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Results:
1-14
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Results: 14
Authors:
Scharf, KD
Siddique, M
Vierling, E
Citation: Kd. Scharf et al., The expanding family of Arabidopsis thaliana small heat stress proteins and a new family of proteins containing alpha-crystallin domains (Acd proteins), CELL STR CH, 6(3), 2001, pp. 225-237
Authors:
van Montfort, RLM
Basha, E
Friedrich, KL
Slingsby, C
Vierling, E
Citation: Rlm. Van Montfort et al., Crystal structure and assembly of a eukaryotic small heat shock protein, NAT ST BIOL, 8(12), 2001, pp. 1025-1030
Authors:
Hong, SW
Vierling, E
Citation: Sw. Hong et E. Vierling, Hsp101 is necessary for heat tolerance but dispensable for development andgermination in the absence of stress, PLANT J, 27(1), 2001, pp. 25-35
Authors:
Salvucci, ME
Osteryoung, KW
Crafts-Brandner, SJ
Vierling, E
Citation: Me. Salvucci et al., Exceptional sensitivity of rubisco activase to thermal denaturation in vitro and in vivo, PLANT PHYSL, 127(3), 2001, pp. 1053-1064
Authors:
Sung, DY
Vierling, E
Guy, CL
Citation: Dy. Sung et al., Comprehensive expression profile analysis of the Arabidopsis hsp70 gene family, PLANT PHYSL, 126(2), 2001, pp. 789-800
Authors:
Torok, Z
Goloubinoff, P
Horvath, I
Tsvetkova, NM
Glatz, A
Balogh, G
Varvasovszki, V
Los, DA
Vierling, E
Crowe, JH
Vigh, L
Citation: Z. Torok et al., Synechocystis HSP17 is an amphitropic protein that stabilizes heat-stressed membranes and binds denatured proteins for subsequent chaperone-mediated refolding, P NAS US, 98(6), 2001, pp. 3098-3103
Authors:
Queitsch, C
Hong, SW
Vierling, E
Lindquist, S
Citation: C. Queitsch et al., Heat shock protein 101 plays a crucial role in thermotolerance in arabidopsis, PL CELL, 12(4), 2000, pp. 479-492
Authors:
Wehmeyer, N
Vierling, E
Citation: N. Wehmeyer et E. Vierling, The expression of small heat shock proteins in seeds responds to discrete developmental signals and suggests a general protective role in desiccationtolerance, PLANT PHYSL, 122(4), 2000, pp. 1099-1108
Authors:
Lee, GJ
Vierling, E
Citation: Gj. Lee et E. Vierling, A small heat shock protein cooperates with heat shock protein 70 systems to reactivate a heat-denatured protein, PLANT PHYSL, 122(1), 2000, pp. 189-197
Mutants of Arabidopsis thaliana defective in the acquisition of tolerance to high temperature stress
Authors:
Hong, SW
Vierling, E
Citation: Sw. Hong et E. Vierling, Mutants of Arabidopsis thaliana defective in the acquisition of tolerance to high temperature stress, P NAS US, 97(8), 2000, pp. 4392-4397
Authors:
Harndahl, U
Hall, RB
Osteryoung, KW
Vierling, E
Bornman, JF
Sundby, C
Citation: U. Harndahl et al., The chloroplast small heat shock protein undergoes oxidation-dependent conformational changes and may protect plants from oxidative stress, CELL STR CH, 4(2), 1999, pp. 129-138
Authors:
Waters, ER
Vierling, E
Citation: Er. Waters et E. Vierling, The diversification of plant cytosolic small heat shock proteins preceded the divergence of mosses, MOL BIOL EV, 16(1), 1999, pp. 127-139
Authors:
Basha, EM
Waters, ER
Vierling, E
Citation: Em. Basha et al., Triticum aestivum cDNAs homologous to nuclear-encoded mitochondrion-localized small heat shock proteins, PLANT SCI, 141(1), 1999, pp. 93-103
Authors:
Waters, ER
Vierling, E
Citation: Er. Waters et E. Vierling, Chloroplast small heat shock proteins: Evidence for atypical evolution of an organelle-localized protein, P NAS US, 96(25), 1999, pp. 14394-14399
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