Project description:MS/MS data from methanolic extracts of high and low susceptibility genotypes of F. excelsior

Project description:4 rice genotypes were sequenced for nitrogen usage under low and high nitrogen conditions to determine the uptake, and later combine with RNASeq data to figure which genes were modulated

Project description:Tropical maize genotypes are well known for their traits of late flowering and higher biomass. Carbon/Nitrogen balance in these genotypes is significantly different from temperate genotypes. Microarray analysis of gene expression changes occuring in developing earshoots was done and results were compared with the temperate genotype microarray analysis, previously conducted. A low yielding variety was used as a reference against three high yielding varities. Keywords: Genotype response

Project description:Genotypes

Project description:To excavate the underlying molecular processes that tomato affected by the low N supply ,we collected roots and leaves from two genotypes at two stages after low N treatment

Project description:Cassava’s storage roots represent one of the most important sources of nutritional carbohydrates worldwide. Particularly, smallholder farmers in Sub-Saharan Africa depend on this crop plant, where resilient and yield-improved varieties are of vital importance to support steadily increasing populations. Aided by a growing understanding of the plant’s metabolism and physiology, targeted improvement concepts already led to visible gains in recent years. To expand our knowledge and to contribute to these successes, we investigated storage roots of eight cassava genotypes with differential dry matter content from three successive field trials for their proteomic and metabolic profiles. At large, the metabolic focus in storage roots transitioned from cellular growth processes towards carbohydrate and nitrogen storage with increasing dry matter content. This is reflected in higher abundance of proteins related to nucleotide synthesis, protein turnover and vacuolar energization in low starch genotypes, while proteins involved in sugar conversion and glycolysis were more prevalent in high dry matter genotypes. This shift in metabolic orientation was underlined by a clear transition from oxidative- to substrate-level phosphorylation in high dry matter genotypes. Our analyses highlight metabolic patterns that are consistently and quantitatively associated with high dry matter accumulation in cassava storage roots, providing fundamental understandings of cassava’s metabolism as well as a data resource for targeted genetic improvement.

Project description:Micro-RNA associated with low-N tolerance have been identified in rice (Oryza sativa) genotypes on the basis of differential expression of miRNA in low-N tolerant and low-N sensitive genotypes of rice. Since, miRNAs emerged as key players in plant responses and adaptation to stress, identification of low-N responsive miRNAs and their targets could help to uncover the molecular mechanisms of N-deficiency tolerance in plants. We used affymetrix based GeneChip miRNA_2.0 Array to detail the global programme of miRNA expression variation in low-N tolerant (IC-547557) and low -N sensitive (Vivek Dhan).

Project description:Hi-C data of 16 wheat genotypes

Project description:We report differentially expressed genes in four wheat genotypes, Nyubai, Wuhan 1 and their progeny line HC374, shaw associated with resistance and susceptibility against Fusarium Head Blight (FHB). Our result indicates an early up-regulation of LRR-RKs distinct between susceptible and resistant genotypes; subsequently, different sets of genes associated with defense response were up-regulated. Differences in expression profiles among the resistant genotypes indicate genotype specific defense mechanisms. This study also showed a greater resemblance in transcriptomics of HC374 to Nyubai, consistent with their sharing of two type II FHB resistant QTLs on 3BS and 5AS, than to Wuhan 1 which carries one QTL on 2DL in common with HC374.

Project description:Tropical maize genotypes are well known for their traits of late flowering and higher biomass. Carbon/Nitrogen balance in these genotypes is significantly different from temperate genotypes. Microarray analysis of gene expression changes occuring in developing earshoots was done and results were compared with the temperate genotype microarray analysis, previously conducted. A low yielding variety was used as a reference against three high yielding varities. Keywords: Genotype response Technical replicates, dye swaps, technical replicates of dye swaps, no biological replicates