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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.
20 mar 2024 · For example, for polyploid plant genomes, ALLHiC uses homologous genes as markers to achieve favourable scaffolding results.
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.
19 paź 2020 · Here, we describe how plant genomes have been harnessed for studies of plant phylogeny and diversification, with examples spanning all green plants, a clade of nearly half a million species spanning nearly a billion years of evolutionary time.
When delivered into plant cells, SSN locate and cleave the target DNA, resulting in double-strand breaks (DSBs) that are repaired by natural DNA repair mechanisms like non-homologous end-joining (NHEJ) and homology-directed repair (HDR).
3 mar 1998 · We have recovered a very wide range of expression patterns, including genes expressed in specific cell-types, genes expressed in cells undergoing cell division or cell death, and genes expressed in prepatterns that predict rather than reflect morphogenesis in the plant.
13 mar 2015 · 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. 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 ...
