaction, and other physiological and biochemical processes. This study preliminarily explains the effects of ecological conditions on the physiological metabolism of tobacco leaves and how such effects directly or indirectly contribute to tobacco leaf quality.

The leaves of tobacco plants were used to analyze differences in protein content of tobacco grown in the four main flue-cured tobacco-producing areas of Sichuan Province, China. An improved protein extraction method, isoelectric focusing/sodium dodecyl sulfate-polyacrylamide gel electrophoresis two-dimensional gel electrophoretic separation, was used to extract and separate total protein from tobacco leaves. Proteomic maps with relatively high resolution and repeatability were produced. At isoelectric points 4 to 7 and molecular weight ranging from 20-100 kDa, we detected 1032, 1030, 1019, and 1011 clearly visible protein spots in tobacco leaves from the four study areas. Proteome comparison between these protein spots showed that 119 spots with a greater than 2-fold change in expression quantity contributed to the variation in expression. Of which, 115 were successfully identified and annotated. According to the annotation results, these proteins participate in photosynthesis, energy metabolism, mineral nutrition, terpene metabolism, defensive reaction, and other physiological and biochemical processes. This study preliminarily explains the effects of ecological conditions on the physiological metabolism of tobacco leaves and how such effects directly or indirectly contribute to tobacco leaf quality.