Project description:Core Rhizo-microbiome of Monoculture Carrot Plant

Project description:Core Microbiome of Soybean-precedent Carrot Rhizosphere Soil

Project description:Core Microbiome of Monoculture Carrot Rhizosphere Soil

Project description:In this study, a cross species hybridization (CSH) approach was used to evaluate whole transcriptome changes during carotenoid accumulation in the storage root of carrot (Daucus carota). Carotenoids are isoprenoid compounds providing red, yellow and orange color to plants. Previous gene expression analyses of carotenoid accumulation in non-model plant species have primarily used a candidate gene approach. Since global transcriptome analyses require extensive genome sequence, in the absence of these genomic resources an alternate approach uses platforms developed for model plant species. To assess transcriptome patterns associated with carotenoid pigmentation in carrot storage root, two carrot sibling inbred lines, B8788, true breeding for orange color and B8750, true breeding for white root color, were hybridized to the Medicago Affymetrix GeneChip microarray.

Project description:Plant microbiome of soybean

Project description:In this study, a cross species hybridization (CSH) approach was used to evaluate whole transcriptome changes during carotenoid accumulation in the storage root of carrot (Daucus carota). Carotenoids are isoprenoid compounds providing red, yellow and orange color to plants. Previous gene expression analyses of carotenoid accumulation in non-model plant species have primarily used a candidate gene approach. Since global transcriptome analyses require extensive genome sequence, in the absence of these genomic resources an alternate approach uses platforms developed for model plant species. To assess transcriptome patterns associated with carotenoid pigmentation in carrot storage root, two carrot sibling inbred lines, B8788, true breeding for orange color and B8750, true breeding for white root color, were hybridized to the Medicago Affymetrix GeneChip microarray. Near isogenic recombinant inbred lines B8788 and B8750, derived from a cross between white rooted wild carrot (QAL) and orange-rooted B493 were used for comparative analyzes to minimize background genetic differences. B8788 is true breeding for orange color whereas B8750 is true breeding for white storage root color. Carrots were grown in three pots for each genotype under greenhouse conditions and carrots were selected arbitrarily from these pots for harvest. Roots were harvested at approximately 11 weeks post planting when carotenoid accumulation becomes apparent in the storage root. Storage root tissue from sixteen individual carrot roots was pooled into three one-gram tissue pools of four carrots for each genotype.

Project description:Carrot field microbiome

Project description:Core Microbiome of Bulk Soil from Uncultivated field in a Carrot Farm

Project description:Core Microbiome of Bulk Soil from Uncultivated field in a Carrot Farm

Project description:we investigated three Bacillus strains (HT1, HT2, and HT3) isolated from the soybean root microbiome for their potential plant growth-promoting and biocontrol activities. Bacillus-HT1 and HT2 significantly enhanced soybean seed germination, while Bacillus-HT3 promoted leaf area expansion, indicating strain-specific developmental effects. To elucidate the molecular basis of these effects, we conducted shotgun proteomic profiling of soybean leaves. The analysis revealed significant modulation of proteins involved in key biological processes, including amino acid metabolism, biosynthesis of cellular nitrogen and aromatic compounds, and cellular component organization and biogenesis. Notably, proteins such as anthranilate synthase and proteasome subunit alpha type were differentially expressed, suggesting the activation of growth- and defense-related pathways. These findings provide mechanistic insights into how specific Bacillus strains modulate soybean development at the molecular level and highlight their potential for use as bio-inoculants to enhance crop productivity and resilience under stress conditions.