Project description:RADseq for oaks (Fagaceae: Quercus) from the Western Palearctic

Project description:RADseq for oaks (Fagaceae: Quercus) of the California Floristic Province

Project description:In the family Fagaceae, fertilization is delayed by several weeks to more than one year after pollination, leading to one- or two-year fruiting species depending on whether fruiting occurs in the same or the next year of flowering. Although delayed fertilization was recorded over a century ago, underlying mechanisms remain to be explored. To uncover the key genes associated with delayed fertilization, we obtain and analyze the comparative molecular phenology data over two years in one-year (Quercus glauca) and two-year fruiting species (Lithocarpus edulis).

Project description:In the family Fagaceae, fertilization is delayed by several weeks to more than one year after pollination, leading to one- or two-year fruiting species depending on whether fruiting occurs in the same or the next year of flowering. Although delayed fertilization was recorded over a century ago, underlying mechanisms remain to be explored. To uncover the key genes associated with delayed fertilization, we obtain and analyze the comparative molecular phenology data over two years in one-year (Quercus glauca) and two-year fruiting species (Lithocarpus edulis).

Project description:Genus-wide sample of Quercus (Fagaceae), plus outgroups from Fagaceae Variation

Project description:RADseq for Quercus championii

Project description:RADseq for Quercus section Cyclobalanopsis

Project description:The complete chloroplast genome of Quercus virginiana Mill. (Fagaceae)

Project description:RADseq raw sequences of Quercus acerifolia, Maple-leaf Oak

Project description:Illumina HiSeq technology was used to generate mRNA profiles from mycorrhizal Quercus robur roots. Tuber melanosporum, T. aestivum and T.magnatum mycorrhizal root tips were harvested and used for RNA extraction. Paired-end reads of 100 bp were generated and aligned to Quercus robur CDS using CLC Genomics Workbench 9.