PubMed Details
PubMed Id 23432654 : details
[ Yamatani Hiroshi et al. NYC4, the rice ortholog of Arabidopsis THF1, is involved in the degradation of chlorophyll-protein complexes during leaf senescence. The Plant journal 2013: ]
S.No Accession Id Description PubMed Id Figure number Figure Method
1 LOC_Os01g12710 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
2 LOC_Os03g05310 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
3 LOC_Os03g45194 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
4 LOC_Os05g39770 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
5 LOC_Os06g24730 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
6 LOC_Os07g37250 23432654 Fig. 1.A Morphological observation
7 LOC_Os07g37250 23432654 Fig. 1.B Chlorophyll content measurement
8 LOC_Os07g37250 23432654 Fig. 1.C Ion accumulation assay : Ion leakage
9 LOC_Os07g37250 23432654 Fig. 1.D Photochemistry measurement
10 LOC_Os07g37250 23432654 Fig. 3.B Morphological observation
11 LOC_Os07g37250 23432654 Fig. 3.C Photochemistry measurement
12 LOC_Os07g37250 23432654 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
13 LOC_Os07g37250 23432654 Fig. 3.A GFP fluorescence analysis
14 LOC_Os07g48450 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
15 LOC_Os09g36200 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR
16 LOC_Os10g25030 23432654 Fig. 1.E Gene expression analysis (transcription) : Quantitative RT-PCR

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