Search Results

You are looking at 61 - 70 of 97 items for :

  • "heat shock proteins" x
  • Refine by Access: All x
Clear All
Open access

Xu-Wen Jiang, Cheng-Ran Zhang, Wei-Hua Wang, Guang-Hai Xu, and Hai-Yan Zhang

. 119 50 58 Christou, A. Filippou, P. Manganaris, G.A. Fotopoulos, V. 2014 Sodium hydrosulfide induces systemic thermotolerance to strawberry plants through transcriptional regulation of heat shock proteins and aquaporin BMC Plant Biol. 14 42 Dai, L

Free access

Eric Watkins, Bingru Huang, and William A. Meyer

of various heat-shock proteins), heat-tolerant creeping bentgrass plants were able to resume normal protein synthesis earlier than the nontolerant plants. To select properly for heat-tolerant cultivars in a breeding program, a focus on morphological

Free access

Karl Guillard and John C. Inguagiato

783 Wang, K. Zhang, X. Ervin, E. 2013 Effects of nitrate and cytokinin on creeping bentgrass under supraoptimal temperatures J. Plant Nutr. 36 1549 1564 Wang, K. Zhang, X. Goatley, M. Ervin, E. 2014 Heat shock proteins in relation to heat stress

Free access

Hui-juan Zhou, Zheng-wen Ye, Ming-shen Su, Ji-hong Du, and Xiong-wei Li

eating quality during refrigerated storage. Table 1. Effect of heat-shock protein on fruit quality during refrigerated storage. Discussion Heat treatment inhibits soluble-protein anabolic processes ( Lurie et al., 2005 ). In this study, soluble protein

Free access

Maria E. Monzon, Bill Biasi, Elizabeth J. Mitcham, Shaojin Wang, Juming Tang, and Guy J. Hallman

authors have reported that heat treatments can induce chilling tolerance in fruits ( Burmeister et al., 1997 ; Woolf et al., 1997 ) perhaps as a result of formation of heat shock proteins (HSPs), as has been shown in tomato ( Lurie and Klein, 1991 ) and

Free access

Da Man, Yong-Xia Bao, Lie-Bao Han, and Xunzhong Zhang

Regulat. 23 79 103 Hu, X.L. Liu, R.X. Li, Y.H. Wang, W. Tai, F.J. Xue, R.L. Li, C.H. 2010 Heat shock protein 70 regulates the abscisic acid-induced antioxidant response of maize to combined drought and heat stress Plant Growth Regulat. 60 225 235 Itai, C

Open access

Thalukanyo Nevhulaudzi, Khayalethu Ntushelo, and Sheku Alfred Kanu

plants have been linked to the production of heat shock proteins; in wheat plants, heat shock was associated with the reduction of grain yield and translocation of photosynthates to grains as well as starch synthesis ( Acevedo et al., 2002 ; Barlow et al

Free access

Kemin Su, Justin Q. Moss, Guolong Zhang, Dennis L. Martin, and Yanqi Wu

abscisic acid Crop Sci. 42 202 207 Kang, H. Park, K. Saltveit, M.E. 2005 Chilling tolerance of cucumber ( Cucumis sativus ) seedling radicles is affected by radicle length, seedling vigor, and induced osmotic-and heat-shock proteins Physiol. Plant. 124 485

Free access

Suping Zhou, Roger J. Sauvé, Zong Liu, Sasikiran Reddy, Sarabjit Bhatti, Simon D. Hucko, Yang Yong, Tara Fish, and Theodore W. Thannhauser

. Althan, L. Shaked, R. Freedman, M. Shen, S. Firon, N.J. 2009 Transcriptional profiling of maturing tomato ( Solanum lycopersicum L.) microspores reveals the involvement of heat shock proteins, ROS scavengers, hormones, and sugars in the heat stress

Free access

Harpartap S. Mann, Jennifer J. Alton, SooHee Kim, and Cindy B.S. Tong

shown). They were not quantified because they were deemed to be unimportant in fruit softening based on their sequence similarities to heat shock protein and 6-phosphogluconolactonase, respectively. Patterns of expression for cDNAs 183 and 198 in