Knowledge of the function of growth-regulating factors(GRFs)in sugarcane(Saccharum officinarum and S.spontaneum)growth and development could assist breeders in selecting desirable plant architectures.However,limited i...Knowledge of the function of growth-regulating factors(GRFs)in sugarcane(Saccharum officinarum and S.spontaneum)growth and development could assist breeders in selecting desirable plant architectures.However,limited information about GRFs is available in Saccharum due to their polyploidy.In this study,22 GRFs were identified in the two species and their conserved domains,gene structures,chromosome location,and synteny were characterized.GRF7 expression varied among tissues and responded to diurnal rhythm.SsGRF7-YFP was localized preferentially in the nucleus and appears to act as a transcriptional cofactor.SsGRF7 positively regulated the size and length of rice leaves,possibly by regulating cell size and plant hormones.Of seven potential transcription factors binding to the SsGRF7 promoter in S.spontaneum,four showed positive expression patterns,and two showed negative expression patterns relative to SsGRF7.展开更多
Zanthoxylum bungeanum is an important spice and medicinal plant that is unique for its accumulation of abundant secondary metabolites,which create a characteristic aroma and tingling sensation in the mouth.Owing to th...Zanthoxylum bungeanum is an important spice and medicinal plant that is unique for its accumulation of abundant secondary metabolites,which create a characteristic aroma and tingling sensation in the mouth.Owing to the high proportion of repetitive sequences,high heterozygosity,and increased chromosome number of Z.bungeanum,the assembly of its chromosomal pseudomolecules is extremely challenging.Here,we present a genome sequence for Z.bungeanum,with a dramatically expanded size of 4.23 Gb,assembled into 68 chromosomes.This genome is approximately tenfold larger than that of its close relative Citrus sinensis.After the divergence of Zanthoxylum and Citrus,the lineage-specific whole-genome duplication event q-WGD approximately 26.8 million years ago(MYA)and the recent transposable element(TE)burst~6.41 MYA account for the substantial genome expansion in Z.bungeanum.The independent Zanthoxylum-specific WGD event was followed by numerous fusion/fission events that shaped the genomic architecture.Integrative genomic and transcriptomic analyses suggested that prominent speciesspecific gene family expansions and changes in gene expression have shaped the biosynthesis of sanshools,terpenoids,and anthocyanins,which contribute to the special flavor and appearance of Z.bungeanum.In summary,the reference genome provides a valuable model for studying the impact of WGDs with recent TE activity on gene gain and loss and genome reconstruction and provides resources to accelerate Zanthoxylum improvement.展开更多
Flower development plays vital role in horticultural plants.Post-transcriptional regulation via small RNAs is important for plant flower development.To uncover post-transcriptional regulatory networks during the flowe...Flower development plays vital role in horticultural plants.Post-transcriptional regulation via small RNAs is important for plant flower development.To uncover post-transcriptional regulatory networks during the flower development in Dimocarpus longan Lour.‘Shixia’,an economically important fruit crop in subtropical regions,we collected and analyzed sRNA deep-sequencing datasets and degradome libraries Apart from identifying miRNAs and phased siRNA generating loci(PHAS loci),120 hairpin loci,producing abundant sRNAs,were identified by in-house protocols.Our results suggested that 56 miRNA-target pairs,2221-nt-PHAS loci,and 111 hairpin loci are involved in posttranscriptional gene silencing during longan reproductive development.Lineage-specific or species-specific post-transcriptional regulatory modules have been unveiled,including miR482-PHAS and miRN15.miR482-PHAS might be involved in longan flower development beyond their conserved roles in plant defense,and miRN15 is a novel miRNA likely associated with a hairpin locus(HPL-056)to regulate strigolactone receptor gene DWARF14(D14)and the biogenesis of phasiRNAs from D14.These small RNAs are enriched in flower buds,suggesting they are likely involved in post-transcriptional regulatory networks essential for longan flower development via the strigolactone signaling pathway.展开更多
Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a p...Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a pineapple genomics database(PGD,http://pineapple.angiosperms.org/pineapple/html/index.html)as a central online platform for storing and integrating genomic,transcriptomic,function annotation and genetic marker data for pineapple(Ananas comosus(L.)Merr.).The PGD currently hosts significant search tools and available datasets for researchers to study comparative genomics,gene expression,gene co-expression molecular marker,and gene annotation of A.comosus(L).PGD also performed a series of additional pages for a genomic browser that visualizes genomic data interactively,bulk data download,a detailed user manual,and data integration information.PGD was developed with the capacity to integrate future data resources,and will be used as a long-term and open access database to facilitate the study of the biology,distribution,and the evolution of pineapple and the relative plant species.An email-based helpdesk is also available to offer support with the website and requests of specific datasets from the research community.展开更多
Dear Editor :The sustainable cultivation of rice, which serves as staple food crop for more than half of the world's population, is under serious threat due to the huge yield losses inflicted by rice blast disease c...Dear Editor :The sustainable cultivation of rice, which serves as staple food crop for more than half of the world's population, is under serious threat due to the huge yield losses inflicted by rice blast disease caused by the globally destructive fungus Magnaporthe oryzae (Pyricularia oryzae) (Dean et al., 2012; Nalley et al., 2016; Deng et al., 2017). This filamentous ascomycete fungus is also capable of causing blast infection on other economically important cereal crops, including wheat, millet, and barley, making it the world's most important plant pathogenic fungus (Zhong et al., 2016).展开更多
JUJUNCAO(Cenchrus fungigraminus;2n=4x=28)is a Cenchrus grass with the highest biomass production among cultivated plants,and it can be used for mushroom cultivation,animal feed,and biofuel production.Here,we report a ...JUJUNCAO(Cenchrus fungigraminus;2n=4x=28)is a Cenchrus grass with the highest biomass production among cultivated plants,and it can be used for mushroom cultivation,animal feed,and biofuel production.Here,we report a nearly complete genome assembly of JUJUNCAO and reveal that JUJUNCAO is an allopolyploid that originated2.7 million years ago(mya).Its genome consists of two subgenomes,and subgenome A shares high collinear synteny with pearl millet.We also investigated the genome evolution of JUJUNCAO and suggest that the ancestral karyotype of Cenchrus split into the A and B ancestral karyotypes of JUJUNCAO.Comparative transcriptome and DNA methylome analyses revealed functional divergence of homeologous gene pairs between the two subgenomes,which was a further indication of asymmetric DNA methylation.The three types of centromeric repeat in the JUJUNCAO genome(CEN137,CEN148,and CEN156)may have evolved independently within each subgenome,with some introgressions of CEN156 from the B to the A subgenome.We investigated the photosynthetic characteristics of JUJUNCAO,revealing its typical C4 Kranz anatomy and high photosynthetic efficiency.NADP-ME and PEPCK appear to cooperate in the major C4 decarboxylation reaction of JUJUNCAO,which is different from other C4 photosynthetic subtypes and may contribute to its high photosynthetic efficiency and biomass yield.Taken together,our results provide insights into the highly efficient photosynthetic mechanism of JUJUNCAO and provide a valuable reference genome for future genetic and evolutionary studies,as well as genetic improvement of Cenchrus grasses.展开更多
Hypsizygus marmoreus is one of the most important edible fungi in Basidiomycete division and includes white and gray strains.However,very limited knowledge is known about the genomic structures and the genetic basis f...Hypsizygus marmoreus is one of the most important edible fungi in Basidiomycete division and includes white and gray strains.However,very limited knowledge is known about the genomic structures and the genetic basis for the white/gray diversity of this mushroom.Here,we report the near-complete high-quality H.marmoreus genome at the chromosomal level.Comparative genomics analysis indicates that chromosome structures were relatively conserved,and variations in collinearity and chromosome number were mainly attributed by chromosome split/fusion events in Aragicales,whereas the fungi genome experienced many genomic chromosome fracture,fusion,and genomic replication events after the split of Aragicales from Basidiomycetes.Resequencing of 57 strains allows us to classify the population into four major groups and associate genetic variations with morphological features,indicating that white strains were not originated independently.We further generated genetic populations and identified a cytochrome P450 as the candidate causal gene for the melanogenesis in H.marmoreus based on bulked segregant analysis (BSA)and comparative transcriptome analysis.The high-quality H.marmoreus genome and diversity data compiled in this study provide new knowledge and resources for the molecular breeding of H.marmoreus as well as the evolution of Basidiomycete.展开更多
Addressing global challenges such as energy sustainability,food security,and environmental conservation requires innovative agricultural solutions.Modern sugarcane(Saccharum hybrid)is a crucial crop that contributes n...Addressing global challenges such as energy sustainability,food security,and environmental conservation requires innovative agricultural solutions.Modern sugarcane(Saccharum hybrid)is a crucial crop that contributes not only to the sugar industry but also to bioenergy systems.Beyond its traditional role,sugarcane supports global food security,environmental sustainability,and economic empowerment of farmers.Over 80%of the worldwide sugarcane production is dedicated to sugar,a dietary staple(OECD-FAO,2024).The remaining 19%aid biofuel production,with sugarcane accounting for 24%of the global ethanol feedstock by 2033.As a C4 plant,sugarcane efficiently captures atmospheric carbon and acts as an important carbon sink.Additionally,sugarcane cultivation can lower local temperatures by nearly 1°C compared to pastures/natural vegetation(Loarie et al.,2011).Economically,sugarcane is a high-value cash crop,generating$43 billion annually in Brazil alone(Voora et al.,2023).展开更多
Dear Editor,Histones undergo various post-translational modifications essential for transcription,DNA replication,repair,and other cellular processes(Li et al.,2018).While histone methylation and acetylation are well ...Dear Editor,Histones undergo various post-translational modifications essential for transcription,DNA replication,repair,and other cellular processes(Li et al.,2018).While histone methylation and acetylation are well studied,emerging short-chain lysine acylations,such as crotonylation,succinylation,lactylation,acetoacetylation,and 2-hydroxyisobutyrylation(Khib)(Li et al.,2018;Lu et al.,2018;Zheng et al.,2021;Gao et al.,2023),are expanding the field of epigenetic regulation.Of these short-chain acylations,Khib has garnered recent attention as an evolutionarily conserved modification on histone proteins,extensively characterized in yeast and animals,where it plays a role in glucose response and virus infection(Huang et al.,2017;Zhao et al.,2022).In plants,H4K8hib has been identified on histones,but its functions and the enzymes involved in its removal remain unclear.In this study,we analyzed the H4K8hib modification profile in rice,exploring its role in the rice immune response and identifying the enzymes responsible for its removal.展开更多
基金funded by the National Key Research and Development Program(2021YFF1000101 and 2021YFF1000104)the National Natural Science Foundation of China(32272196)the Sugarcane Research Foundation of Guangxi University(2022GZB007)。
文摘Knowledge of the function of growth-regulating factors(GRFs)in sugarcane(Saccharum officinarum and S.spontaneum)growth and development could assist breeders in selecting desirable plant architectures.However,limited information about GRFs is available in Saccharum due to their polyploidy.In this study,22 GRFs were identified in the two species and their conserved domains,gene structures,chromosome location,and synteny were characterized.GRF7 expression varied among tissues and responded to diurnal rhythm.SsGRF7-YFP was localized preferentially in the nucleus and appears to act as a transcriptional cofactor.SsGRF7 positively regulated the size and length of rice leaves,possibly by regulating cell size and plant hormones.Of seven potential transcription factors binding to the SsGRF7 promoter in S.spontaneum,four showed positive expression patterns,and two showed negative expression patterns relative to SsGRF7.
基金This research was financially supported by the National Key R&D Program of China(2018YFD1000605)the Tianjin Science Fund for Distinguished Young Scholars(18JCJQJC48300).
文摘Zanthoxylum bungeanum is an important spice and medicinal plant that is unique for its accumulation of abundant secondary metabolites,which create a characteristic aroma and tingling sensation in the mouth.Owing to the high proportion of repetitive sequences,high heterozygosity,and increased chromosome number of Z.bungeanum,the assembly of its chromosomal pseudomolecules is extremely challenging.Here,we present a genome sequence for Z.bungeanum,with a dramatically expanded size of 4.23 Gb,assembled into 68 chromosomes.This genome is approximately tenfold larger than that of its close relative Citrus sinensis.After the divergence of Zanthoxylum and Citrus,the lineage-specific whole-genome duplication event q-WGD approximately 26.8 million years ago(MYA)and the recent transposable element(TE)burst~6.41 MYA account for the substantial genome expansion in Z.bungeanum.The independent Zanthoxylum-specific WGD event was followed by numerous fusion/fission events that shaped the genomic architecture.Integrative genomic and transcriptomic analyses suggested that prominent speciesspecific gene family expansions and changes in gene expression have shaped the biosynthesis of sanshools,terpenoids,and anthocyanins,which contribute to the special flavor and appearance of Z.bungeanum.In summary,the reference genome provides a valuable model for studying the impact of WGDs with recent TE activity on gene gain and loss and genome reconstruction and provides resources to accelerate Zanthoxylum improvement.
基金funded by the National Key Research and Developmental Program of China(Grant No.2018YFD1000104)supported by awards from the National Natural Science Foundation of China(Grant Nos.32002009 and 32072547)The Special Support Program of Guangdong Province(Grant No.2019TX05N193).
文摘Flower development plays vital role in horticultural plants.Post-transcriptional regulation via small RNAs is important for plant flower development.To uncover post-transcriptional regulatory networks during the flower development in Dimocarpus longan Lour.‘Shixia’,an economically important fruit crop in subtropical regions,we collected and analyzed sRNA deep-sequencing datasets and degradome libraries Apart from identifying miRNAs and phased siRNA generating loci(PHAS loci),120 hairpin loci,producing abundant sRNAs,were identified by in-house protocols.Our results suggested that 56 miRNA-target pairs,2221-nt-PHAS loci,and 111 hairpin loci are involved in posttranscriptional gene silencing during longan reproductive development.Lineage-specific or species-specific post-transcriptional regulatory modules have been unveiled,including miR482-PHAS and miRN15.miR482-PHAS might be involved in longan flower development beyond their conserved roles in plant defense,and miRN15 is a novel miRNA likely associated with a hairpin locus(HPL-056)to regulate strigolactone receptor gene DWARF14(D14)and the biogenesis of phasiRNAs from D14.These small RNAs are enriched in flower buds,suggesting they are likely involved in post-transcriptional regulatory networks essential for longan flower development via the strigolactone signaling pathway.
基金The authors would like to thank Irene Lavagi for editing the language.The study was supported by grants from the 863 program(2013AA102604),NSFC(31201260)Program for New Century Excellent Talents in Fujian Province and Science and Technology Major Project of Fujian Province(2016NZ0001).
文摘Pineapple occupies an important phylogenetic position as its reference genome is a model for studying the evolution the Bromeliaceae family and the crassulacean acid metabolism(CAM)photosynthesis.Here,we developed a pineapple genomics database(PGD,http://pineapple.angiosperms.org/pineapple/html/index.html)as a central online platform for storing and integrating genomic,transcriptomic,function annotation and genetic marker data for pineapple(Ananas comosus(L.)Merr.).The PGD currently hosts significant search tools and available datasets for researchers to study comparative genomics,gene expression,gene co-expression molecular marker,and gene annotation of A.comosus(L).PGD also performed a series of additional pages for a genomic browser that visualizes genomic data interactively,bulk data download,a detailed user manual,and data integration information.PGD was developed with the capacity to integrate future data resources,and will be used as a long-term and open access database to facilitate the study of the biology,distribution,and the evolution of pineapple and the relative plant species.An email-based helpdesk is also available to offer support with the website and requests of specific datasets from the research community.
文摘Dear Editor :The sustainable cultivation of rice, which serves as staple food crop for more than half of the world's population, is under serious threat due to the huge yield losses inflicted by rice blast disease caused by the globally destructive fungus Magnaporthe oryzae (Pyricularia oryzae) (Dean et al., 2012; Nalley et al., 2016; Deng et al., 2017). This filamentous ascomycete fungus is also capable of causing blast infection on other economically important cereal crops, including wheat, millet, and barley, making it the world's most important plant pathogenic fungus (Zhong et al., 2016).
基金supported by grants from the Major Special Project of Fujian Province(2021NZ029009)the Natural Science foundation of Fujian Province(2019J01665).
文摘JUJUNCAO(Cenchrus fungigraminus;2n=4x=28)is a Cenchrus grass with the highest biomass production among cultivated plants,and it can be used for mushroom cultivation,animal feed,and biofuel production.Here,we report a nearly complete genome assembly of JUJUNCAO and reveal that JUJUNCAO is an allopolyploid that originated2.7 million years ago(mya).Its genome consists of two subgenomes,and subgenome A shares high collinear synteny with pearl millet.We also investigated the genome evolution of JUJUNCAO and suggest that the ancestral karyotype of Cenchrus split into the A and B ancestral karyotypes of JUJUNCAO.Comparative transcriptome and DNA methylome analyses revealed functional divergence of homeologous gene pairs between the two subgenomes,which was a further indication of asymmetric DNA methylation.The three types of centromeric repeat in the JUJUNCAO genome(CEN137,CEN148,and CEN156)may have evolved independently within each subgenome,with some introgressions of CEN156 from the B to the A subgenome.We investigated the photosynthetic characteristics of JUJUNCAO,revealing its typical C4 Kranz anatomy and high photosynthetic efficiency.NADP-ME and PEPCK appear to cooperate in the major C4 decarboxylation reaction of JUJUNCAO,which is different from other C4 photosynthetic subtypes and may contribute to its high photosynthetic efficiency and biomass yield.Taken together,our results provide insights into the highly efficient photosynthetic mechanism of JUJUNCAO and provide a valuable reference genome for future genetic and evolutionary studies,as well as genetic improvement of Cenchrus grasses.
基金supported by program for Seed Innovation and Industrialization in Fujian Province-Breeding and Industrialization of Major Edible Fungithe Science and Technology Major Project of Fujian Province (2016NZ0001)+1 种基金the Program for New Century Excellent Talents in Fujian Province (KLa17073A)agricultural technology extension service system for Edible fungus industry in Fujian, China (KNJ-153011-1)。
文摘Hypsizygus marmoreus is one of the most important edible fungi in Basidiomycete division and includes white and gray strains.However,very limited knowledge is known about the genomic structures and the genetic basis for the white/gray diversity of this mushroom.Here,we report the near-complete high-quality H.marmoreus genome at the chromosomal level.Comparative genomics analysis indicates that chromosome structures were relatively conserved,and variations in collinearity and chromosome number were mainly attributed by chromosome split/fusion events in Aragicales,whereas the fungi genome experienced many genomic chromosome fracture,fusion,and genomic replication events after the split of Aragicales from Basidiomycetes.Resequencing of 57 strains allows us to classify the population into four major groups and associate genetic variations with morphological features,indicating that white strains were not originated independently.We further generated genetic populations and identified a cytochrome P450 as the candidate causal gene for the melanogenesis in H.marmoreus based on bulked segregant analysis (BSA)and comparative transcriptome analysis.The high-quality H.marmoreus genome and diversity data compiled in this study provide new knowledge and resources for the molecular breeding of H.marmoreus as well as the evolution of Basidiomycete.
文摘Addressing global challenges such as energy sustainability,food security,and environmental conservation requires innovative agricultural solutions.Modern sugarcane(Saccharum hybrid)is a crucial crop that contributes not only to the sugar industry but also to bioenergy systems.Beyond its traditional role,sugarcane supports global food security,environmental sustainability,and economic empowerment of farmers.Over 80%of the worldwide sugarcane production is dedicated to sugar,a dietary staple(OECD-FAO,2024).The remaining 19%aid biofuel production,with sugarcane accounting for 24%of the global ethanol feedstock by 2033.As a C4 plant,sugarcane efficiently captures atmospheric carbon and acts as an important carbon sink.Additionally,sugarcane cultivation can lower local temperatures by nearly 1°C compared to pastures/natural vegetation(Loarie et al.,2011).Economically,sugarcane is a high-value cash crop,generating$43 billion annually in Brazil alone(Voora et al.,2023).
基金funded by the National Natural Science Foundation of China(32100465 and 32302302)the Key Research and Development Program of Anhui Province(202204c06020028)+1 种基金the Starting Research Grant for High-level Talents from Guangxi University(ZX01080033124005)the Scientific Research and Development Fund of the College of Agriculture,GuangxiUniversity(EE101761).
文摘Dear Editor,Histones undergo various post-translational modifications essential for transcription,DNA replication,repair,and other cellular processes(Li et al.,2018).While histone methylation and acetylation are well studied,emerging short-chain lysine acylations,such as crotonylation,succinylation,lactylation,acetoacetylation,and 2-hydroxyisobutyrylation(Khib)(Li et al.,2018;Lu et al.,2018;Zheng et al.,2021;Gao et al.,2023),are expanding the field of epigenetic regulation.Of these short-chain acylations,Khib has garnered recent attention as an evolutionarily conserved modification on histone proteins,extensively characterized in yeast and animals,where it plays a role in glucose response and virus infection(Huang et al.,2017;Zhao et al.,2022).In plants,H4K8hib has been identified on histones,but its functions and the enzymes involved in its removal remain unclear.In this study,we analyzed the H4K8hib modification profile in rice,exploring its role in the rice immune response and identifying the enzymes responsible for its removal.
