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2 lut 2021 · This review discusses the features of cis-regulatory sequences in plants, technologies enabling their identification, characterization, and validation, their organization into functional cis-regulatory modules, their genomic distributions with respect to target genes, and the role of transposable elements in their evolution.
The combination of multiple omics data types enables the characterization of different levels of gene regulation for a biological process of interest. Studies targeting a speci fic biological process, as well as untargeted multi-omics approaches, shed light on novel gene functions in plant biology.
This list of sequenced plant genomes contains plant species known to have publicly available complete genome sequences that have been assembled, annotated and published. Unassembled genomes are not included, nor are organelle only sequences.
20 mar 2024 · A database named N3: plants, genomes, technologies was developed to accommodate the metadata associated with the sequenced genomes.
13 lis 2013 · Network-based function inference, despite having some caveats, holds great promise for accelerating gene function discovery in plants. However, there are some bottlenecks that we must overcome to achieve the goal of understanding the function of all genes in a plant genome.
13 mar 2015 · The DNA in plant cells is found in the nucleus, the mitochondria and the chloroplasts. The latter two organelles are descendants of bacteria that were captured by a eukaryotic cell and have become endosymbionts. DNA is a coded set of instructions for making RNA.
Taking into account the function of genes that have been duplicated, we are now beginning to understand why many plant genes might have been retained, and how their retention might be linked to the typical lifestyle of plants.
