Project description:Identification of genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings under drought stress and well-watered conditions. Genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings were identified using RNA-seq, miRNA-seq, and degradome-seq. The analysis focused on the gene expression, miRNA regulation, and mRNA degradation profiles of taproots and lateral roots under both drought stress and well-watered conditions. Key genes and their regulatory miRNAs were identified, along with the role of mRNA degradation pathways in response to stress, providing insights into the molecular mechanisms controlling root growth and development in oak seedlings under varying water availability.

Project description:Identification of genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings under drought stress and well-watered conditions. Genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings were identified using RNA-seq, miRNA-seq, and degradome-seq. The analysis focused on the gene expression, miRNA regulation, and mRNA degradation profiles of taproots and lateral roots under both drought stress and well-watered conditions. Key genes and their regulatory miRNAs were identified, along with the role of mRNA degradation pathways in response to stress, providing insights into the molecular mechanisms controlling root growth and development in oak seedlings under varying water availability.

Project description:Identification of genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings under drought stress and well-watered conditions. Genes involved in the regulation of taproot and lateral root growth in Quercus robur seedlings were identified using RNA-seq, miRNA-seq, and degradome-seq. The analysis focused on the gene expression, miRNA regulation, and mRNA degradation profiles of taproots and lateral roots under both drought stress and well-watered conditions. Key genes and their regulatory miRNAs were identified, along with the role of mRNA degradation pathways in response to stress, providing insights into the molecular mechanisms controlling root growth and development in oak seedlings under varying water availability.

Project description:Quercus robur Map

Project description:Quercus robur Organism overview

Project description:Quercus robur Genome sequencing and assembly

Project description:Quercus robur Transcriptome or Gene expression

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.

Project description:Quercus robur subsp. robur strain:3P Genome sequencing

Project description:Quercus robur leaf transcriptomes