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Bitterness is one of the fruit traits that are most disliked by consumers. In this study, the authors identified and characterized a tonoplast membrane transporter in tomato fruit, which is responsible for the translocation of bitter α-tomatine and other derivatives from the vacuole to the cytoplasm for non-bitter conversion.
Species once considered extinct have now, through improved taxonomic knowledge and collection activities, been restored, with lessons for conservation policies both in Europe and globally.
Systemic nitrogen signalling controls root nitrogen acquisition. The regulatory pathways involve the CEP–CEPD network and the high-affinity nitrate transporter NRT2.1. In this study, the authors identified CEPH, a type 2C protein phosphatase, acting downstream of the CEPD/CEPDLs to regulate the activity of NRT2.1 and nitrate uptake in Arabidopsis.
Suberin is a complex hydrophobic biopolymer in the cell wall of various plant cell types, including the young root endodermis. Here, the authors identified two sets of auxin-regulated enzymes that mediate suberin biosynthesis and remodelling in the differentiated root endodermis in Arabidopsis.
Cuticular conductance to water is a key factor in determining plant survival in drought but is difficult to measure. Using an electrical resistance analogy for leaf gas exchange results in a more accurate calculation of gas exchange parameters.
Codon usage bias of transposons (TEs) causes ribosome stalling, inducing truncated RNAs that are guided to siRNA bodies for epigenetically activated small interfering RNA (easiRNA) biogenesis. This process selectively targets TEs to the easiRNA biogenesis pathway for silencing and involves SGS3 phase separation.
Genome-wide chromatin profiling revealed a role of the histone demethylase FLD and its associating factor LD in regulating overlapping bidirectional transcription by modulating H3K4me1 levels and DNA topology. The effect of FLD depends on DNA topoisomerase I.
Plants use extracellular vesicles to deliver small RNAs that could silence fungal virulence genes to their fungal pathogens. In this study, the authors profile the components of these extracellular vesicles and investigate regulators contributing to the specific RNA loading and stabilization.
Two gene editing strategies for engineering quantitative variation of yield-related traits in maize are demonstrated: creating promoter-edited weak alleles of CLE genes or null alleles of redundant compensating CLE genes using CRISPR–Cas9.
The expression of a light-gated anion channelrhodopsin from a unicellular algae and a retinal-producing enzyme from a marine bacterium enable green light optogenetic manipulation of plant cells, as demonstrated in pollen tubes.
Zinc (Zn) is one of the essential micronutrients for plant growth and development, but the Zn-sensing mechanisms are poorly understood in plants. Two Arabidopsis bZIP transcription factors were previously shown to modulate plant responses to Zn deficiency. In this study, the authors find that they are indeed the sensors of Zn in Arabidopsis.
In rice, it is known that miR168 regulates AGO1. Using a target mimic approach to suppress the microRNA enhances resistance against rice blast disease, increases grain yield and shortens growth period, including in field trials.
The implementation of RNA viral transfection technology in multiple plant species allows transient expression or silencing of specific regulatory genes in various regulatory circuits to rapidly fine-tune multiple traits without modifying the genome.
The authors apply state-of-the-art genomic approaches to characterize a novel late blight resistance gene in a wild Solanaceae. This gene, when expressed in cultivated potato, confers a broad and robust resistance to many Phytophthora infestans isolates.
The kinase WEE1 regulates replication stress responses by directly phosphorylating cell cycle driver CDKs. Now, WEE1 is found to regulate CDKs via an indirect pathway involving the E3 ligase FBL17 and CDK inhibitors, a mechanism probably shared between plants and humans.
Genomic analyses of ancient and modern common beans reveal that most domesticated traits were selected 2,500 years ago or earlier, but genetic erosion occurred only in the past 600 years. This decoupling indicates a weak selection pressure imposed by early Andean farmers.
Comparative analysis of genetic variations of bread wheat accessions created in the last 150 years and 45 related species revealed a major contribution of introgressions and chromosomal rearrangements to cultivated wheat diversity.
Sphingolipid desaturases can modify membrane lipids and change cold tolerance. Two of these enzymes have the same function in Arabidopsis and moss, but their evolutionary origins are different.
The source of pre-Inca agriculture in the Atacama Desert of Chile has been the subject of multiple theories, but this Article uses preserved maize remains to deduce that coastal guano deposits were utilized in an impressive display of social and ecological sophistication.
In Arabidopsis, the UV receptor UVR8 is functionally connected to DNA methylase DRM2. Through this interaction, UV light prevents DRM2 association with chromatin, suppressing DNA methylation and the associated transcriptional changes.