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- Li, Lian-cheng, et al. Show all 9 Authors
- Biochemical and biophysical research communications 2015 v.468 pp. 800-806
- Arabidopsis; Setaria italica; autophagy; biogeochemical cycles; chlorophyll; crops; cytoplasm; drought; eukaryotic cells; gene overexpression; genes; genetic transformation; leaves; nitrogen; nitrogen content; plant stress; proline; protein content; starvation; stems; stress response; stress tolerance; survival rate; transgenic plants; water stress
- ... Autophagy is an evolutionarily conserved biological process in all eukaryotes for the degradation of intracellular components for nutrient recycling. Autophagy is known to be involved in responses to low nitrogen stress in Arabidopsis. Foxtail millet has strong abiotic stress resistance to both low nutrient and drought stress. However, to date, there have only been a few genes reported to be relat ...
- LI, Lian-cheng, et al. Show all 11 Authors
- Journal of integrative agriculture 2015 v.14 no.2 pp. 314-325
- Arabidopsis; G-protein coupled receptors; G-proteins; biosynthesis; chlorophyll; cold; cotyledons; eukaryotic cells; gene expression regulation; genes; germination; heat; homeostasis; malondialdehyde; mutants; oxidative stress; peroxidase; phenotype; proline; salt stress; salt tolerance; seedlings; sodium; sodium chloride; stress response; stress tolerance; survival rate; transcription (genetics)
- ... The heterotrimeric GTP-binding proteins (G-proteins) in eukaryotes consisted of α, β and γ subunits and are important in molecular signaling by interacting with G-protein-coupled receptors (GPCR), on which to transduce signaling into the cytoplast through appropriate downstream effectors. However, downstream effectors regulated by the G-proteins in plants are currently not well defined. In this st ...