Project description:Tuber aestivum overview

Project description:Tuber aestivum ascocarps raw sequence reads

Project description:The genome sequence of Tuber aestivum

Project description:For expression profiling analyses of early stages of tuber induction, plants of Solanum tuberosum ssp andigena (7540) were used. This wild subspecies is strictly dependent on photoperiod for tuberisation, such that short days (SD) inductive conditions are required in order to trigger tuber induction in the stolons. Andigena plants were grown in the greenhouse under LD non-inductive conditions until a 10-leaf stage. They were subsequently transferred to inductive SD conditions (8 h light/16 h dark), and sampled at 0, 2, 4, 6 and 8 days after transfer to SDs. Tuber swelling was visible approximately 6-8 days after transfer to inductive conditions. The apical region of the stolons (2 cm) was collected one hour before the beginning of the light period.

Project description:An in vivo and in vitro potato tuber development gene expression study. Keywords: Developmental stage analysis, time course

Project description:Illumina HiSeq technology was used to generate mRNA profiles from Tuber magnatum truffles, free-living mycelium and oak mycorrhizal root tips. Paired-end reads of 100 bp were generated and aligned to Tuber magnatum reference transcripts using CLC Genomics Workbench 9.

Project description:Tuber bruising in tetraploid potatoes (Solanum tuberosum) is a trait of economical importance, as it affects tubers' fitness for sale. Understanding the genetic components affecting tuber bruising is a key step in developing potato lines with increased resistance to bruising. As the tetraploid setting renders genetic analyses more complex, there is still a lot to learn about this complex phenotype. Here, we used genotype by sequencing data on a panel of half-sibling populations from a breeding programme to perform a genome-wide association analysis for tuber bruising. In addition, we collected transcriptomics data to enrich the GWAS results, by performing a differential expression analysis between samples with high- and low-bruising susceptibility.

Project description:An in vivo and in vitro potato tuber development gene expression study. For in vitro tuber development expression analysis, RNA was isolated from in vitro microtubers at 2, 5, 10, 20 and 30 days following observed tuber induction. Two microtuber populations were used as biological replicates for the developmental stages. The RNA from all developmental stages was pooled to generate the reference samples. Ten microarray hybridizations were performed. For in vivo tuber development expression analysis, RNA was isolated from tubers growing in growth chamber conditions. Tissues were divided into six group, according to developmental size: stolon (no tuber formation), 1-5 mm tubers, 6-10 mm tubers, 11-15 mm tubers, 16-25 mm tubers, and 26-35 mm tubers. Two biological replicates of ten plants each were grown sequentially in the same growth chamber. The RNA from all developmental stages was pooled to generate the reference samples. Twelve microarray hybridizations were performed. For all experiments, the RNA was labeled using the indirect labeling method with random hexamer primers. Amplified cRNA was used as labeling template for stolons. Total RNA was used as labeling template in all other labeling reactions.

Project description:Tuber canaliculatum overview

Project description:Tuber gibbosum overview