1. Well-designed experiments make proteomic studies on stressed plants meaningful; Brian J. Atwell
2. Cereal Root Proteomics for Complementing the Mechanistic Understanding of Plant Abiotic Stress Tolerance; Jennylyn L. Trinidad, Herra L. Grajo, Jose B. Abucay Jr., Ajay Kohli1
3. A proteomic view of the cereal and vegetable crop response to salinity stress; Katja Witzel and Hans-Peter Mock
4. Proteomics of Flooding-Stressed Plants; Mudassar Nawaz Khan and Setsuko Komatsu
5. Proteomic analysis of crop plants under low temperature: a review of cold responsive proteins; Javad Gharechahi, Golandam sharifi, Setsuko Komatsu, and Ghasem Hosseini Salekdeh
6. How proteomics contributes to our understanding of drought tolerance? Mehdi Mirzaei, Yunqi Wu, Paul Worden, Ante Jerkovic, Brian J. Atwell
7. The impact of heat stress on the proteome of crop species; Andrew P Scafaro and Owen K Atkin
8. Proteomics approach for identification of nutrient deficiency related proteins in crop plants;
Mohammad-Zaman Nouri, Mohammad-Reza Ghaffari, Mohammad-Reza Hajirezaei, and Hamid Sobhanian
9. Plant response to bacterial pathogens: A proteomics view; Sheldon Lawrence II, Jennifer Parker, and Sixue Chen
10. Plant fungus interaction proteomics: an update; Kanika Narula, Pooja R. Aggarwal, Niranjan Chakraborty, and Subhra Chakraborty
11. Insight into physiological, molecular, and proteomic changes associated with phytoplasma infection in crop plants; Javad Gharechahi, Golandam Sharifi, Mohsen Mardi, and Ghasem Hosseini Salekdeh
12. Insect pest proteomics and its potential application in pest control management; Mehdi DastranJ, Javad Gharechahi, and Ghasem Hosseini Salekdeh
13. Proteomic Research on Honeybee Diseases; Yue Hao and Jianke Li
14. Application of Proteomic Biomarkers in Livestock Disease Management; Ehsan Oskoueian, Peter David Eckersall, Elena Bencurova, Thomas Dandekar