He C M, Yang A F, Zhang W W, Gao Q, Zhang J R. Improved salt tolerance of transgenic wheat by introducing betA gene for glycinebetaine synthesis[J]. Plant Cell Tissue Organ Culture, 2010, 101(1): 65-78
Horn G, Hofweber R, Kremer W, Kalbitzer H R. Structure and function of bacterial cold shock proteins[J]. Cellullar and Molecular Life Sciences,2007,64(12):1457-1470
[15]
Weber M H, Marahiel M A. Bacterial cold shock responses[J]. Science Progress,2003,86(1):9-75
[16]
Lopez M M, Yutani K, Makhatadze G I. Interactions of the cold Shock protein CspB from Bacillus subtilis with single-stranded DNA: Importance of the T base content and position within the template [J]. Journal of Biological Chemistry, 2001,276(18):15511-15518
Paolo C, Dave W, Robert J B, Don C A,Jay H,Martin S, Mark A, Ganesh K, Sara S, Robert D, Santiago N, Stephanie B, Mary F, Jayaprakash T, Santanu D,Christopher B, Michael H L,Jacqueline E H. Bacterial RNA chaperones confer abiotic stress tolerance in plants and improved grain yield in maize under water-limited condition [J]. Plant Physiology, 2008, 147(2):446-455
Dias A S, Barreiro M G, Campos P S, Ramalho J C, Lidon F C. Wheat cellular membrane hermotolerance under heat stress. Journal of Agronomy and Crop Science [J]. 2010, 196(2): 100-108
Maestri E, Klueva N, Perrotta C, Gulli M, Nguyen H T,Marmiroli N. Molecular genetics of heat tolerance and heat shock proteins in cereals[J]. Plant Molecular Biology, 2002,48(5/6): 667-681
[23]
Murakami Y, Tsuyama M, Kobayashi Y, Kodama H, Iba K, Trienoic fatty acids and plant tolerance of high temperature[J]. Science, 2000, 287(5452): 476-479
[24]
Zhang M, Barg R, Yin M, Dahan Y G, Frenkel A L, Salts Y,Shabtai S, Hayyim G B, Modulated fatty acid desaturation via overexpression of two distinct ω-3 desaturases differentially alters tolerance to various abiotic stresses in transgenic tobacco cells and plants[J]. The Plant Journal,2005, 44(3): 361-371
[25]
Hunger K, Beckering C L, Wiegeshoff F, Graumann P L, Marahiel M A. Cold-induced putative DEAD box RNA helicases CshA and CshB are essential for cold adaptation and interact with Cold Shock Protein B in Bacillus subtilis[J]. Journal of Bacteriology, 2006, 188(1): 240-248
[26]
Mascarenhas J, Weber M H, Graumann P L.Specific polar localization of ribosomes inBacillus subtilis depends on active transcription[J]. EMBO Reports, 2001,2:685-689
[27]
Weber M H, Volkov A V, Fricke I, Marahiel M A, Graumann P L. Localization of cold shock proteins to cytosolic spaces surrounding nucleoids in Bacillus subtilis depends on active transcription[J]. Journal of Bacteriology, 2001,183(21):6435-6443
[28]
Schroder K, Graumann P, Schnuchel A, Holak T A, Marahiel M A. Mutational analysis of the putative nucleic acid-binding surface of the cold-shock domain, CspB, revealed an essential role of aromatic and basic residues in binding of single-stranded DNA containing the Y-box motif[J]. Molecular Microbiology,1995, 16(4):699-708
