Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
A Perspective summarizes advances in the research of plant diversity, and discusses how big data resources and new technologies, such as analytical and integrating tools, are revolutionizing our views of plant diversification and guiding conservation.
Rubber tree plantations have been displacing tropical forests in Southeast Asia, linked to global rubber prices. Forest-to-plantation conversion in Cambodia is correlated with shifts in rubber prices, with a time lag of under a year, showing the link between global commodity markets and deforestation in developing nations.
Photosynthetic organisms minimize potential harm from excess light by protection mechanisms collectively referred to as non-photochemical quenching. Two proteins involved in quenching, DAMAGED DNA-BINDING 1 and DE-ETIOLATED 1, are part of a complex containing CULLIN 4.
A sunflower pan-genome determined by sequencing about 500 accessions, including wild, landrace and cultivated lines, showed that introgression from the wild species has profoundly shaped the cultivar gene pool and contributed disease resistance genes.
Sporopollenin, which encapsulates gametes in spore and pollen grains, is probably the most chemically inert biopolymer. This inertness is essential for gamete protection, but also hinders the elucidation of sporopollenin molecular structure. Now, the macromolecular network forming sporopollenin is described in unprecedented detail.
A distinct feature of pollen gains is their resistant outer wall, called the exine, which is mainly composed of sporopollenin, the toughest biopolymer known to date despite an unknown detailed structure. Now, a structural model of pine sporopollenin is revealed by the application of new degradation chemistry and solid-state NMR spectroscopy.
The plant vacuole plays important roles in regulating growth and development. Now, the vacuole in Arabidopsis root cells is presented at nanometre resolution by 3D whole-cell tomography, suggesting a cellular mechanism for plant vacuole formation.
A high-quality reference genome for the plant Liriodendron chinense places magnoliids as sister to the clade consisting of eudicots and monocots. Population genomic analyses unravel the evolution of two distinct species in the genus Liriodendron.
The engineered Streptococcus pyogenes Cas9 variant SpCas9-NGv1, known to recognize relaxed NG protospacer adjacent motifs (PAMs) in human cells, can also mediate targeted mutagenesis with NG PAMs in rice and Arabidopsis. When fused with cytidine deaminase, it mediates C-to-T substitutions.
Detection of extrachromosomal linear DNAs in crops with large and transposon-rich genomes is challenging. Now an approach named ALE-sequencing is developed, allowing for the sensitive detection of active LTR retrotransposons in rice and tomato.
Despite depressingly common misconceptions, fungi are not plants. However, the alliances made between these two forms of life could be an inspiration for the research communities that study them.