Plants and agriculture

Featured articles

• 

  Fostering temporal crop diversification to reduce pesticide use

  The potential of crop diversification to reduce pesticide use has not been quantified at large scales. Here, the authors use a national network of 1334 cropping system to identify the effect of increasing temporal crop diversity on pesticide use for 16 common crops.

  • Maé Guinet
  • Guillaume Adeux
  • Nicolas Munier-Jolain

  ArticleOpen Access16 Nov 2023 Nature Communications
• 

  Deposition and water repelling of temperature-responsive nanopesticides on leaves

  Weak adhesion is a common hindrance to efficient utilization of pesticides in agricultural applications. Here, authors demonstrate leaf-adhesive tebuconazole nanopesticides which can be water-dispersed via flash nanoprecipitation using temperature-responsive copolymers PDMAEMA-b-PCL as the carrier.

  • Jie Tang
  • Xiaojing Tong
  • Yisheng Xu

  ArticleOpen Access12 Oct 2023 Nature Communications
• 

  The pan-genome and local adaptation of Arabidopsis thaliana

  Single reference genomes and short-read sequencing data are not enough to harness the full genetic variation of a species. Here, the authors report pan-genome of Arabidopsis thaliana based on chromosomal-level genomes of 32 accessions and identify variations associated with local adaptation.

  • Minghui Kang
  • Haolin Wu
  • Jianquan Liu

  ArticleOpen Access6 Oct 2023 Nature Communications
• 

  Characterization of the horse chestnut genome reveals the evolution of aescin and aesculin biosynthesis

  Horse chestnut (Aesculus chinensis) is a tree species that can produce medicinal compounds such as aescin and aesculin. Here, the authors assemble its genome, identify key genes involved in the biosynthesis of these two group of compounds, and achieve the de novo synthesis of aesculin in E. coli.

  • Wei Sun
  • Qinggang Yin
  • Shilin Chen

  ArticleOpen Access13 Oct 2023 Nature Communications
• 

  Global mean nitrogen recovery efficiency in croplands can be enhanced by optimal nutrient, crop and soil management practices

  Enhancing nitrogen use efficiency can improve global food production while minimizing environmental damage. Here, the authors combine 29 meta-analyses revealing that tailored practices based on local conditions can boost NUEr by 30% with variation between high- and middle-income regions.

  • Luncheng You
  • Gerard H. Ros
  • Wim de Vries

  ArticleOpen Access16 Sep 2023 Nature Communications
• 

  A de novo evolved gene contributes to rice grain shape difference between indica and japonica

  Genetic bases of grain shape differentiation between the two subspecies of Asian cultivated rice have not been fully elucidated. Here, the authors report GSE9, a de novo gene evolved from a non-coding region of wild rice through acquisition of start codon, contributes to the grain shape difference between the two subspecies.

  • Rujia Chen
  • Ning Xiao
  • Zefeng Yang

  ArticleOpen Access22 Sep 2023 Nature Communications
• 

  Cloning of the wheat leaf rust resistance gene Lr47 introgressed from Aegilops speltoides

  Leaf rust is one of the most severe foliar diseases of wheat. Here, the authors report the cloning of Lr47, a broadly effective leaf rust resistance gene introgressed into wheat from Aegilops speltoides, and show it encodes a coiled-coil nucleotide-binding leucine-rich repeat protein.

  • Hongna Li
  • Lei Hua
  • Shisheng Chen

  ArticleOpen Access28 Sep 2023 Nature Communications
• 

  Efficient plant genome engineering using a probiotic sourced CRISPR-Cas9 system

  In the field of plant genome engineering, new nucleases with improved editing efficiency and alterative PAM requirements are needed. Here, the authors report a probiotic sourced CRISPR-LrCas9 system with similar PAM requirement to Cas12a and show its high efficiencies in various genome editing applications.

  • Zhaohui Zhong
  • Guanqing Liu
  • Yong Zhang

  ArticleOpen Access29 Sep 2023 Nature Communications
• 

  Arabidopsis TCP4 transcription factor inhibits high temperature-induced homeotic conversion of ovules

  Global warming threatens food security and plant survival. This paper demonstrates that Class II TCP transcription factors are critical for specifying ovule identity and inhibiting the conversion of ovules into carpelloids under high temperature.

  • Jingqiu Lan
  • Ning Wang
  • Genji Qin

  ArticleOpen Access13 Sep 2023 Nature Communications
• 

  A pathogen-induced putative NAC transcription factor mediates leaf rust resistance in barley

  Rph7 is a previously mapped barley leaf rust resistance locus, but the causal resistance gene remains unclear. Here, combining a fine mapping approach with RNA-Seq based analysis, the authors clone Rph7 and show it encodes putative NAC transcription factor containing a C-terminal BED domain.

  • Chunhong Chen
  • Matthias Jost
  • Peter M. Dracatos

  ArticleOpen Access6 Sep 2023 Nature Communications
• 

  Genomes of cultivated and wild Capsicum species provide insights into pepper domestication and population differentiation

  Existing genetics and genomics studies of peppers mainly focus on single species. Here, the authors report a pepper graph pan-genome and a genome variation map of 500 accessions from five domesticated species and close wild relatives to reveal their domestication, introgression and population differentiation.

  • Feng Liu
  • Jiantao Zhao
  • Xuexiao Zou

  ArticleOpen Access7 Sep 2023 Nature Communications
• 

  High-efficiency green management of potato late blight by a self-assembled multicomponent nano-bioprotectant

  Unlike the other plant pathogens, Phytophtora infestans, the causative pathogen of potato late blight, can hardly take up dsRNA, which is a key obstacle in using dsRNA for disease control. Here, the authors design a self-assembled multicomponent nano-bioprotectant for potato late blight management.

  • Yuxi Wang
  • Mingshan Li
  • Xiaodan Wang

  ArticleOpen Access12 Sep 2023 Nature Communications
• 

  Two complementary genes in a presence-absence variation contribute to indica-japonica reproductive isolation in rice

  The mechanisms of the partial reproductive isolation between the two subspecies of rice remains obscure. Here, the authors show that the two adjacent genes form a killer-protector system to induce hybrid male sterility and reproductive isolation between indica and japonica.

  • Daiqi Wang
  • Hongru Wang
  • Ziqiang Liu

  ArticleOpen Access28 Jul 2023 Nature Communications
• 

  Genomic insight into domestication of rubber tree

  Understanding the genetic basis of rubber tree domestication is critical for improving natural rubber production. Here, the authors assemble the genome of the rubber tree clone CATAS8-79 and conduct population and genetic association analyses to reveal the function of phytosulfokine in regulating number of laticifer rings.

  • Jinquan Chao
  • Shaohua Wu
  • Wei-Min Tian

  ArticleOpen Access2 Aug 2023 Nature Communications
• 

  Subtelomeric 5-enolpyruvylshikimate-3-phosphate synthase copy number variation confers glyphosate resistance in Eleusine indica

  Resistance to herbicide glyphosate can be evolved trough copy number variation (CNV) of its target gene EPSPS in goosegrass. Here, the authors assemble the genomes of glyphosate susceptible and resistance lines and provide evidence of sub-telomeric-repeat driven CNV of EPSPS could lead to glyphosate resistance.

  • Chun Zhang
  • Nicholas A. Johnson
  • Eric L. Patterson

  ArticleOpen Access11 Aug 2023 Nature Communications
• 

  The MOM1 complex recruits the RdDM machinery via MORC6 to establish de novo DNA methylation

  It has generally been considered that MOM1, a transcriptional silencing factor in plants, mediated silencing is independent or downstream of DNA methylation. Here, the authors show that MOM1 complex recruits the RdDM machinery through MORC6 to establish de novo DNA methylation in Arabidopsis.

  • Zheng Li
  • Ming Wang
  • Steven E. Jacobsen

  ArticleOpen Access12 Jul 2023 Nature Communications
• 

  Manipulating microRNA miR408 enhances both biomass yield and saccharification efficiency in poplar

  Modifying plant lignin pathway to enhance saccharification efficiency is often associated with growth penalty. Here, the authors show that overexpression of Pag-miR408 in poplar leads to enhanced saccharification efficiency and growth in both laboratory and field conditions, and laccase genes are the targets of Pag-miR408.

  • Yayu Guo
  • Shufang Wang
  • Jinxing Lin

  ArticleOpen Access18 Jul 2023 Nature Communications
• 

  Comparative genomics reveals a unique nitrogen-carbon balance system in Asteraceae

  Asteraceae is the largest family of flowering plants. Here, the authors assemble the genomes of stem lettuce (within Asteraceae) and beach cabbage (within Goodeniaceae) for evolutionary genomics analyses and reveal the absence of the core regulatory gene of nitrogen and carbon assimilation in Asteraceae.

  • Fei Shen
  • Yajuan Qin
  • Xiaozeng Yang

  ArticleOpen Access20 Jul 2023 Nature Communications
• 

  Genome analyses reveal population structure and a purple stigma color gene candidate in finger millet

  Finger millet is an orphan crop key to food security of people living in eastern Africa, India and Nepal. Here, the authors assemble its genome, conduct population genetics analyses to infer the diversification history, and reveal a candidate gene for purple coloration of anthers and stigma.

  • Katrien M. Devos
  • Peng Qi
  • Damaris A. Odeny

  ArticleOpen Access21 Jun 2023 Nature Communications
• 

  Genome-wide association studies identify OsWRKY53 as a key regulator of salt tolerance in rice

  Only a few genetic variants have been identified to mediate salt tolerance in major crops and their molecular mechanisms are largely unknown. Here, the authors identify WRKY53 as a negative regulator of salt tolerance in rice, and show that it directly trans-regulates expression of MKK10.2 and HKT1;5 to meditate salt tolerance.

  • Jun Yu
  • Chengsong Zhu
  • Jianmin Wan

  ArticleOpen Access15 Jun 2023 Nature Communications
• 

  Transposon signatures of allopolyploid genome evolution

  Assigning assembled chromosomes to subgenome in allopolypoid genome analysis is challenging. Here, the authors report a statistical formwork for identifying evolutionarily coherent subgneomes relying on transposable elements to group chromosomes into sets with shared ancestry and apply it in cyprinids, false flax and strawberry.

  • Adam M. Session
  • Daniel S. Rokhsar

  ArticleOpen Access1 Jun 2023 Nature Communications
• 

  An E2-E3 pair contributes to seed size control in grain crops

  Researchers identify an E3 ligase SGD1 and its E2 partner responsible for grain yield control using foxtail millet, and reveal its conserved role in wheat, maize, and rice. Furthermore, SGD1 ubiquitinates the brassinosteroid receptor BRI1 thus stabilizing it and promoting grain yield in crops.

  • Sha Tang
  • Zhiying Zhao
  • Xianmin Diao

  ArticleOpen Access29 May 2023 Nature Communications
• 

  The COG1-OsSERL2 complex senses cold to trigger signaling network for chilling tolerance in japonica rice

  Improvement of chilling tolerance is a key strategy in rice production. Here the authors report that the QTL gene COG1 confers chilling tolerance in japonica rice. COG1 interacts and activates OsSERL2 to transmit the cold signal for chilling defense.

  • Changxuan Xia
  • Guohua Liang
  • Yunyuan Xu

  ArticleOpen Access29 May 2023 Nature Communications
• 

  OsMADS17 simultaneously increases grain number and grain weight in rice

  The trade-off between grain number and grain weight is a major obstacle for increasing rice yield. Here, the authors show that variation in 5’ UTR of OsMADS17 can simultaneously increase grain number and grain weight through decreasing mRNA translation efficiency.

  • Yuanjie Li
  • Sheng Wu
  • Chuanqing Sun

  ArticleOpen Access29 May 2023 Nature Communications
• 

  Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding

  Lablab is a legume native to Africa and cultivated throughout the tropics for food and forage; however, as an orphan crop, limited genomic resources hampers its genetic improvement. Here, an African-led South-North plant genome collaboration produces an improved genome assembly and population genomic resource to accelerate its breeding.

  • Isaac Njaci
  • Bernice Waweru
  • Chris S. Jones

  ArticleOpen Access17 Apr 2023 Nature Communications
• 

  Engineering α-carboxysomes into plant chloroplasts to support autotrophic photosynthesis

  Engineering carboxysomes into crop chloroplasts is a potential route to improve photosynthesis and crop yield. Here, the authors engineer functional CO₂-fixing modules into tobacco chloroplasts to improve their photosynthesis and productivity.

  • Taiyu Chen
  • Marta Hojka
  • Lu-Ning Liu

  ArticleOpen Access25 Apr 2023 Nature Communications
• 

  An integrase toolbox to record gene-expression during plant development

  Synthetic circuits that can record in vivo signaling networks is critical in elucidating developmental process. Here, the authors describe the engineering and application of synthetic in vivo recorders with different promoters that can drive spatiotemporally-specific integrase switching during lateral root initiation.

  • Sarah Guiziou
  • Cassandra J. Maranas
  • Jennifer L. Nemhauser

  ArticleOpen Access3 Apr 2023 Nature Communications
• 

  Selection and adaptive introgression guided the complex evolutionary history of the European common bean

  Common bean has two distinct domestication centers in Mesoamerica and in the Andes. The authors show that the Andean is the first gene pool successfully introduced in Europe and identify signature of pervasive introgression among gene pools and of selection for flowering underlying adaptation.

  • Elisa Bellucci
  • Andrea Benazzo
  • Roberto Papa

  ArticleOpen Access5 Apr 2023 Nature Communications
• 

  The methylation landscape of giga-genome and the epigenetic timer of age in Chinese pine

  DNA methylation level declines during aging of mammals. Here, the authors report single-base resolution landscape of cytosine DNA methylation at different ages of Chinese pine and show that the global cytosine DNA methylation gradually increases as age progresses.

  • Jiang Li
  • Fangxu Han
  • Shihui Niu

  ArticleOpen Access7 Apr 2023 Nature Communications
• 

  Impact of small farmers' access to improved seeds and deforestation in DR Congo

  Availability of modern seed varieties in developing countries has had positive effects on households’ well-being. Here, the authors show that without support to maintain soil fertility, access to modern seed varieties increases primary forest clearance in DR Congo.

  • Tanguy Bernard
  • Sylvie Lambert
  • Margaux Vinez

  ArticleOpen Access23 Mar 2023 Nature Communications
• 

  The Torreya grandis genome illuminates the origin and evolution of gymnosperm-specific sciadonic acid biosynthesis

  Torreya grandis is a gymnosperm species that produces edible seeds with high level of sciadonic acid (SCA). Here, the authors assemble the genome of this species, preform methylone analysis of seeds at different developmental stages, and reveal two key genes involved in SCA biosynthesis.

  • Heqiang Lou
  • Lili Song
  • Jiasheng Wu

  ArticleOpen Access10 Mar 2023 Nature Communications
• 

  Revealing evolution of tropane alkaloid biosynthesis by analyzing two genomes in the Solanaceae family

  Tropane alkaloids (TAs) are synthesized by some species in Solanaceae. Here, the authors assemble the genomes of two representative TAs producing species, show that gene loss shapes uneven distribution of TAs in Solanaceae, and identify a cytochrome P450 gene catalyzing N-demethylation of hyoscyamine to generate norhyoscyamine.

  • Fangyuan Zhang
  • Fei Qiu
  • Zhihua Liao

  ArticleOpen Access15 Mar 2023 Nature Communications
• 

  Allelic variation of TaWD40-4B.1 contributes to drought tolerance by modulating catalase activity in wheat

  Drought stress limits wheat production around the world. Here, the authors report allelic variation of a WD40 encoding gene TaWD40-4B.1 contributes to wheat drought tolerance by interacting with canonical catalases as a chaperone to promote their activities to avoid ROS over accumulation.

  • Geng Tian
  • Shubin Wang
  • Mengcheng Wang

  ArticleOpen Access2 Mar 2023 Nature Communications
• 

  Histone H2A monoubiquitination marks are targeted to specific sites by cohesin subunits in Arabidopsis

  How histone H2A monoubiquitination (H2Aub1) is established at specific genomic locations remains unclear. Here, the authors report that Arabidopsis cohesin subunits SCC3 and SYN4 are involved in H2Aub1 through their direct or indirect interaction with BMI1A/B/C subunits of PRC1, the E3 ligases in PRC1 for H2Aub1.

  • Yu Zhang
  • Min Ma
  • Yuda Fang

  ArticleOpen Access3 Mar 2023 Nature Communications
• 

  Tiller Number1 encodes an ankyrin repeat protein that controls tillering in bread wheat

  Tiller number is an important agronomic trait of wheat. Here, the authors clone a positive regulator of wheat tiller number and show that the encoded ankyrin repeat protein can promote tiller bud outgrowth through inhibiting ABA biosynthesis and signaling.

  • Chunhao Dong
  • Lichao Zhang
  • Xu Liu

  ArticleOpen Access14 Feb 2023 Nature Communications
• 

  Genomics and biochemical analyses reveal a metabolon key to β-L-ODAP biosynthesis in Lathyrus sativus

  Grass pea is a multi-stress tolerant orphan crop and developing cultivars with decreased accumulation of the neurotoxin β-L-oxalyl-2,3-diaminopropionic acid (β-L-ODAP) is one of its breeding objectives. Here, the authors assemble its genome and reveal genes involved in the biosynthesis of β-L-ODAP.

  • Anne Edwards
  • Isaac Njaci
  • Peter M. F. Emmrich

  ArticleOpen Access16 Feb 2023 Nature Communications
• 

  A phosphoinositide hub connects CLE peptide signaling and polar auxin efflux regulation

  In this paper the authors demonstrate that auxin efflux in the phloem vascular tissue of plants is determined by antagonism between CLE peptide signaling pathways and phosphoinositide kinases.

  • Qian Wang
  • A. Cecilia Aliaga Fandino
  • Christian S. Hardtke

  ArticleOpen Access26 Jan 2023 Nature Communications
• 

  Ethylene-triggered subcellular trafficking of CTR1 enhances the response to ethylene gas

  Park et al. show that upon exposure to ethylene gas, CTR1, which normally has a negative effect on ethylene signaling, translocates into the nucleus and enhances the plant’s response to ethylene by stabilizing the EIN3 transcription factor.

  • Hye Lin Park
  • Dong Hye Seo
  • Gyeong Mee Yoon

  ArticleOpen Access23 Jan 2023 Nature Communications
• 

  Stabilization of membrane topologies by proteinaceous remorin scaffolds

  In plants, plasma membrane topologies are predominantly driven by the cell wall. In this study, the authors demonstrate that remorin proteins can take over these functions at specialized, unwalled plasma membranes such as infection droplets associated with symbiotic infection threads.

  • Chao Su
  • Marta Rodriguez-Franco
  • Thomas Ott

  ArticleOpen Access19 Jan 2023 Nature Communications
• 

  Emission of floral volatiles is facilitated by cell-wall non-specific lipid transfer proteins

  Volatile compounds to be released from the plant cell to the atmosphere must cross the cell wall. Here the authors show that cell-wall localized non-specific lipid transfer proteins facilitate the diffusion of volatiles across the hydrophilic cell wall.

  • Pan Liao
  • Itay Maoz
  • Natalia Dudareva

  ArticleOpen Access19 Jan 2023 Nature Communications
• 

  Arabidopsis DXO1 activates RNMT1 to methylate the mRNA guanosine cap

  Arabidopsis DXO1 is a member of the eukaryotic DXO family of decapping enzymes for NAD-capped RNAs. Here the authors show that DXO1 is an essential component in canonical m⁷G capping of mRNA and activates RNMT1 which methylates the guanosine cap to form the m⁷G cap.

  • Chen Xiao
  • Kaien Li
  • Yiji Xia

  ArticleOpen Access13 Jan 2023 Nature Communications
• 

  Dosage differences in 12-OXOPHYTODIENOATE REDUCTASE genes modulate wheat root growth

  Introgression of the short arm of rye chromosome one into common wheat increases root biomass and drought tolerance, but the underlying genetic basis is unknown. Here, the authors report that dosage differences in 12-OXOPHYTODIENOATE REDUCTASE genes modulate the differences of wheat root architecture.

  • Gilad Gabay
  • Hanchao Wang
  • Jorge Dubcovsky

  ArticleOpen Access1 Feb 2023 Nature Communications
• 

  High-frequency synthetic apomixis in hybrid rice

  Previously, a proof-of-concept for low frequency synthetic apomixis was established in a laboratory strain of rice by combining MiMe mutations with the egg cell expression of the embryogenic trigger - BBM1. Here, the authors achieve clonal seed formation in hybrid rice with almost full penetrance and higher fertility.

  • Aurore Vernet
  • Donaldo Meynard
  • Emmanuel Guiderdoni

  ArticleOpen Access27 Dec 2022 Nature Communications
• 

  The effect of DNA polymorphisms and natural variation on crossover hotspot activity in Arabidopsis hybrids

  The effect of sequence polymorphisms on recombination is not fully understood. Here, the authors develop the seed-typing method to map crossovers (COs) by sequencing and show that COs occur preferentially within polymorphic hotspots and that this effect depends on the mismatch repair gene MSH2 in Arabidopsis.

  • Maja Szymanska-Lejman
  • Wojciech Dziegielewski
  • Piotr A. Ziolkowski

  ArticleOpen Access3 Jan 2023 Nature Communications
• 

  Improving cassava bacterial blight resistance by editing the epigenome

  Activating the expression of host susceptibility (S) genes is one of the strategies plant pathogens employed to promote infection of their host. Here, the authors show that targeted methylation at the TAL20 effector binding element of the cassava SWEET10a gene lead to resistance to Xanthomonas phaseoli.

  • Kira M. Veley
  • Kiona Elliott
  • Rebecca S. Bart

  ArticleOpen Access5 Jan 2023 Nature Communications
• 

  Common evolutionary trajectory of short life-cycle in Brassicaceae ruderal weeds

  Understanding origin and adaptation of weeds is important for their management. Here, via genome assembly, population genomics, and QTL mapping, the authors establish Cardamine occulta as a model to study weed ruderality and show FLC and CRY2 as genetic drivers for the establishment of short life cycle.

  • Ling-Zi Li
  • Zhou-Geng Xu
  • Jia-Wei Wang

  ArticleOpen Access18 Jan 2023 Nature Communications
• 

  Complementary peptides represent a credible alternative to agrochemicals by activating translation of targeted proteins

  Feeding an increasing world population in the context of climate change is one of the grand challenges faced by our generation. Here, the authors show that external application of synthetic complementary peptides can increase the abundance of target proteins to modulate plant growth or stress resistance.

  • Mélanie Ormancey
  • Bruno Guillotin
  • Jean-Philippe Combier

  ArticleOpen Access17 Jan 2023 Nature Communications
• 

  A new Progressive Management Pathway for improving seaweed biosecurity

  The rapid expansion and globalization of the seaweed production industry, combined with rising seawater temperatures and coastal eutrophication, has led to an increase in infectious diseases and pest outbreaks. Here, we propose a novel Progressive Management Pathway for improving Seaweed Biosecurity.

  • Elizabeth J. Cottier-Cook
  • Jennefe P. Cabarubias
  • Melba G. Bondad-Reantaso

  CommentOpen Access1 Dec 2022 Nature Communications