From 2000 to 2019,11,895 new names or new additions to the Chinese vascular flora were proposed by 4226 individuals(4086 articles and 140 books),as documented in the Chinese Plant Names Index(CPNI).During those 20 yea...From 2000 to 2019,11,895 new names or new additions to the Chinese vascular flora were proposed by 4226 individuals(4086 articles and 140 books),as documented in the Chinese Plant Names Index(CPNI).During those 20 years,4407 new taxa of vascular plants were described from China,including 7 new families,132 new genera,3543 new species,68 new subspecies,497 new varieties and 160 new forms.Additionally,3562 new combinations and names at new rank and 306 new replacement names were also proposed.Among these various new names were 150 invalid names and 108 illegitimate names,including some that have not been resolved.Six hundred and forty three vascular plants were reported as new to China,while 2349 names were reduced to synonyms of 1406 taxa.The data show that the Chinese flora increased in size at the rate of about 200 taxa annually during those years.Despite the increased attention given to biodiversity in recent years,the evidence indicates that a large number of species in China have yet to be discovered.Further basic investigation of the Chinese flora is needed.Additionally,in the past two decades only 8.5%of the newly published species have been based on molecular evidence,but in the past five years such data have increased significantly,reaching about 20%.Molecular data will undoubtedly become increasingly significant in the discovery of new species in the coming years.Yunnan,Guangxi,Sichuan,Xizang and Taiwan were important sources of new discoveries,with more than 3300 new taxa and records from these five provinces.By area,Taiwan and Hainan,two islands in southern China,have the highest density of newly discovered species.Regional plant surveys are still needed,especially in areas in the southwest and on the southern islands.展开更多
Rho GTPases are molecular switches that act as key regulators of a many cellular processes, including cell movement, morphogenesis, host defense, cell division and gene expression. Rho GTPases are found in all eukaryo...Rho GTPases are molecular switches that act as key regulators of a many cellular processes, including cell movement, morphogenesis, host defense, cell division and gene expression. Rho GTPases are found in all eukaryotic kingdoms. Plants lack clear homologs to conventional Rho GTPases found in yeast and animals; instead, they have over time developed a unique subfamily, ROPs, also known as RAC. The origin of ROP-like proteins appears to precede the appearance of land plants. This review aims to discuss the evolution of ROP/RAC and to compare plant ROP and animal Rho GTPases, focusing on similarities and differences in regulation of the GTPases and their downstream effectors.展开更多
Gamma-aminobutyric acid(GABA)is a ubiquitous four-carbon non-protein amino acid that is involved in various physiological processes of plant growth and development,such as root architecture,stem elongation,leaf senesc...Gamma-aminobutyric acid(GABA)is a ubiquitous four-carbon non-protein amino acid that is involved in various physiological processes of plant growth and development,such as root architecture,stem elongation,leaf senescence,pollen tube growth,fruit ripening,and seed germination.GABA is also related to plant stress responses,such as drought,salt,cold,and heat stresses.Regulation of GABA in plant stress responses is complex and involves multiple signaling pathways,including calcium and hormone signaling.This paper systematically reviews the synthesis,metabolic pathways and regulatory role of GABA in plants,which will provide new insights into the understanding of plant growth and stress responses and offer novel strategies for improving crop productivity and stress.展开更多
Small RNAs(sRNAs)are essential regulatory molecules,and there are three major sRNA classes in plants:microRNAs(miRNAs),phased small interfering RNAs(phased siRNAs or phasiRNAs),and heterochromatic siRNAs(hc-siRNAs).Ex...Small RNAs(sRNAs)are essential regulatory molecules,and there are three major sRNA classes in plants:microRNAs(miRNAs),phased small interfering RNAs(phased siRNAs or phasiRNAs),and heterochromatic siRNAs(hc-siRNAs).Excluding miRNAs,the other two classes are not well annotated or available in public databases for most sequenced plant genomes.We performed a comprehensive sRNA annotation of 143 plant species that have fully sequenced genomes and next-generation sequencing sRNA data publicly available.The results are available via an online repository called sRNAanno(www.plantsRNAs.org).Compared with other public plant sRNA databases,we obtained was much more miRNA annotations,which are more complete and reliable because of the consistent and highly stringent criteria used in our miRNA annotations.sRNAanno also provides free access to genomic information for>22,721 PHAS loci and>22 million hc-siRNA loci annotated from these 143 plant species.Both miRNA and PHAS loci can be easily browsed to view their main features,and a collection of archetypal trans-acting siRNA 3(TAS3)genes were annotated separately for quick access.To facilitate the ease of sRNA annotation,sRNAanno provides free service for sRNA annotations to the community.In summary,the sRNAanno database is a great resource to facilitate genomic and genetic research on plant small RNAs.展开更多
With the rapid development of modern molecular biology and bioinformatics,many studies have proved that transcription factors play an important role in regulating the growth and development of plants.SPATULA(SPT)belon...With the rapid development of modern molecular biology and bioinformatics,many studies have proved that transcription factors play an important role in regulating the growth and development of plants.SPATULA(SPT)belongs to the bHLH transcription family and participates in many processes of regulating plant growth and development.This review systemically summarizes the multiple roles of SPT in plant growth,development,and stress response,including seed germination,flowering,leaf size,carpel development,and root elongation,which is helpful for us to better understand the functions of SPT.展开更多
Bacterial blight(BB),caused by Xanthomonas oryzae pathovar oryzae(Xoo),poses a significant threat to rice production,particularly in Asia and West Africa.Breeding resistance against BB in elite rice varieties is cruci...Bacterial blight(BB),caused by Xanthomonas oryzae pathovar oryzae(Xoo),poses a significant threat to rice production,particularly in Asia and West Africa.Breeding resistance against BB in elite rice varieties is crucial to advancing rice breeding program and supporting smallholder farmers.Transcription Activator-Like effectors(TALes)are key virulence factors in Xoo,with some targeting the susceptibility(S)genes such as the sugar transporter SWEET genes in rice.Among these,SWEET14 is an important S gene,with its promoter bound by the TALe TalC which exists across all sequenced African Xoo isolates.In the present study,we utilized CRISPR/Cas9-based cytidine and adenine base editors to alter the effector binding element(EBE)of TalC in the promoter of SWEET14 in rice cultivars Kitaake,IR24,and Zhonghua 11.Mutations with C to T changes in EBE led to reduced SWEET14 induction by TalC-containing Xoo strains,resulting in resistance to African Xoo isolates reliant on TalC for virulence.Conversely,A to G changes retained SWEET14 inducibility and susceptibility to Xoo in edited lines.Importantly,no off-target mutations were detected at predicted sites,and the edited lines exhibited no obvious defects in major agronomic traits in Kitaake.These results underscore the effectiveness of base editing systems for both molecular biology research and crop improvement endeavors.展开更多
Male gametes are produced in the anthers and are essential for fertilization and seed setting.A transverse section of the anther reveals four layers:the epidermis,endothecium,middle layer,and tapetum.The tapetum,being...Male gametes are produced in the anthers and are essential for fertilization and seed setting.A transverse section of the anther reveals four layers:the epidermis,endothecium,middle layer,and tapetum.The tapetum,being the innermost layer,plays a critical role in supplying nutrients,enzymes,and protection to microspores.Detailed microscopic and ultrastructural analyses have revealed highly active and well-organized structures within the tapetum,referred to as tapetal organelles.Molecular studies have highlighted the significance of tapetal cell death and the nurturing role of the tapetum for microspores.However,the mechanisms by which these processes are mediated by tapetal organelles at the cellular level remain elusive.The discovery of mutants defective in tapetal organelles has enabled further investigations into their structure,morphology,and function.This review discusses the molecular and functional roles of various tapetal organelles,such as plastids(amyloplasts and elaioplasts),mitochondria,tapetosomes,endoplasmic reticulum,and lipid bodies.We provide an overview of their roles,highlight key organelles in the tapetum,and address recent challenges and potential applications of genes regulating tapetal organelles in enhancing crop fertility.展开更多
Saussurea is one of the largest and most rapidly evolving genera within the Asteraceae,comprising approximately 520 species from the Northern Hemisphere.A comprehensive infrageneric classification,supported by robust ...Saussurea is one of the largest and most rapidly evolving genera within the Asteraceae,comprising approximately 520 species from the Northern Hemisphere.A comprehensive infrageneric classification,supported by robust phylogenetic trees and corroborated by morphological and other data,has not yet been published.For the first time,we recovered a well-resolved nuclear phylogeny of Saussurea consisting of four main clades,which was also supported by morphological data.Our analyses show that ancient hybridization is the most likely source of deep cytoplasmic-nuclear conflict in Saussurea,and a phylogeny based on nuclear data is more suitable than one based on chloroplast data for exploring the infrageneric classification of Saussurea.Based on the nuclear phylogeny obtained and morphological characters,we proposed a revised infrageneric taxonomy of Saussurea,which includes four subgenera and 13 sections.Specifically,1)S.sect.Cincta,S.sect.Gymnocline,S.sect.Lagurostemon,and S.sect.Strictae were moved from S.subg.Saussurea to S.subg.Amphilaena,2)S.sect.Pseudoeriocoryne was moved from S.subg.Eriocoryne to S.subg.Amphilaena,and 3)S.sect.Laguranthera was moved from S.subg.Saussurea to S.subg.Theodorea.展开更多
Global agriculture faces critical challenges due to the overreliance on chemical pesticides,driving an urgent need for eco-friendly biopesticides and biostimulants(BioP&S).Plant-derived peptides,evolved as natural...Global agriculture faces critical challenges due to the overreliance on chemical pesticides,driving an urgent need for eco-friendly biopesticides and biostimulants(BioP&S).Plant-derived peptides,evolved as natural reg-ulators of growth,development,and stress adaptation,offer immense potential as biodegradable and biocom-patible alternatives.However,their commercialization remains constrained by limited exploration of the diver-sity and activity,high production costs,incomplete ecological risk evaluations,and undeffned application scenarios.This Perspective overviews emerging discoveries and proposes integrated frameworks for plant peptide identiffcation,molecular design,biomanufacturing,and ecological impact assessments integrated with germplasm development and ffeld application systems.To overcome existing bottlenecks,we discuss the integrative potential of emerging technologies that synergistically combine artiffcial intelligence for high-throughput peptide discovery and de novo structural reffnement,nanotechnology for enhancing environ-mental resilience and targeted delivery,and synthetic biology for developing industrial biomanufacturing platforms.We emphasize the need to align phytopeptide BioP&S with compatible germplasm resources,stage-speciffc crop requirements,and complementary chemical pesticides to maximize their efffcacy,cost-effectiveness,and trait-speciffc agronomic performance by integrating with precision agriculture systems.Future advancements will rely on interdisciplinary innovations and policy support to unlock their full potential in enhancing crop resilience,productivity,and quality while ensuring ecological sustainability.展开更多
Herbicide resistance in crops has extended the scope of herbicide applications to control weeds. The introduction of herbicide resistant crops resulted in a major shift in the way that herbicides are used in many crop...Herbicide resistance in crops has extended the scope of herbicide applications to control weeds. The introduction of herbicide resistant crops resulted in a major shift in the way that herbicides are used in many crops, but not necessarily increased the prevalence of herbicide use, especially in wheat. Wheat is one of the most widely grown crops in the world and currently only two major herbicide-resistant wheat groups have been commercialized to manage weeds in a cost-effective manner. However, sustainable wheat production is threatened by the expanding occurrence of herbicide-resistant weed populations with limited efforts to discover new herbicide molecules. Selective control of certain problematic weeds in wheat was impossible until development and introduction of the technologies, Clearfield and Co AXium Production Systems. However, the current limitations of reliance on specific herbicides and evolution of resistant weeds mandate precautions and considerations when using these systems to prevent the loss of existing herbicide resources and continue sustainable wheat production. The focus of this review is to provide an overview of natural pre-existing herbicide resistance and development of herbicide-resistant technologies in wheat. The mechanisms of resistance to herbicides in wheat as well as the weed populations in wheat cropping systems, and implications for weed management are discussed.展开更多
Seeds germination is strictly controlled by environment factor such as high temperature(HT)through altering the balance between gibberellin acid(GA)and abscisic acid(ABA).Gama-aminobutyric acid(GABA)is a small molecul...Seeds germination is strictly controlled by environment factor such as high temperature(HT)through altering the balance between gibberellin acid(GA)and abscisic acid(ABA).Gama-aminobutyric acid(GABA)is a small molecule with four-carbon amino acid,which plays a crucial role during plant physiological process associated with pollination,wounding or abiotic stress,but its role in seeds germination under HT remains elusive.In this study we found that HT induced the overaccumulation of ROS,mainly H_(2)O_(2) and O_(2)^(-),to suppress seeds germination,meanwhile,HT also activated the enzyme activity of GAD for the rapid accumulation of GABA,hinting the regulatory function of GABA in con-trolling seeds germination against HT stress.Applying GABA directly attenuated HT-induced ROS accumulation,upregulated GA biosynthesis and downregulated ABA biosynthesis,ultimately enhanced seeds germination.Consistently,genetic analysis using the gad1/2 mutant defective in GABA biosynthesis,or pop2-5 mutant with high endogenous GABA content supported the potential function of GABA in improving seeds germination tolerance to HT through scavenging ROS overaccumulation.Based on these data,we propose that GABA acts as a novel signal to enhance thermotolerance of seeds germination through alleviating the ROS damage to seeds viability.展开更多
Begonia, one of the most diverse plant taxa and the fifth or sixth largest angiosperm genus, consists of over1800 accepted species. The number of species recognized within this genus has greatly increased over the pas...Begonia, one of the most diverse plant taxa and the fifth or sixth largest angiosperm genus, consists of over1800 accepted species. The number of species recognized within this genus has greatly increased over the past 20 years, rising from 80 to 200 species in China alone. Based on recent field surveys, the number of begonia species in China is predicted to be between 250 and 300. Given the large number of begonia species that still remain to be described, further taxonomical work is urgently required. This is especially true for Chinese Begonia, in which there is a huge diversity of habitat, habit, plant size, leaf type, flower and fruit morphology, and most species are narrowly distributed in isolated habitats that are subject to negative disturbances from climate change, as well as agricultural and industrial activities. Although the conservation status for the majority of species has been evaluated using the standards of the International Union for Conservation of Nature, the results don't represent the truth in many species, and also about11.5% of which are data-absent. In addition, illegal collection and over-harvesting of wild begonias for ornamental or medicinal use has increased due to the rapid development of internet commerce. Far more often than predicted, these species should be categorized as rare and endangered and require immediate protection. Ex situ conservation of Chinese begonias started in 1995 and over 60% of the total species have been so far introduced into cultivation by several major botanical gardens in China. However, only few research institutions, limited funds and human resources have been involved in Begonia conservation;moreover, no project has conducted reintroduction. Therefore, more conservation-based work remains to be done. Improved conservation of Chinese begonias in the future depends on further field survey, an improved understanding of population diversity, and integrative approaches, including in situ and ex situ conservation, seed banking, and plant reintroduction. Species-targeted conservation zones should be established for endangered species excluded from the existing nature reserves. Additionally, laws pertaining to plant protection should be extended to prevent the illegal collection and transaction of wild plants, particularly for those species with unique habitats and small populations.展开更多
Primary seed dormancy is an adaptive strategy that prevents germination for viable seeds in harsh environment,ensuring seeds germination under favorable condition.Accurately inducing seeds germination in a controllabl...Primary seed dormancy is an adaptive strategy that prevents germination for viable seeds in harsh environment,ensuring seeds germination under favorable condition.Accurately inducing seeds germination in a controllable manner is important for crop production.Thus searching the chemicals that efficiently breaks seed dormancy is valuable.DOG1 protein abundance in the freshly harvested seed is high,and its level is correlated to seed dormancy intensity,thus DOG1 is regarded as the timer to evaluate the seed dormancy degree.In this study,we found the carbon monoxide(CO)donor treatment,the transgenic line with high CO content,showed lower seed dormancy,while scavenging CO,or the mutant with lower CO level,presented strong primary seed dormancy,genetic analysis showed that DOG1 was targeted by CO signal and was prerequisite for CO-dependent seed dormancy release.Furthermore,we found CO signal activated the expression of ERF/AP2 transcriptional factor ERF12,as well as enhanced the binding of ERF12 to the promoter of DOG1,ultimately transcriptional silence of DOG1 expression to break primary seed dormancy.Meanwhile CO signal reduced the histone acetylation level at the chromatin of DOG1 locus to suppress its expression.Together,our results revealed that CO acts as the novel regulator to suppress DOG1 expression and efficiently break primary seed dormancy through activating the negative factor ERF12.展开更多
基金This study was supported by the Special Fund for Scientific Research of Shanghai Landscaping&City Appearance Administrative Bureau,China(G182415)the National Specimen Information Infrastructure(2018 Special Funds),China and Shanghai Sailing Program,China(14YF1413800).
文摘From 2000 to 2019,11,895 new names or new additions to the Chinese vascular flora were proposed by 4226 individuals(4086 articles and 140 books),as documented in the Chinese Plant Names Index(CPNI).During those 20 years,4407 new taxa of vascular plants were described from China,including 7 new families,132 new genera,3543 new species,68 new subspecies,497 new varieties and 160 new forms.Additionally,3562 new combinations and names at new rank and 306 new replacement names were also proposed.Among these various new names were 150 invalid names and 108 illegitimate names,including some that have not been resolved.Six hundred and forty three vascular plants were reported as new to China,while 2349 names were reduced to synonyms of 1406 taxa.The data show that the Chinese flora increased in size at the rate of about 200 taxa annually during those years.Despite the increased attention given to biodiversity in recent years,the evidence indicates that a large number of species in China have yet to be discovered.Further basic investigation of the Chinese flora is needed.Additionally,in the past two decades only 8.5%of the newly published species have been based on molecular evidence,but in the past five years such data have increased significantly,reaching about 20%.Molecular data will undoubtedly become increasingly significant in the discovery of new species in the coming years.Yunnan,Guangxi,Sichuan,Xizang and Taiwan were important sources of new discoveries,with more than 3300 new taxa and records from these five provinces.By area,Taiwan and Hainan,two islands in southern China,have the highest density of newly discovered species.Regional plant surveys are still needed,especially in areas in the southwest and on the southern islands.
基金This work was supported by the Bioteclmology and Functional genomics(FUGE)programs of the Norwegian Research Council through grants NFR 159959,164583 and 151991(T B,P W and A M B)by grants from the National Science Foundation,the Department of Energy and the US Department of Agriculture(Z Y).
文摘Rho GTPases are molecular switches that act as key regulators of a many cellular processes, including cell movement, morphogenesis, host defense, cell division and gene expression. Rho GTPases are found in all eukaryotic kingdoms. Plants lack clear homologs to conventional Rho GTPases found in yeast and animals; instead, they have over time developed a unique subfamily, ROPs, also known as RAC. The origin of ROP-like proteins appears to precede the appearance of land plants. This review aims to discuss the evolution of ROP/RAC and to compare plant ROP and animal Rho GTPases, focusing on similarities and differences in regulation of the GTPases and their downstream effectors.
基金supported by Start-Up Funding from Shanghai University and the National Natural Science Foundation of China(Grant No.31970289).
文摘Gamma-aminobutyric acid(GABA)is a ubiquitous four-carbon non-protein amino acid that is involved in various physiological processes of plant growth and development,such as root architecture,stem elongation,leaf senescence,pollen tube growth,fruit ripening,and seed germination.GABA is also related to plant stress responses,such as drought,salt,cold,and heat stresses.Regulation of GABA in plant stress responses is complex and involves multiple signaling pathways,including calcium and hormone signaling.This paper systematically reviews the synthesis,metabolic pathways and regulatory role of GABA in plants,which will provide new insights into the understanding of plant growth and stress responses and offer novel strategies for improving crop productivity and stress.
基金the National Key Research and Developmental Program of China(2018YFD1000104)the National Natural Science Foundation of China(#31872063)+4 种基金the Special Support Program of Guangdong Province(2019TX05N193)the Guangzhou Science and Technology Key Project(201804020063)the Innovation Team Project of the Department of Education of Guangdong Province(2016KCXTD011)the Key Areas of Science and Technology Planning Project of Guangdong Province(2018B020202011)the Guangdong Innovative and Entrepreneurial Research Team Program(2016ZT06S172)。
文摘Small RNAs(sRNAs)are essential regulatory molecules,and there are three major sRNA classes in plants:microRNAs(miRNAs),phased small interfering RNAs(phased siRNAs or phasiRNAs),and heterochromatic siRNAs(hc-siRNAs).Excluding miRNAs,the other two classes are not well annotated or available in public databases for most sequenced plant genomes.We performed a comprehensive sRNA annotation of 143 plant species that have fully sequenced genomes and next-generation sequencing sRNA data publicly available.The results are available via an online repository called sRNAanno(www.plantsRNAs.org).Compared with other public plant sRNA databases,we obtained was much more miRNA annotations,which are more complete and reliable because of the consistent and highly stringent criteria used in our miRNA annotations.sRNAanno also provides free access to genomic information for>22,721 PHAS loci and>22 million hc-siRNA loci annotated from these 143 plant species.Both miRNA and PHAS loci can be easily browsed to view their main features,and a collection of archetypal trans-acting siRNA 3(TAS3)genes were annotated separately for quick access.To facilitate the ease of sRNA annotation,sRNAanno provides free service for sRNA annotations to the community.In summary,the sRNAanno database is a great resource to facilitate genomic and genetic research on plant small RNAs.
文摘With the rapid development of modern molecular biology and bioinformatics,many studies have proved that transcription factors play an important role in regulating the growth and development of plants.SPATULA(SPT)belongs to the bHLH transcription family and participates in many processes of regulating plant growth and development.This review systemically summarizes the multiple roles of SPT in plant growth,development,and stress response,including seed germination,flowering,leaf size,carpel development,and root elongation,which is helpful for us to better understand the functions of SPT.
基金supported by a sub-award to the University of Missouri from the Heinrich Heine University of Dusseldorf funded by the Bill&Melinda Gates Foundation(OPP1155704)(Bing Yang)and the China Scholar Council(Chenhao Li,as a joint Ph.D.student).
文摘Bacterial blight(BB),caused by Xanthomonas oryzae pathovar oryzae(Xoo),poses a significant threat to rice production,particularly in Asia and West Africa.Breeding resistance against BB in elite rice varieties is crucial to advancing rice breeding program and supporting smallholder farmers.Transcription Activator-Like effectors(TALes)are key virulence factors in Xoo,with some targeting the susceptibility(S)genes such as the sugar transporter SWEET genes in rice.Among these,SWEET14 is an important S gene,with its promoter bound by the TALe TalC which exists across all sequenced African Xoo isolates.In the present study,we utilized CRISPR/Cas9-based cytidine and adenine base editors to alter the effector binding element(EBE)of TalC in the promoter of SWEET14 in rice cultivars Kitaake,IR24,and Zhonghua 11.Mutations with C to T changes in EBE led to reduced SWEET14 induction by TalC-containing Xoo strains,resulting in resistance to African Xoo isolates reliant on TalC for virulence.Conversely,A to G changes retained SWEET14 inducibility and susceptibility to Xoo in edited lines.Importantly,no off-target mutations were detected at predicted sites,and the edited lines exhibited no obvious defects in major agronomic traits in Kitaake.These results underscore the effectiveness of base editing systems for both molecular biology research and crop improvement endeavors.
基金supported by the National Natural Science Foundation of China(Grant Nos.32272191 and 32350410428).
文摘Male gametes are produced in the anthers and are essential for fertilization and seed setting.A transverse section of the anther reveals four layers:the epidermis,endothecium,middle layer,and tapetum.The tapetum,being the innermost layer,plays a critical role in supplying nutrients,enzymes,and protection to microspores.Detailed microscopic and ultrastructural analyses have revealed highly active and well-organized structures within the tapetum,referred to as tapetal organelles.Molecular studies have highlighted the significance of tapetal cell death and the nurturing role of the tapetum for microspores.However,the mechanisms by which these processes are mediated by tapetal organelles at the cellular level remain elusive.The discovery of mutants defective in tapetal organelles has enabled further investigations into their structure,morphology,and function.This review discusses the molecular and functional roles of various tapetal organelles,such as plastids(amyloplasts and elaioplasts),mitochondria,tapetosomes,endoplasmic reticulum,and lipid bodies.We provide an overview of their roles,highlight key organelles in the tapetum,and address recent challenges and potential applications of genes regulating tapetal organelles in enhancing crop fertility.
基金supported by the National Natural Science Foundation of China(grant no.32200172)Guangzhou Science and technology project(grant no.2023A04J0715).
文摘Saussurea is one of the largest and most rapidly evolving genera within the Asteraceae,comprising approximately 520 species from the Northern Hemisphere.A comprehensive infrageneric classification,supported by robust phylogenetic trees and corroborated by morphological and other data,has not yet been published.For the first time,we recovered a well-resolved nuclear phylogeny of Saussurea consisting of four main clades,which was also supported by morphological data.Our analyses show that ancient hybridization is the most likely source of deep cytoplasmic-nuclear conflict in Saussurea,and a phylogeny based on nuclear data is more suitable than one based on chloroplast data for exploring the infrageneric classification of Saussurea.Based on the nuclear phylogeny obtained and morphological characters,we proposed a revised infrageneric taxonomy of Saussurea,which includes four subgenera and 13 sections.Specifically,1)S.sect.Cincta,S.sect.Gymnocline,S.sect.Lagurostemon,and S.sect.Strictae were moved from S.subg.Saussurea to S.subg.Amphilaena,2)S.sect.Pseudoeriocoryne was moved from S.subg.Eriocoryne to S.subg.Amphilaena,and 3)S.sect.Laguranthera was moved from S.subg.Saussurea to S.subg.Theodorea.
基金supported by the National Key Research and Development Program(2023YFD1200502-3)the National Natural Science Foundation of China(32030078 and U21A20209)+2 种基金the Sichuan Science and Technol-ogy Program(2025YFHZ0227)he Gatsby Charitable Foundation(to C.Z.)the University of Zurich(to C.Z.).
文摘Global agriculture faces critical challenges due to the overreliance on chemical pesticides,driving an urgent need for eco-friendly biopesticides and biostimulants(BioP&S).Plant-derived peptides,evolved as natural reg-ulators of growth,development,and stress adaptation,offer immense potential as biodegradable and biocom-patible alternatives.However,their commercialization remains constrained by limited exploration of the diver-sity and activity,high production costs,incomplete ecological risk evaluations,and undeffned application scenarios.This Perspective overviews emerging discoveries and proposes integrated frameworks for plant peptide identiffcation,molecular design,biomanufacturing,and ecological impact assessments integrated with germplasm development and ffeld application systems.To overcome existing bottlenecks,we discuss the integrative potential of emerging technologies that synergistically combine artiffcial intelligence for high-throughput peptide discovery and de novo structural reffnement,nanotechnology for enhancing environ-mental resilience and targeted delivery,and synthetic biology for developing industrial biomanufacturing platforms.We emphasize the need to align phytopeptide BioP&S with compatible germplasm resources,stage-speciffc crop requirements,and complementary chemical pesticides to maximize their efffcacy,cost-effectiveness,and trait-speciffc agronomic performance by integrating with precision agriculture systems.Future advancements will rely on interdisciplinary innovations and policy support to unlock their full potential in enhancing crop resilience,productivity,and quality while ensuring ecological sustainability.
基金supported by Heartland Plant Innovations, Inc., Manhattan, Kansas
文摘Herbicide resistance in crops has extended the scope of herbicide applications to control weeds. The introduction of herbicide resistant crops resulted in a major shift in the way that herbicides are used in many crops, but not necessarily increased the prevalence of herbicide use, especially in wheat. Wheat is one of the most widely grown crops in the world and currently only two major herbicide-resistant wheat groups have been commercialized to manage weeds in a cost-effective manner. However, sustainable wheat production is threatened by the expanding occurrence of herbicide-resistant weed populations with limited efforts to discover new herbicide molecules. Selective control of certain problematic weeds in wheat was impossible until development and introduction of the technologies, Clearfield and Co AXium Production Systems. However, the current limitations of reliance on specific herbicides and evolution of resistant weeds mandate precautions and considerations when using these systems to prevent the loss of existing herbicide resources and continue sustainable wheat production. The focus of this review is to provide an overview of natural pre-existing herbicide resistance and development of herbicide-resistant technologies in wheat. The mechanisms of resistance to herbicides in wheat as well as the weed populations in wheat cropping systems, and implications for weed management are discussed.
基金This work was funded by the National Natural Science Foundation of China(Grants No.31570279).
文摘Seeds germination is strictly controlled by environment factor such as high temperature(HT)through altering the balance between gibberellin acid(GA)and abscisic acid(ABA).Gama-aminobutyric acid(GABA)is a small molecule with four-carbon amino acid,which plays a crucial role during plant physiological process associated with pollination,wounding or abiotic stress,but its role in seeds germination under HT remains elusive.In this study we found that HT induced the overaccumulation of ROS,mainly H_(2)O_(2) and O_(2)^(-),to suppress seeds germination,meanwhile,HT also activated the enzyme activity of GAD for the rapid accumulation of GABA,hinting the regulatory function of GABA in con-trolling seeds germination against HT stress.Applying GABA directly attenuated HT-induced ROS accumulation,upregulated GA biosynthesis and downregulated ABA biosynthesis,ultimately enhanced seeds germination.Consistently,genetic analysis using the gad1/2 mutant defective in GABA biosynthesis,or pop2-5 mutant with high endogenous GABA content supported the potential function of GABA in improving seeds germination tolerance to HT through scavenging ROS overaccumulation.Based on these data,we propose that GABA acts as a novel signal to enhance thermotolerance of seeds germination through alleviating the ROS damage to seeds viability.
基金supported by the funds from National Natural Science Foundation of China (31570199)the project of Shanghai Landscaping Administration Bureau (F122416)
文摘Begonia, one of the most diverse plant taxa and the fifth or sixth largest angiosperm genus, consists of over1800 accepted species. The number of species recognized within this genus has greatly increased over the past 20 years, rising from 80 to 200 species in China alone. Based on recent field surveys, the number of begonia species in China is predicted to be between 250 and 300. Given the large number of begonia species that still remain to be described, further taxonomical work is urgently required. This is especially true for Chinese Begonia, in which there is a huge diversity of habitat, habit, plant size, leaf type, flower and fruit morphology, and most species are narrowly distributed in isolated habitats that are subject to negative disturbances from climate change, as well as agricultural and industrial activities. Although the conservation status for the majority of species has been evaluated using the standards of the International Union for Conservation of Nature, the results don't represent the truth in many species, and also about11.5% of which are data-absent. In addition, illegal collection and over-harvesting of wild begonias for ornamental or medicinal use has increased due to the rapid development of internet commerce. Far more often than predicted, these species should be categorized as rare and endangered and require immediate protection. Ex situ conservation of Chinese begonias started in 1995 and over 60% of the total species have been so far introduced into cultivation by several major botanical gardens in China. However, only few research institutions, limited funds and human resources have been involved in Begonia conservation;moreover, no project has conducted reintroduction. Therefore, more conservation-based work remains to be done. Improved conservation of Chinese begonias in the future depends on further field survey, an improved understanding of population diversity, and integrative approaches, including in situ and ex situ conservation, seed banking, and plant reintroduction. Species-targeted conservation zones should be established for endangered species excluded from the existing nature reserves. Additionally, laws pertaining to plant protection should be extended to prevent the illegal collection and transaction of wild plants, particularly for those species with unique habitats and small populations.
基金This work was funded by the National Natural Science Foundation of China(Grants No.31570279).
文摘Primary seed dormancy is an adaptive strategy that prevents germination for viable seeds in harsh environment,ensuring seeds germination under favorable condition.Accurately inducing seeds germination in a controllable manner is important for crop production.Thus searching the chemicals that efficiently breaks seed dormancy is valuable.DOG1 protein abundance in the freshly harvested seed is high,and its level is correlated to seed dormancy intensity,thus DOG1 is regarded as the timer to evaluate the seed dormancy degree.In this study,we found the carbon monoxide(CO)donor treatment,the transgenic line with high CO content,showed lower seed dormancy,while scavenging CO,or the mutant with lower CO level,presented strong primary seed dormancy,genetic analysis showed that DOG1 was targeted by CO signal and was prerequisite for CO-dependent seed dormancy release.Furthermore,we found CO signal activated the expression of ERF/AP2 transcriptional factor ERF12,as well as enhanced the binding of ERF12 to the promoter of DOG1,ultimately transcriptional silence of DOG1 expression to break primary seed dormancy.Meanwhile CO signal reduced the histone acetylation level at the chromatin of DOG1 locus to suppress its expression.Together,our results revealed that CO acts as the novel regulator to suppress DOG1 expression and efficiently break primary seed dormancy through activating the negative factor ERF12.
