Project description:Transcriptome sequencing of Foxtail millet Setaria italica (Zhang-gu) for different tissues.

Project description:Transcriptome sequencing of Foxtail millet Setaria italica (Zhang-gu) for different tissues. Four RNA pools were created corresponding to four different tissues: root, leaf, stem, spica (tassel) at developmental stage, then each pool was sequenced.

Project description:Foxtail millet (Setaria italica L. P. Beauv) has been considered as a tractable model crop in recent years due to its short growing cycle, lower repetitive DNA, inbreeding nature, small diploid genome, and outstanding abiotic stress-tolerance characteristics. With modern agriculture often facing various adversities, it’s urgent to dissect the mechanisms of how foxtail millet responds and adapts to drought and stress on the proteomic-level.

Project description:The study aims to identify molecular variations across these six lines of foxtail millet.

Project description:The study aims to identify molecular variations across these six lines of foxtail millet.

Project description:the SiNRX1 of foxtail millet was knocked out by means of the CRISPR/Cas9 technology, and the drought resistance of SiNRX1 was identified at both the germination stage and the seedling stage. Moreover, through transcriptome sequencing and Data-independent acquisition (DIA) quantitative proteomics determination of sinrx1 mutants and wild types (WT) at the seedling stage under drought and control conditions, the molecular mechanism of SiNRX1 regulating drought resistance was preliminarily analyzed.

Project description:Drought stress is a major environmental factor limiting crop productivity. Arbuscular mycorrhizal fungi (AMF), as beneficial soil microbes, can improve plant growth and stress resilience; however, the effectiveness of this symbiosis is often influenced by the host plant's genetic background. In this study, we investigated the interaction between AM symbiosis and drought tolerance in two foxtail millet (Setaria italica) genotypes with contrasting drought responses: the drought-tolerant ISE42 and the drought-sensitive TT8. Following a 14-day drought treatment, both genotypes exhibited wilting, but only AMF-colonized ISE42 plants recovered upon rewatering. Transcriptomic analysis revealed that AM symbiosis significantly enhanced the expression of genes involved in nitrogen transport, assimilation, lignin metabolism, and cellulose biosynthesis in ISE42, but not in TT8. These molecular changes suggest improved nutrient uptake and cell wall reinforcement as key mechanisms underlying enhanced drought tolerance. Additionally, stress hormone signaling pathways were downregulated in colonized ISE42 roots, indicating possible alleviation of drought-induced stress through AM symbiosis. Our results demonstrate genotype-specific effects of AMF on drought tolerance and highlight the importance of considering host genetic variation in the application of AMF for crop improvement.

Project description:Shotgun analysis was employed to obtain the proteome of two foxtail millet (Setaria italica) varieties, Ci846 and Yugu18, at the jointing stage. Whole proteins were extracted from internodes, nodes, and leaves, respectively. Eluted peptides were analyzed using a Q Exactive HF instrument (Thermo Fisher, USA).

Project description:Setaria italica (Foxtail millet) Gene Mapping Projects

Project description:Re-sequencing of 312 accessions in foxtail millet (Setaria italica)