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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.
Here, we review different multi-omics approaches to improve functional and regulatory gene characterization and highlight the power of machine learning and network biology to fully exploit the complementary information embedded in different omics layers.
To identify the genes that govern plant development and to discover how they function, plant biologists have selected a small weed, the common wall cress Arabidopsis thaliana (Figure 21-107), as their primary model organism.
25 paź 2022 · 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 specific biological process, as well as untargeted multi-omics approaches, shed light on novel gene functions in plant biology.
The great recent progress made in identifying the molecular parts lists of organisms revealed the paucity of our understanding of what most of the parts do. In this review, we introduce computational and statistical approaches and omics data used for inferring gene function in plants, with an emphasis on network-based inference.
8 mar 2024 · This diagram illustrates the various organelles and components of a typical plant cell, including the cell wall, cell membrane, nucleus, chloroplasts, mitochondria, vacuole, endoplasmic reticulum, Golgi apparatus, and ribosomes.
13 mar 2015 · A high quality draft consensus sequence of the genome of a heterozygous grapevine variety. Summary Like all living organisms, plants use deoxyribonucleic acid (DNA) as their genetic material. The DNA in plant cells is found in the nucleus, the mitochondria and the chloroplasts.
