Project description:The goal of this study is to clarify the function of ERF13 in the pathway of auxin inducing lateral root development. We isolated total RNA from the roots of 9-day-old WT, 35S:ERF13:MYC and erf3-3 seedlings. New genes act downstream of ERF13 during the lateral root formation are discovered.
Project description:Purpose: To understand the molecular mechanism between PNET2 and NTLs, we generated 35S:NTL-SRDX in pnet2_ab mutants to suppress NTL gene expression and performed the whole genome transcriptome analysis on 4-week-old plants of WT, pnet2_ab, 35S:NTL6-SRDX pnet2_ab, 35S:NTL9-SRDX pnet2_ab, and 35S:NTL12-SRDX pnet2_ab. Conclusions: PNET2 regulates diverse responses by associating with a family of membrane-bound transcriptional factors.
Project description:Arabidopsis emf2 mutants bypass vegetative development and flowering upon seed germination. We introduced a broccoli BoEMF2.1 gene into emf2 mutants and obtained rescued emf2 plants that harbored 35S::BoEMF2.1. We found that BoEMF2.1 can partially rescue the phenotype of emf2 to that of WT. We used microarrays to study the global program of gene expression and to identify genes misexpressed in the Arabidopsis emf2 mutant that had been rescued by 35S::BoEMF2.1.
Project description:Arabidopsis emf2 mutants bypass vegetative development and flowering upon seed germination. We introduced a broccoli BoEMF2.1 gene into emf2 mutants and obtained rescued emf2 plants that harbored 35S::BoEMF2.1. We found that BoEMF2.1 can partially rescue the phenotype of emf2 to that of WT. We used microarrays to study the global program of gene expression and to identify genes misexpressed in the Arabidopsis emf2 mutant that had been rescued by 35S::BoEMF2.1. 7-day-old seedlings of WT, transWT, emf2 and rescued emf2 Arabidopsis were used for RNA extraction and hybridization on Affymetrix microarrays.