PubMed Details
PubMed Id 25393516 : details
[Araki Ryoichi et al. 2'-Deoxymugineic acid promotes growth of rice (Oryza sativa L.) by orchestrating iron and nitrate uptake processes under high pH conditions. The Plant journal : for cell and molecular biology 2015:81]
S.No Accession Id Description PubMed Id Figure number Figure Method
1 LOC_Os02g02170 transporter, major facilitator family, putative, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
2 LOC_Os02g02190 transporter, major facilitator family, putative, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
3 LOC_Os02g43410 transposon protein, putative, unclassified, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
4 LOC_Os03g19420 nicotianamine synthase, putative, expressed 25393516 Fig. 5.A Gene expression analysis (transcription) : Quantitative RT-PCR
5 LOC_Os03g19427 nicotianamine synthase, putative, expressed 25393516 Fig. 5.A Gene expression analysis (transcription) : Quantitative RT-PCR
6 LOC_Os03g19427 nicotianamine synthase, putative, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
7 LOC_Os08g36480 nitrate reductase, putative, expressed 25393516 Fig. 5.A Gene expression analysis (transcription) : Quantitative RT-PCR
8 LOC_Os08g36480 nitrate reductase, putative, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
9 LOC_Os08g36500 nitrate reductase, putative, expressed 25393516 Fig. 5.B Gene expression analysis (transcription) : Quantitative RT-PCR
10 LOC_Os08g36500 nitrate reductase, putative, expressed 25393516 Fig. 5.A Gene expression analysis (transcription) : Quantitative RT-PCR

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