PubMed Details
PubMed Id 22382682 : details
[ Kim Il-Sup et al. Rice ASR1 protein with reactive oxygen species scavenging and chaperone-like activities enhances acquired tolerance to abiotic stresses in Saccharomyces cerevisiae. Molecules and cells 2012: ]
S.No Accession Id Description PubMed Id Figure number Figure Method
1 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 6.A,B,C,D,E,F,G,H,I Stress tolerance assay : Oxidative stress
2 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 2.C Gene expression analysis (translation) : Western analysis
3 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 1.A,C MALDI TOF-TOF
4 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 3.C Stress tolerance assay
5 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 2.B Gene expression analysis (transcription) : Semi-quantitative RT-PCR
6 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 6.B,C,D,E,F,G,H,I Stress tolerance assay
7 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 3.B Stress tolerance assay
8 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 1.D Gene expression analysis (transcription) : Semi-quantitative RT-PCR
9 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 3.A,B,C Stress tolerance assay
10 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 3.A Stress tolerance assay : Oxidative stress
11 LOC_Os11g06720 abscisic stress-ripening, putative, expressed 22382682 Fig. 1.A,B Two Dimensional Polyacrylamide gel electrophoresis (2D-PAGE)

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