PubMed Details
PubMed Id 21984008 : details
[Kim Kyung-Hee et al. Overexpression of a chloroplast-localized small heat shock protein OsHSP26 confers enhanced tolerance against oxidative and heat stresses in tall fescue. Biotechnology letters 2012:34]
S.No Accession Id Description PubMed Id Figure number Figure Method
1 BAA78385 heat shock protein 26 21984008 Fig. 3.B Lipid peroxidation analysis : Thiobarbituric acid reactive substances (TBARS) assay
2 BAA78385 heat shock protein 26 21984008 Fig. 5.A Chlorophyll fluorescence analysis
3 BAA78385 heat shock protein 26 21984008 Fig. 3.A Electrolyte leakage assay
4 BAA78385 heat shock protein 26 21984008 Fig. 4.B Lipid peroxidation analysis : Thiobarbituric acid reactive substances (TBARS) assay
5 BAA78385 heat shock protein 26 21984008 Fig. 2.B Gene expression analysis (translation) : Western analysis
6 BAA78385 heat shock protein 26 21984008 Fig. 1.B PCR
7 BAA78385 heat shock protein 26 21984008 Fig. 4.A Electrolyte leakage assay
8 BAA78385 heat shock protein 26 21984008 Fig. 2.A Gene expression analysis (transcription) : Northern Analysis
9 BAA78385 heat shock protein 26 21984008 Fig. 5.B Chlorophyll fluorescence analysis

Department of Plant Molecular Biology, University of Delhi South Campus, New Delhi-110021, India