RESUMO
Genetic information in the cell nucleus controls organismal development and responses to the environment, and finally ensures its own transmission to the next generations. To achieve so many different tasks, the genetic information is associated with structural and regulatory proteins, which orchestrate nuclear functions in time and space. Furthermore, plant life strategies require chromatin plasticity to allow a rapid adaptation to abiotic and biotic stresses. Here, we summarize current knowledge on the organization of plant chromatin and dynamics of chromosomes during interphase and mitotic and meiotic cell divisions for model and crop plants differing as to genome size, ploidy, and amount of genomic resources available. The existing data indicate that chromatin changes accompany most (if not all) cellular processes and that there are both shared and unique themes in the chromatin structure and global chromosome dynamics among species. Ongoing efforts to understand the molecular mechanisms involved in chromatin organization and remodeling have, together with the latest genome editing tools, potential to unlock crop genomes for innovative breeding strategies and improvements of various traits.
Assuntos
Cromatina , Melhoramento Vegetal , Divisão Celular , Cromatina/genética , Cromossomos , InterfaseRESUMO
Shoot branching is a highly variable trait that evolves during plant development and is influenced by environmental and endogenous cues such as hormones. In particular, strigolactones (SLs) are hormones that play a key role in the control of shoot branching. Branch primordia, axillary buds formed in the leaf axils, display differential growth depending on their position in the plant and also respond to hormone signaling. In this chapter, we will describe how to quantify the degree of shoot branching in two plant model species, Arabidopsis and pea, commonly used to decipher the control of this complex trait. We will also propose several methods to perform treatments of SL or SL analogs, to investigate their bioactivity and effect on the shoot branching patterns of plants of different genotypes.