Project description:Carrot virus Y Genome sequencing and assembly

Project description:Carrot cryptic virus Genome sequencing and assembly

Project description:Cacao, spinach and carrot are three important crops with high valuable markets. For these species there isn't already an available genome-wide annotation of small rna. Here, for the first time, we sequenced and annotated small RNAs.

Project description:Whole genome microarray data were analyzed to describe the changes in gene transcription profile in human Caco-2 cancer cells under the influence of the extract from iodine-biofortified and non-fortified carrot and lettuce. These iodine-biofortified vegetables can be used as a functional food. Four-condition experiment: iodine-biofortified carrot, non-fortified carrot, iodine-biofortified lettuce, non-fortified lettuce vs. Caco-2 colorectal adenocarcinoma cell line. Three biological replicates and three technical replicates.

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: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:Alternaria dauci isolate:isolate from carrot Genome sequencing and assembly

Project description:Background/Objectives: Plant-derived microRNAs (miRNAs) have emerged as cross-kingdom regulatory molecules, but their capacity to influence mammalian metabolism is still poorly understood. This study aimed to investigate whether miRNAs induced in carrots (Daucus carota) by postharvest wounding stress can modulate adipocyte lipid accumulation. Methods: High-throughput small RNA sequencing was performed to identify stress-responsive miRNAs in wounded carrots. Bioinformatic analyses predicted potential mammalian targets, focusing on genes involved in adipogenesis and lipid regulation, including those in the insulin and FoxO signaling pathways. Selected miRNAs were functionally validated in 3T3-L1 adipocytes by assessing intracellular triglyceride levels and glycerol release. Results: Six stress-responsive carrot miRNAs were predicted to target mammalian lipid metabolism genes. Functional assays revealed that miR165a-3p, miR232a-5p, and miR1799 significantly decreased intracellular triglyceride accumulation and increased glycerol release, suggesting enhanced lipolysis. These effects support the potential regulation of adipocyte metabolism through plant miRNA mimics. Conclusions: Our findings provide experimental evidence for stress-induced carrot miRNAs mimics potentially modulate fat accumulation. This work expands current understanding of dietary plant miRNAs and highlights their potential role as functional food components for metabolic health improvement. Further research is needed to establish their gastrointestinal stability, uptake from dietary matrices, and in vivo effects.

Project description:Whole genome microarray data were analyzed to describe the changes in gene transcription profile in human Caco-2 cancer cells under the influence of the extract from iodine-biofortified and non-fortified carrot and lettuce. These iodine-biofortified vegetables can be used as a functional food.

Project description:Taproots of different carrot genotypes were used to identify the candidate genes related to anthocyanin synthesis with particular focus on R2R3MYB, bHLH transcription factors, and glutathione S-transferase gene (GST). The RNA-sequencing analysis (RNA-Seq) showed that DcMYB6 and DcMYB7 had genotypic dependent expressed and they are likely involved in the regulation of anthocyanin biosynthesis. They were specifically upregulated in solid black taproots, including both black phloem and xylem. DcbHLH3 (LOC108204485) was upregulated in all black samples compared with the orange ones. We also found that GST1 (LOC108205254) might be an important anthocyanin transporter, and its upregulated expression resulted in the increasing of vacuolar anthocyanin accumulation in black samples.