Victor Busov

TL;DR: This review will focus on the regulation of crown architecture, secondary woody growth and adventitious rooting, and will specifically consider the involvement of flowering time, transcription factors and hormone-associated genes.

TL;DR: The field of forest genomics has advanced quickly owing to the advent of multiple high-throughput sequencing technologies, single cell RNA-seq, clustered regularly interspaced short palindromic repeats (CRISPR)-mediated genome editing, and spatial transcriptomes, which have led to the generation of multidimensional, multilayered, and spatio-temporal gene expression data as discussed by the authors .

TL;DR: Evidence is provided that the genes in this module are indeed involved in regulation of root development under LN and will enable approaches for breeding for better nitrogen use efficiency through development of a more sensitive and plastic root system.

TL;DR: The results underline the importance of multiple greenhouse and field trials during studies with transgenes that modify hormonal homeostasis, and highlight the need for validated data on gibberellin metabolic pathways.

TL;DR: Structural modeling demonstrates that these regions have a significant impact on tertiary protein structure and thus are likely of significant functional importance in woody taxa.