PubMed Details
PubMed Id 24389954 : details
[Chen Xiaoqiong et al. Physiological factors affecting transcription of genes involved in the flavonoid biosynthetic pathway in different rice varieties. Plant signaling & behavior 2014:8]
S.No Accession Id Description PubMed Id Figure number Figure Method
1 CAA69252 24389954 Table 2.v Gene expression analysis (transcription) : Quantitative RT-PCR
2 CAA69252 24389954 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
3 CAA69252 24389954 Fig. 3.B Gene expression analysis (transcription) : Quantitative RT-PCR
4 CAA69252 24389954 Fig. 5 Gene expression analysis (transcription) : Quantitative RT-PCR
5 CAA69252 24389954 Fig. 3.A Gene expression analysis (transcription) : Quantitative RT-PCR
6 CAA69252 24389954 Fig. 2.A,B Gene expression analysis (transcription) : Quantitative RT-PCR
7 CAA69253 24389954 Table 2.iii Gene expression analysis (transcription) : Quantitative RT-PCR
8 CAA69253 24389954 Fig. 3.A Gene expression analysis (transcription) : Quantitative RT-PCR
9 CAA69253 24389954 Fig. 3.B Gene expression analysis (transcription) : Quantitative RT-PCR
10 CAA69253 24389954 Fig. 2.A,B Gene expression analysis (transcription) : Quantitative RT-PCR
11 CAA69253 24389954 Fig. 5 Gene expression analysis (transcription) : Quantitative RT-PCR
12 CAA69253 24389954 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
13 LOC_Os03g15360 24389954 Table 2.iv Gene expression analysis (transcription) : Quantitative RT-PCR
14 LOC_Os03g15360 24389954 Fig. 3.A Gene expression analysis (transcription) : Quantitative RT-PCR
15 LOC_Os03g15360 24389954 Fig. 2.A,B Gene expression analysis (transcription) : Quantitative RT-PCR
16 LOC_Os03g15360 24389954 Fig. 3.B Gene expression analysis (transcription) : Quantitative RT-PCR
17 LOC_Os03g15360 24389954 Fig. 5 Gene expression analysis (transcription) : Quantitative RT-PCR
18 LOC_Os03g15360 24389954 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
19 LOC_Os03g60509 24389954 Fig. 2.A,B Gene expression analysis (transcription) : Quantitative RT-PCR
20 LOC_Os03g60509 24389954 Fig. 5 Gene expression analysis (transcription) : Quantitative RT-PCR
21 LOC_Os03g60509 24389954 Table 2.ii Gene expression analysis (transcription) : Quantitative RT-PCR
22 LOC_Os03g60509 24389954 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
23 LOC_Os03g60509 24389954 Fig. 3.B Gene expression analysis (transcription) : Quantitative RT-PCR
24 LOC_Os03g60509 24389954 Fig. 3.A Gene expression analysis (transcription) : Quantitative RT-PCR
25 LOC_Os05g12240 24389954 Fig. 5 Gene expression analysis (transcription) : Quantitative RT-PCR
26 LOC_Os05g12240 24389954 Fig. 4 Gene expression analysis (transcription) : Quantitative RT-PCR
27 LOC_Os05g12240 24389954 Table 2.i Gene expression analysis (transcription) : Quantitative RT-PCR
28 LOC_Os05g12240 24389954 Fig. 3.B Gene expression analysis (transcription) : Quantitative RT-PCR
29 LOC_Os05g12240 24389954 Fig. 3.A Gene expression analysis (transcription) : Quantitative RT-PCR
30 LOC_Os05g12240 24389954 Fig. 2.A,B Gene expression analysis (transcription) : Quantitative RT-PCR

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