Plant proteome changes under abiotic stress—contribution of proteomics studies to understanding plant stress response K Kosová, P Vítámvás, IT Prášil, J Renaut Journal of proteomics 74 (8), 1301-1322, 2011 | 957 | 2011 |
Handbook of plant and crop stress M Pessarakli CRc press, 2019 | 770 | 2019 |
Plant abiotic stress proteomics: the major factors determining alterations in cellular proteome K Kosová, P Vítámvás, MO Urban, IT Prášil, J Renaut Frontiers in plant science 9, 122, 2018 | 335 | 2018 |
Handbook of plant and crop physiology M Pessarakli Marcel Dekker, 2002 | 302 | 2002 |
Complex phytohormone responses during the cold acclimation of two wheat cultivars differing in cold tolerance, winter Samanta and spring Sandra K Kosová, IT Prášil, P Vítámvás, P Dobrev, V Motyka, K Floková, O Novák, ... Journal of plant physiology 169 (6), 567-576, 2012 | 287 | 2012 |
Protein contribution to plant salinity response and tolerance acquisition K Kosová, IT Prášil, P Vítámvás International journal of molecular sciences 14 (4), 6757-6789, 2013 | 259 | 2013 |
The role of dehydrins in plant response to cold K Kosová, P Vítámvás, IT Prášil Biologia plantarum 51, 601-617, 2007 | 259 | 2007 |
Enhanced drought and heat stress tolerance of tobacco plants with ectopically enhanced cytokinin oxidase/dehydrogenase gene expression H Macková, M Hronková, J Dobrá, V Turečková, O Novák, Z Lubovská, ... Journal of experimental botany 64 (10), 2805-2815, 2013 | 244 | 2013 |
Wheat and barley dehydrins under cold, drought, and salinity–what can LEA-II proteins tell us about plant stress response? K Kosová, P Vítámvás, IT Prášil Frontiers in Plant Science 5, 343, 2014 | 190 | 2014 |
Biological networks underlying abiotic stress tolerance in temperate crops—a proteomic perspective K Kosová, P Vítámvás, MO Urban, M Klíma, A Roy, IT Prášil International journal of molecular sciences 16 (9), 20913-20942, 2015 | 149 | 2015 |
The use of a conductivity measurement method for assessing freezing injury: I. Influence of leakage time, segment number, size and shape in a sample on evaluation of the degree … I Prášil, J Zámečnı́k Environmental and Experimental Botany 40 (1), 1-10, 1998 | 141 | 1998 |
Proteome Analysis of Cold Response in Spring and Winter Wheat (Triticum aestivum) Crowns Reveals Similarities in Stress Adaptation and Differences in … K Kosová, P Vítámvás, S Planchon, J Renaut, R Vanková, IT Prášil Journal of Proteome Research 12 (11), 4830-4845, 2013 | 124 | 2013 |
Proteomics of stress responses in wheat and barley—search for potential protein markers of stress tolerance K Kosová, P Vítámvás, IT Prášil Frontiers in plant science 5, 711, 2014 | 119 | 2014 |
Analysis of proteome and frost tolerance in chromosome 5A and 5B reciprocal substitution lines between two winter wheats during long‐term cold acclimation P Vítámvás, IT Prášil, K Kosová, S Planchon, J Renaut Proteomics 12 (1), 68-85, 2012 | 98 | 2012 |
Role of dehydrins in plant stress response K Kosová, IT Prášil, P Vítámvás Handbook of plant and crop stress, fourth edition, 175-196, 2019 | 95 | 2019 |
Relationships among vernalization, shoot apex development and frost tolerance in wheat ITOM PRÁŠIL, P PRÁŠILOVÁ, K PÁNKOVÁ Annals of Botany 94 (3), 413-418, 2004 | 95 | 2004 |
Plant proteome responses to salinity stress–comparison of glycophytes and halophytes K Kosová, P Vítámvás, MO Urban, IT Prášil Functional Plant Biology 40 (9), 775-786, 2013 | 90 | 2013 |
Quantitative analysis of proteome extracted from barley crowns grown under different drought conditions P Vítámvás, MO Urban, Z Škodáček, K Kosová, I Pitelková, J Vítámvás, ... Frontiers in plant science 6, 479, 2015 | 76 | 2015 |
Comparative study of direct and indirect evaluations of frost tolerance in barley IT Prášil, P Prášilová, P Mařík Field Crops Research 102 (1), 1-8, 2007 | 75 | 2007 |
The relationship between vernalization-and photoperiodically-regulated genes and the development of frost tolerance in wheat and barley K Kosová, IT Prášil, P Vítámvás Biologia plantarum 52, 601-615, 2008 | 72 | 2008 |