Mikania micrantha is a fast-growing global invasive weed species that causes severe damage to natural ecosystems and very large economic losses of forest and crop production.It has advantages in photosynthesis,includi...Mikania micrantha is a fast-growing global invasive weed species that causes severe damage to natural ecosystems and very large economic losses of forest and crop production.It has advantages in photosynthesis,including a similar net photosynthetic rate as C4 plants and a higher carbon fixation capacity.We used a combination of genomics and transcriptomics approaches to study the evolutionary mechanisms and circadian expression patterns of M.micrantha.In M.micrantha,16 positive selection genes focused on photoreaction and utilization of photoassimilates.In different tissues,98.1%of the genes associated with photoresponse had high expression in stems,and more than half of the genes of the C4 cycle had higher expression in stems than in leaves.In stomatal opening and closing,2 genes of carbonic anhydrase(CAs)had higher expression at 18:00 than at 8:00,and the slow anion channel 1(SLAC1)and high-leaf-temperature 1 kinase(HT1)genes were expressed at low levels at 18:00.In addition,genes associated with photosynthesis had higher expression levels at 7:00 and 17:00.We hypothesized that M.micrantha may undergo photosynthesis in the stem and flower organs and that some stomata of the leaves were opening at night by CO_(2)signals.In addition,its evolution may attenuate photoinhibition at high light intensities,and enhance more efficient of photosynthesis during low light intensity.And the tissue-specific photosynthetic types and different diurnal pattern of photosynthetic-related genes may contribute to its rapid colonization of new habitats of M.micrantha.展开更多
3-Epi-betulinic acid 3-O-β-D-glucopyranoside(eBAG)is a pentacyclic triterpene mainly distributed in food and medicinal plants,which exhibits various pharmacological properties.However,whether these functions are attr...3-Epi-betulinic acid 3-O-β-D-glucopyranoside(eBAG)is a pentacyclic triterpene mainly distributed in food and medicinal plants,which exhibits various pharmacological properties.However,whether these functions are attributed to eBAG or additional components in these plants remain unknown.Herein,we report that eBAG exerted an inhibitory activity against hepatocellular carcinoma and esophageal cancer cells.EBAG induced non-apoptotic cell death in hepatocellular carcinoma cells.The eBAG-induced cell death was inhibited by knock-down of autophagy related gene(ATG)5 and ATG7,by administration of 3-methyladenine,a selective autophagy inhibitor that suppresses phosphoinositide 3-kinase(PI3K),and by chloroquine,a classic autophagy flux inhibitor.We demonstrated that eBAG induced an autophagy-mediated cell death.Application of eBAG mimicked cellular bioenergetics depletion leading to the reduction of intracellular ATP,activation of AMP-activated protein kinase(AMPK),and inhibition of mTOR.Co-treatment with compound C,an AMPK inhibitor,abrogated cell death induced by eBAG.We further validated the anti-tumor effect of eBAG in the murine xenograft model of hepatocellular carcinoma and found that eBAG treatment promoted the induction of autophagy and reduction of tumor growth in mice.As a functional food ingredient,eBAG is a potential therapeutic agent for the treatment of hepatocellular carcinoma and esophageal cancer.展开更多
In recent years,photocatalytic CO_(2)reduction reaction(CRR) has attracted much scientific attention to overcome energy and environmental issues by converting CO_(2)into high-value-added chemicals utilizing solar ener...In recent years,photocatalytic CO_(2)reduction reaction(CRR) has attracted much scientific attention to overcome energy and environmental issues by converting CO_(2)into high-value-added chemicals utilizing solar energy.Metal halide perovskite(MHP) nanocrystals(NCs) are recognized as an ideal choice for CRR owing to their outstanding optoelectronic properties.Although great efforts have been devoted to designing more effective photocatalysts to optimize CRR performance,severe charge recombination,instability,and unsatisfactory activity have become major bottlenecks in developing perovskite-based photocatalysts.In this review,we mainly focus on the recent research progress in the areas of relevance.First,a brief insight into reaction mechanisms for CRR and structural features of MHPs are introduced.Second,efficient modification approaches for the improvement of the photocatalytic activity and stability of the perovskite-based catalysts are comprehensively reviewed.Third,the state-of-the-art achievements of perovskite-based photocatalysts for CRR are systematically summarized and discussed,which are focused on the modification approaches,structure design,and the mechanism of the CO_(2)reduction process.Lastly,the current challenges and future research perspectives in the design and application of perovskite materials are highlighted from our point of view to provide helpful insights for seeking breakthroughs in the field of CRR.This review may provide a guide for scientists interested in applying perovskite-based catalysts for solar-to-chemical energy conversion.展开更多
Dear Editor,Tea plant(Camellia sinensis(L.)O.Kuntze)is one of the world’s most important non-alcoholic beverages,with great economic,health,and cultural value.Recently,several genomes of C.sinensis var.assamica(CSA)(...Dear Editor,Tea plant(Camellia sinensis(L.)O.Kuntze)is one of the world’s most important non-alcoholic beverages,with great economic,health,and cultural value.Recently,several genomes of C.sinensis var.assamica(CSA)(Yunkang 10),C.sinensis var.sinensis(CSS)(Shuchazao,Biyun,Longjing 43,Tieguanyin,Huangdan),and ancient tea plant(DASZ)have been deciphered[1-3].展开更多
Flower plants are popular all over the world and important sources of ornamental plants,bioactive molecules and nutrients.Flowers have a wide range of biological activities and beneficial pharmacological effects.Flowe...Flower plants are popular all over the world and important sources of ornamental plants,bioactive molecules and nutrients.Flowers have a wide range of biological activities and beneficial pharmacological effects.Flowers and their active ingredients are becoming more and more popular in the preparation of food,drugs and industrial products.This paper summarizes the active ingredients,pharmacological activities and applications in the pharmaceutical and food industries of flower plants in recent years.In addition,the possible molecular mechanism of pharmacological effects of flower plants were also discussed.302 active constituents from 55 species of flower plants were summarized,including flavonoids(115),terpenoids(90),phenylpropanoids(20),alkaloids(13),organic acids(27)and others(37).The pharmacological effects of flower plants are very extensive,mainly including antioxidant,anti-inflammatory,anti-tumor,anti-virus,and hypoglycemic.The mechanisms of anti-inflammatory,anti-tumor and hypoglycemic activities present the characteristics of multi-way and multi-target.Because of its rich nutrients,bioactive ingredients and plant essential oils,and its wide sources,flower plants are widely used in food,beverage,cosmetics and drug research.Flower plants also play an important role in pharmaceutical industry,food industry and other fields.展开更多
As the most important non-cereal food crop,potatoes are a staple food for 1.3 billion people(Stokstad,2019).However,these cultivated potatoes are challenged with multiple biotic stresses(i.e.,pathogens and pests),some...As the most important non-cereal food crop,potatoes are a staple food for 1.3 billion people(Stokstad,2019).However,these cultivated potatoes are challenged with multiple biotic stresses(i.e.,pathogens and pests),some of which can evade host resistance,leading to a serious dampening of potato yield.One of these pests is the Colorado potato beetle(hereafter referred to as CPB,Leptinotarsa decemlineata Say).CPB is a member of the order Coleoptera,and originated in the southwestern United States and Mexico(Alyokhin et al.,2008).展开更多
Lentinus edodes and Auricularia auricula are the first and second largest edible fungi in China with high nutritional and medicinal values.Research about phytochemicals of L.edodes and A.auricula mainly focuses on pol...Lentinus edodes and Auricularia auricula are the first and second largest edible fungi in China with high nutritional and medicinal values.Research about phytochemicals of L.edodes and A.auricula mainly focuses on polysaccharides,other phytochemicals are not fully studied.Phytochemicals of L.edodes and A.auricula were investigated by ultra-high performance liquid chromatography tandem hybrid quadrupole-orbitrap mass spectrometry(UPLC-Q-Exactive-Orbitrap MS).Twenty-three compounds were identified in L.edodes,mainly including amino acids and analogs,flavonoids,nucleosides and analogs,phenols and steroids.Twenty-nine compounds were identified in A.auricula,mainly including amino acids and analogs,nucleosides and analogs,flavonoids and phenols.There are 9 common ingredients of L.edodes and A.auricula,including 4 amino acids and analogs,2 flavonoids,2 nucleosides and analogs and 1 phenol.展开更多
Aegilops tauschii,the wild progenitor of wheat D-genome and a valuable germplasm for wheat improvement,has a wide natural distribution from eastern Turkey to China.However,the phylogenetic relationship and dispersion ...Aegilops tauschii,the wild progenitor of wheat D-genome and a valuable germplasm for wheat improvement,has a wide natural distribution from eastern Turkey to China.However,the phylogenetic relationship and dispersion history of Ae.tauschii in China has not been scientifically clarified.In this study,we genotyped 208 accessions(with 104 in China)using dd RAD sequencing and 55K SNP array,and classified the population into six sublineages.Three possible spreading routes or events were identified,resulting in specific distribution patterns,with four sublineages found in Xinjiang,one in Qinghai,two in Shaanxi and one in Henan.We also established the correlation of SNP-based,karyotypebased and spike-morphology-based techniques to demonstrate the internal classification of Ae.tauschii,and developed consensus dataset with 1245 putative accessions by merging data previously published.Our analysis suggested that eight inter-lineage accessions could be assigned to the putative Lineage 3and these accessions would help to conserve the genetic diversity of the species.By developing the consensus phylogenetic relationships of Ae.tauschii,our work validated the hypothesis on the dispersal history of Ae.tauschii in China,and contributed to the efficient and comprehensive germplasm-mining of the species.展开更多
Advances in DNA sequencing technology have sparked a genomics revolution,driving breakthroughs in plant genetics and crop breeding.Recently,the focus has shifted from cataloging genetic diversity in plants to explorin...Advances in DNA sequencing technology have sparked a genomics revolution,driving breakthroughs in plant genetics and crop breeding.Recently,the focus has shifted from cataloging genetic diversity in plants to exploring their functional significance and delivering beneficial alleles for crop improvement.This transformation has been facilitated by the increasing adoption of whole-genome resequencing.In this review,we summarize the current progress of population-based genome resequencing studies and how these studies affect crop breeding.A total of 187 land plants from 163 countries have been resequenced,comprising 54413 accessions.As part of resequencing efforts 367 traits have been surveyed and 86 genome-wide association studies have been conducted.Economically important crops,particularly cereals,vegetables,and legumes,have dominated the resequencing efforts,leaving a gap in 49 orders,including Lycopodiales,Liliales,Acorales,Austrobaileyales,and Commelinales.The resequenced germplasm is distributed across diverse geographic locations,providing a global perspective on plant genomics.We highlight genes that have been selected during domestication,or associated with agronomic traits,and form a repository of candidate genes for future research and application.Despite the opportunities for cross-species comparative genomics,many population genomic datasets are not accessible,impeding secondary analyses.We call for a more open and collaborative approach to population genomics that promotes data sharing and encourages contribution-based credit policy.The number of plant genome resequencing studies will continue to rise with the decreasing DNA sequencing costs,coupled with advances in analysis and computational technologies.This expansion,in terms of both scale and quality,holds promise for deeper insights into plant trait genetics and breeding design.展开更多
Edible Mushrooms have been valued as a valuable food source due to its nutritional and medicinal characteristics.Edible mushrooms contain various bioactive components such as proteins,polyunsaturated fatty acids,polys...Edible Mushrooms have been valued as a valuable food source due to its nutritional and medicinal characteristics.Edible mushrooms contain various bioactive components such as proteins,polyunsaturated fatty acids,polysaccharides,dietary fibers,amino acids,vitamins,and minerals.They have essential health effects,such as antioxidant,antimicrobial,immune-stimulatory,and anticancer,cholesterol-lowering properties.Because of their nutritional and medicinal benefits,mushrooms have become increasingly popular in recent years all over the world.Mushrooms were considered immortality plants in Ancient Egypt and were given to mankind by the god Osiris.Mushrooms were declared a delicacy reserved only for Egyptian nobility due to their distinct flavor.The current study focuses on the common species of edible mushrooms in Egypt and their different bioactive ingredients,nutritional values and the health benefits.展开更多
基金funded by the National Natural Science Foundation of China(32072490)the National Key R&D Program of China(2021YFC2600100 and2021YFC2600101)the Agricultural Science and Technology Innovation Program,China。
文摘Mikania micrantha is a fast-growing global invasive weed species that causes severe damage to natural ecosystems and very large economic losses of forest and crop production.It has advantages in photosynthesis,including a similar net photosynthetic rate as C4 plants and a higher carbon fixation capacity.We used a combination of genomics and transcriptomics approaches to study the evolutionary mechanisms and circadian expression patterns of M.micrantha.In M.micrantha,16 positive selection genes focused on photoreaction and utilization of photoassimilates.In different tissues,98.1%of the genes associated with photoresponse had high expression in stems,and more than half of the genes of the C4 cycle had higher expression in stems than in leaves.In stomatal opening and closing,2 genes of carbonic anhydrase(CAs)had higher expression at 18:00 than at 8:00,and the slow anion channel 1(SLAC1)and high-leaf-temperature 1 kinase(HT1)genes were expressed at low levels at 18:00.In addition,genes associated with photosynthesis had higher expression levels at 7:00 and 17:00.We hypothesized that M.micrantha may undergo photosynthesis in the stem and flower organs and that some stomata of the leaves were opening at night by CO_(2)signals.In addition,its evolution may attenuate photoinhibition at high light intensities,and enhance more efficient of photosynthesis during low light intensity.And the tissue-specific photosynthetic types and different diurnal pattern of photosynthetic-related genes may contribute to its rapid colonization of new habitats of M.micrantha.
基金supported by Henan Provincial Science and Technology Research Project (212102310355)the National Natural Science Foundation of China (82020108024 and 32161143021)。
文摘3-Epi-betulinic acid 3-O-β-D-glucopyranoside(eBAG)is a pentacyclic triterpene mainly distributed in food and medicinal plants,which exhibits various pharmacological properties.However,whether these functions are attributed to eBAG or additional components in these plants remain unknown.Herein,we report that eBAG exerted an inhibitory activity against hepatocellular carcinoma and esophageal cancer cells.EBAG induced non-apoptotic cell death in hepatocellular carcinoma cells.The eBAG-induced cell death was inhibited by knock-down of autophagy related gene(ATG)5 and ATG7,by administration of 3-methyladenine,a selective autophagy inhibitor that suppresses phosphoinositide 3-kinase(PI3K),and by chloroquine,a classic autophagy flux inhibitor.We demonstrated that eBAG induced an autophagy-mediated cell death.Application of eBAG mimicked cellular bioenergetics depletion leading to the reduction of intracellular ATP,activation of AMP-activated protein kinase(AMPK),and inhibition of mTOR.Co-treatment with compound C,an AMPK inhibitor,abrogated cell death induced by eBAG.We further validated the anti-tumor effect of eBAG in the murine xenograft model of hepatocellular carcinoma and found that eBAG treatment promoted the induction of autophagy and reduction of tumor growth in mice.As a functional food ingredient,eBAG is a potential therapeutic agent for the treatment of hepatocellular carcinoma and esophageal cancer.
基金supported by the National Natural Science Foundation of China (52102166)the China Postdoctoral Science Foundation under Grant Nos. 2019M663058, 2021M701065,2019M652749, 2021M701071, and 2022T150187+3 种基金the Program for Innovative Research Team in University of Henan Province(21IRTSTHN009)Science and Technology Development Plan of Henan Province (212300410029, 202300410087, 202102210251)the Key Research&Development and Promotion Project of Henan Province (Science and Technology Tackling Key Problems) under Grant Nos. 222102320182, 222102240070Henan Center for Outstanding Overseas Scientists (GZS2022014)。
文摘In recent years,photocatalytic CO_(2)reduction reaction(CRR) has attracted much scientific attention to overcome energy and environmental issues by converting CO_(2)into high-value-added chemicals utilizing solar energy.Metal halide perovskite(MHP) nanocrystals(NCs) are recognized as an ideal choice for CRR owing to their outstanding optoelectronic properties.Although great efforts have been devoted to designing more effective photocatalysts to optimize CRR performance,severe charge recombination,instability,and unsatisfactory activity have become major bottlenecks in developing perovskite-based photocatalysts.In this review,we mainly focus on the recent research progress in the areas of relevance.First,a brief insight into reaction mechanisms for CRR and structural features of MHPs are introduced.Second,efficient modification approaches for the improvement of the photocatalytic activity and stability of the perovskite-based catalysts are comprehensively reviewed.Third,the state-of-the-art achievements of perovskite-based photocatalysts for CRR are systematically summarized and discussed,which are focused on the modification approaches,structure design,and the mechanism of the CO_(2)reduction process.Lastly,the current challenges and future research perspectives in the design and application of perovskite materials are highlighted from our point of view to provide helpful insights for seeking breakthroughs in the field of CRR.This review may provide a guide for scientists interested in applying perovskite-based catalysts for solar-to-chemical energy conversion.
基金This study was funded by Shenzhen Science and Technology Program(Grant No.RCYX20210706092103024)Key-Area Research and Development Program of Guangdong Province(2020B020220004).
文摘Dear Editor,Tea plant(Camellia sinensis(L.)O.Kuntze)is one of the world’s most important non-alcoholic beverages,with great economic,health,and cultural value.Recently,several genomes of C.sinensis var.assamica(CSA)(Yunkang 10),C.sinensis var.sinensis(CSS)(Shuchazao,Biyun,Longjing 43,Tieguanyin,Huangdan),and ancient tea plant(DASZ)have been deciphered[1-3].
基金funded by National Key R&D Program of China(2022)Research on Precision Nutrition and Health Food,Department of Science and Technology of Henan Province(CXJD2021006)Key Project in Science and Technology Agency of Henan Province(212102310355).
文摘Flower plants are popular all over the world and important sources of ornamental plants,bioactive molecules and nutrients.Flowers have a wide range of biological activities and beneficial pharmacological effects.Flowers and their active ingredients are becoming more and more popular in the preparation of food,drugs and industrial products.This paper summarizes the active ingredients,pharmacological activities and applications in the pharmaceutical and food industries of flower plants in recent years.In addition,the possible molecular mechanism of pharmacological effects of flower plants were also discussed.302 active constituents from 55 species of flower plants were summarized,including flavonoids(115),terpenoids(90),phenylpropanoids(20),alkaloids(13),organic acids(27)and others(37).The pharmacological effects of flower plants are very extensive,mainly including antioxidant,anti-inflammatory,anti-tumor,anti-virus,and hypoglycemic.The mechanisms of anti-inflammatory,anti-tumor and hypoglycemic activities present the characteristics of multi-way and multi-target.Because of its rich nutrients,bioactive ingredients and plant essential oils,and its wide sources,flower plants are widely used in food,beverage,cosmetics and drug research.Flower plants also play an important role in pharmaceutical industry,food industry and other fields.
基金the National Key R&D Program of China(2022YFD1700200,2021YFD1400200)Science Technology and Innovation Commission of Shenzhen Municipality of China(ZDSYS 20200811142605017)Major Projects for Talent Development in Guangdong Province of China(2021QN02N756).
文摘As the most important non-cereal food crop,potatoes are a staple food for 1.3 billion people(Stokstad,2019).However,these cultivated potatoes are challenged with multiple biotic stresses(i.e.,pathogens and pests),some of which can evade host resistance,leading to a serious dampening of potato yield.One of these pests is the Colorado potato beetle(hereafter referred to as CPB,Leptinotarsa decemlineata Say).CPB is a member of the order Coleoptera,and originated in the southwestern United States and Mexico(Alyokhin et al.,2008).
基金This work was supported by Major Public Welfare Projects in Henan Province(201300110200)Research on Precision Nutrition and Health Food,Department of Science and Technology of Henan Province(CXJD2021006).
文摘Lentinus edodes and Auricularia auricula are the first and second largest edible fungi in China with high nutritional and medicinal values.Research about phytochemicals of L.edodes and A.auricula mainly focuses on polysaccharides,other phytochemicals are not fully studied.Phytochemicals of L.edodes and A.auricula were investigated by ultra-high performance liquid chromatography tandem hybrid quadrupole-orbitrap mass spectrometry(UPLC-Q-Exactive-Orbitrap MS).Twenty-three compounds were identified in L.edodes,mainly including amino acids and analogs,flavonoids,nucleosides and analogs,phenols and steroids.Twenty-nine compounds were identified in A.auricula,mainly including amino acids and analogs,nucleosides and analogs,flavonoids and phenols.There are 9 common ingredients of L.edodes and A.auricula,including 4 amino acids and analogs,2 flavonoids,2 nucleosides and analogs and 1 phenol.
基金supported by the National Natural Science Foundation of China(32001492)the Ministry of Agriculture of China(2016ZX08009)the Natural Science Foundation of Henan(202300410053)。
文摘Aegilops tauschii,the wild progenitor of wheat D-genome and a valuable germplasm for wheat improvement,has a wide natural distribution from eastern Turkey to China.However,the phylogenetic relationship and dispersion history of Ae.tauschii in China has not been scientifically clarified.In this study,we genotyped 208 accessions(with 104 in China)using dd RAD sequencing and 55K SNP array,and classified the population into six sublineages.Three possible spreading routes or events were identified,resulting in specific distribution patterns,with four sublineages found in Xinjiang,one in Qinghai,two in Shaanxi and one in Henan.We also established the correlation of SNP-based,karyotypebased and spike-morphology-based techniques to demonstrate the internal classification of Ae.tauschii,and developed consensus dataset with 1245 putative accessions by merging data previously published.Our analysis suggested that eight inter-lineage accessions could be assigned to the putative Lineage 3and these accessions would help to conserve the genetic diversity of the species.By developing the consensus phylogenetic relationships of Ae.tauschii,our work validated the hypothesis on the dispersal history of Ae.tauschii in China,and contributed to the efficient and comprehensive germplasm-mining of the species.
基金supported by the National Key Research and Development Program of China(2020YFE0202300)Science and Technology Major Project of Guangxi(GuiKeAA20108005-2)+1 种基金Guangdong Innovation Research Team Fund(grant number:2014ZT05S078)National Key Research and Development Program of China(2019YFA0707000).No conflict of interest declared.
文摘Advances in DNA sequencing technology have sparked a genomics revolution,driving breakthroughs in plant genetics and crop breeding.Recently,the focus has shifted from cataloging genetic diversity in plants to exploring their functional significance and delivering beneficial alleles for crop improvement.This transformation has been facilitated by the increasing adoption of whole-genome resequencing.In this review,we summarize the current progress of population-based genome resequencing studies and how these studies affect crop breeding.A total of 187 land plants from 163 countries have been resequenced,comprising 54413 accessions.As part of resequencing efforts 367 traits have been surveyed and 86 genome-wide association studies have been conducted.Economically important crops,particularly cereals,vegetables,and legumes,have dominated the resequencing efforts,leaving a gap in 49 orders,including Lycopodiales,Liliales,Acorales,Austrobaileyales,and Commelinales.The resequenced germplasm is distributed across diverse geographic locations,providing a global perspective on plant genomics.We highlight genes that have been selected during domestication,or associated with agronomic traits,and form a repository of candidate genes for future research and application.Despite the opportunities for cross-species comparative genomics,many population genomic datasets are not accessible,impeding secondary analyses.We call for a more open and collaborative approach to population genomics that promotes data sharing and encourages contribution-based credit policy.The number of plant genome resequencing studies will continue to rise with the decreasing DNA sequencing costs,coupled with advances in analysis and computational technologies.This expansion,in terms of both scale and quality,holds promise for deeper insights into plant trait genetics and breeding design.
基金This work was funded by Major Public Welfare Projects in Henan Province(201300110200)Research on Precision Nutrition and Health Food,Department of Science and Technology,Henan Province(CXJD2021006)The Key Project in Science and Technology Agency of Henan Province 212102110469.
文摘Edible Mushrooms have been valued as a valuable food source due to its nutritional and medicinal characteristics.Edible mushrooms contain various bioactive components such as proteins,polyunsaturated fatty acids,polysaccharides,dietary fibers,amino acids,vitamins,and minerals.They have essential health effects,such as antioxidant,antimicrobial,immune-stimulatory,and anticancer,cholesterol-lowering properties.Because of their nutritional and medicinal benefits,mushrooms have become increasingly popular in recent years all over the world.Mushrooms were considered immortality plants in Ancient Egypt and were given to mankind by the god Osiris.Mushrooms were declared a delicacy reserved only for Egyptian nobility due to their distinct flavor.The current study focuses on the common species of edible mushrooms in Egypt and their different bioactive ingredients,nutritional values and the health benefits.