Project description:rfppr-Comparing nuclear gene expression in two CMS-systems using microarray technology

Project description:ra05-11_cmsrapeseed - cms4:19 and at chr3 - -To understand how/if fertility and the mitochondrial background are interlinked. -To understand how the mitochondrial background influences the nuclear gene expression. -Compare and describe the total nuclear gene expression of CMS vs. fertile and CMS vs. Restored. -Describe and analyse genes that differ in expression (of special interest are genes that differs in both comparisons). -Group genes e.g. floral genes, highly expressed genes, transcription factors, nuclear encoded genes targeted for the mitochondrion. -Comparing two CMS-systems to elucidate differences and similarities between them. - Flower buds from four different B. napus lines (fertile cv Hanna, CMS-line 4:19, restored line 46, cv Hanna with the additon of A. thaliana chr 3) at two developmental stages (stages 0-5 and stage 8). Keywords: wt vs mutant comparison 16 dye-swap - CATMA arrays

Project description:ra05-11_cmsrapeseed - cms4:19 and at chr3 - -To understand how/if fertility and the mitochondrial background are interlinked. -To understand how the mitochondrial background influences the nuclear gene expression. -Compare and describe the total nuclear gene expression of CMS vs. fertile and CMS vs. Restored. -Describe and analyse genes that differ in expression (of special interest are genes that differs in both comparisons). -Group genes e.g. floral genes, highly expressed genes, transcription factors, nuclear encoded genes targeted for the mitochondrion. -Comparing two CMS-systems to elucidate differences and similarities between them. - Flower buds from four different B. napus lines (fertile cv Hanna, CMS-line 4:19, restored line 46, cv Hanna with the additon of A. thaliana chr 3) at two developmental stages (stages 0-5 and stage 8). Keywords: wt vs mutant comparison

Project description:ra05-11_cmsrapeseed - rfppr - -To understand how/if fertility and the mitochondrial background are interlinked. -To understand how the mitochondrial background influences the nuclear gene expression. -Compare and describe the total nuclear gene expression of CMS vs. fertile and CMS vs. Restored. -Describe and analyse genes that differ in expression (of special interest are genes that differs in both comparisons). -Group genes e.g. floral genes, highly expressed genes, transcription factors, nuclear encoded genes targeted for the mitochondrion. -Comparing two CMS-systems to elucidate differences and similarities between them. - Flower buds from three B. napus lines (Pactol, CMS, Rfo PPR) at one developmental stage (stage 8). Keywords: wt vs mutant comparison 6 dye-swap - CATMA arrays

Project description:ra05-11_cmsrapeseed - rfppr - -To understand how/if fertility and the mitochondrial background are interlinked. -To understand how the mitochondrial background influences the nuclear gene expression. -Compare and describe the total nuclear gene expression of CMS vs. fertile and CMS vs. Restored. -Describe and analyse genes that differ in expression (of special interest are genes that differs in both comparisons). -Group genes e.g. floral genes, highly expressed genes, transcription factors, nuclear encoded genes targeted for the mitochondrion. -Comparing two CMS-systems to elucidate differences and similarities between them. - Flower buds from three B. napus lines (Pactol, CMS, Rfo PPR) at one developmental stage (stage 8). Keywords: wt vs mutant comparison

Project description:Resequencing of the hau CMS line and restorer line

Project description:Ogu CMS restorer CLR6430 resequencing

Project description:To broadly identify genes regulated by Transparent Testa16 in Brassica napus In order to broadly identify genes regulated by BnTT16s, microarray technology was employed to compare gene expression levels in developing seeds (2-DAP) of Bntt16 RNAi and wild-type plants.

Project description:High temperature stress results in yield loss and alterations to seed composition during seed filling in oilseed rape (Brassica napus). However, the mechanism underlying this heat response is poorly understood. In this study, we employed a microarray analysis with silique walls and seeds from the developing siliques (20 days after flowering) of Brassica napus that had undergone heat stress. Two-condition experiment, control vs heat stress, 2 time points

Project description:High temperature stress results in yield loss and alterations to seed composition during seed filling in oilseed rape (Brassica napus). However, the mechanism underlying this heat response is poorly understood. In this study, we employed a microarray analysis with silique walls and seeds from the developing siliques (20 days after flowering) of Brassica napus that had undergone heat stress.