Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wil...Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wild C.oleifera can serve as a case for studying the molecular bases of adaptive evolution to freezing stress.Here,47 wild C.oleifera from 11 natural distribution sites in China and 4 relative species of C.oleifera were selected for genome sequencing.“Min Temperature of Coldest Month”(BIO6)had the highest comprehensive contribution to wild C.oleifera distribution.The population genetic structure of wild C.oleifera could be divided into two groups:in cold winter(BIO6≤0℃)and warm winter(BIO6>0℃)areas.Wild C.oleifera in cold winter areas might have experienced stronger selection pressures and population bottlenecks with lower N_(e) than those in warm winter areas.155 singlenucleotide polymorphisms(SNPs)were significantly correlated with the key bioclimatic variables(106 SNPs significantly correlated with BIO6).Twenty key SNPs and 15 key copy number variation regions(CNVRs)were found with genotype differentiation>50%between the two groups of wild C.oleifera.Key SNPs in cis-regulatory elements might affect the expression of key genes associated with freezing tolerance,and they were also found within a CNVR suggesting interactions between them.Some key CNVRs in the exon regions were closely related to the differentially expressed genes under freezing stress.The findings suggest that rich SNPs and CNVRs in polyploid trees may contribute to the adaptive evolution to freezing stress.展开更多
Acetic acid and furfural are known as prevalent inhibitors deriving from pretreatment during lignocellulosic ethanol production.They negatively impact cell growth,glucose uptake and ethanol biosynthesis of Saccharomyc...Acetic acid and furfural are known as prevalent inhibitors deriving from pretreatment during lignocellulosic ethanol production.They negatively impact cell growth,glucose uptake and ethanol biosynthesis of Saccharomyces cerevisiae strains.Development of industrial S.cerevisiae strains with high tolerance towards these inhibitors is thus critical for efficient lignocellulosic ethanol production.In this study,the acetic acid or furfural tolerance of different S.cerevisiae strains could be significantly enhanced after adaptive evolution via serial cultivation for 40 generations under stress conditions.The acetic acid-based adaptive strain SPSC01-TA9 produced 30.5 g·L^(-1)ethanol with a yield of 0.46 g·g^(-1)in the presence of 9 g·L^(-1)acetic acid,while the acetic acid/furfural-based adaptive strain SPSC01-TAF94 produced more ethanol of 36.2 g·L^(-1)with increased yield up to 0.49 g·g^(-1)in the presence of both 9 g·L^(-1)acetic acid and 4 g·L^(-1)furfural.Significant improvements were also observed during non-detoxified corn stover hydrolysate culture by SPSC01-TAF94,which achieved ethanol production and yield of 29.1 g·L^(-1)and 0.49 g·g^(-1),respectively,the growth and fermentation efficiency of acetic acid/furfural-based adaptive strain in hydrolysate was 95%higher than those of wildtype strains,indicating the acetic acid-and furfural-based adaptive evolution strategy could be an effective approach for improving lignocellulosic ethanol production.The adapted strains developed in this study with enhanced tolerance against acetic acid and furfural could be potentially contribute to economically feasible and sustainable lignocellulosic biorefinery.展开更多
Pikas(Lagomorpha: Ochotonidae) are small mouselike lagomorphs. To investigate their adaptation to different ecological environments during their dispersal from the Qinghai-Xizang(Tibet) Plateau(QTP), we collected 226 ...Pikas(Lagomorpha: Ochotonidae) are small mouselike lagomorphs. To investigate their adaptation to different ecological environments during their dispersal from the Qinghai-Xizang(Tibet) Plateau(QTP), we collected 226 pikas and measured 20 morphological characteristics and recorded habitat information. We also sequenced the genome of 81specimens, representing 27 putative pika species.The genome-wide tree based on 4?090 coding genes identified five subgenera, i.e., Alienauroa, Conothoa,Lagotona, Ochotona, and Pika, consistent with morphometric data. Morphologically, Alienauroa and Ochotona had similar traits, including smaller size and earlier divergence time compared to other pikas.Consistently, the habitats of Alienauroa and Ochotona differed from those of the remaining subgenera. Phylogenetic signal analysis detected 83 genes significantly related to morphological characteristics, including several visual and hearingrelated genes. Analysis of shared amino acid substitutions and positively selected genes(PSGs) in Alienauroa and Ochotona identified two genes, i.e.,mitochondrial function-related TSFM(p.Q155E) and low-light visual sensitivity-related PROM1(p.H419Y).Functional experiments demonstrated that TSFM-155E significantly enhanced mitochondrial function compared to TSFM-155Q in other pikas, and PROM1-419Y decreased the modeling of dynamic intracellular chloride efflux upon calcium uptake. Alienauroa and Ochotona individuals mostly inhabit different environments(e.g., subtropical forests) than other pikas, suggesting that a shift from the larger ancestral type and changes in sensory acuity and energy enhancement may have been required in their new environments. This study increases our understanding of the evolutionary history of pikas.展开更多
In the field of phylogenetic analyses, the rbcL gene encoded large subunit Ribulose-1,5-biphosphate carboxylase/oxygenase (Rubisco, EC4.1.1.39), which plays a crucial role in the process of photosynthesis for most ...In the field of phylogenetic analyses, the rbcL gene encoded large subunit Ribulose-1,5-biphosphate carboxylase/oxygenase (Rubisco, EC4.1.1.39), which plays a crucial role in the process of photosynthesis for most terrestrial plants, has been considered to be conserved; however, recent controversy regarding rbcL conservation has appeared since it was proposed to be under natural selection within all principal lineages of land plants. In this study, by examining the variation of DNA and protein sequences among 17 species in the family Tamaricaceae, three nonsynonymous mutations were identified to be under positive selection. The favored sites were located in the alph-helix domains of Rubisco, with decreased hydrophobicity and increased entropy, which could facilitate C〇 2 penetration into the active site of Rubisco. We also found that the expression level of rbcL in different genotypes of Reaumuria soongarica shifted in response to various stresses such as drought, temperature, salt, and light. This study not only sheds light on the functional/structural features of Rubisco in the evolution scenarios from 〇 3-like into C4 in Tamaricaceae but also provides useful information on directing genetic performance to enhance photosynthesis efficiency of desert plants for sustaining fragile desert ecosystems; fur-thermore, it promotes the ability to cope with desert aridification and global warming.展开更多
Next-generation sequencing technology has transformed our ability to assess the taxonomic composition functions of host-associated microbiota and microbiomes. More human microbiome research projects—particularly thos...Next-generation sequencing technology has transformed our ability to assess the taxonomic composition functions of host-associated microbiota and microbiomes. More human microbiome research projects—particularly those that explore genomic mutations within the microbiome—will be launched in the next decade. This review focuses on the coevolution of microbes within a microbiome, which shapes strain-level diversity both within and between host species. We also explore the correlation between microbial genomic mutations and common metabolic diseases, and the adaptive evolution of pathogens and probiotics during invasion and colonization. Finally, we discuss advances in methods and algorithms for annotating and analyzing microbial genomic mutations.展开更多
Plants adapt to their local environments through natural or artificial selection of optimal phenotypes.Recent advances in genomics and computational biology,which integrate phenotypic and multi-omics data,have facilit...Plants adapt to their local environments through natural or artificial selection of optimal phenotypes.Recent advances in genomics and computational biology,which integrate phenotypic and multi-omics data,have facilitated the rapid identification of key genes and allelic variations that underlie these adaptive evolutionary processes.Under-standing the underlying molecular mechanisms has significantly enhanced our knowledge of how plants respond to changed habitats,including various biotic and abiotic stresses.In this review,we highlight recent progress in elucidating the ge-netic basis of phenotypic variation in morphological traits and stress responses,as well as the emer-gence of new ecotypes,subspecies,and species during adaptive evolution across varied environ-ments.This occurs through allelic divergences in both coding and non-coding regions in both model and non-model plants.Furthermore,the terrestrial-ization and early diversification of land plants in-volved the acquisition of additional genes,primarily through horizontal gene transfer and whole-genome duplication,which facilitated the development of complex molecular pathways to adapt to increas-ingly diverse environments.Finally,we discuss emerging trends and prospects for exploring and utilizing beneficial alleles for environmental adap-tation,to guide crop breeding efforts in response to global climate change.展开更多
The giant panda(Ailuropoda melanoleuca)is a rare species endemic to China,and also serves as a flagship species for global biodiversity conservation.Elucidating its evolutionary history is of great significance for co...The giant panda(Ailuropoda melanoleuca)is a rare species endemic to China,and also serves as a flagship species for global biodiversity conservation.Elucidating its evolutionary history is of great significance for conservation efforts.However,knowledge about the demographic changes and adaptive evolution of the giant panda remains limited.Paleogenomic research,with its broad temporal and geographic coverage,provides a novel perspective for addressing these questions.Given this,this study discusses three core topics related to the evolution of the giant panda.Firstly,we systematically consolidated the fossil records from the Late Miocene to the Holocene,along with their related studies,illustrating the impact of climatic and anthropogenic factors on the demographic history of the giant panda.In particular,climate change served as the primary driver of population fluctuations during the Pleistocene,leading to two episodes of population expansion and bottleneck.Additionally,human activities played a significant role in population divergence and demographic changes during the Holocene.Secondly,we also elucidated the adaptive process of the giant panda in terms of their highly specialized diet,highlighting long-term adaptation in morphology,genetics,and gut microbiota composition,which have led to its unique adaptive traits.Finally,the potential and significance of the paleogenomic studies in deepening our understanding of the demographic history and adaptive evolution of the giant panda were discussed.Meanwhile,this study demonstrated the potential of paleogenomic approaches for resolving species identification and obtaining individual-level information from fossil specimens,using ancient samples excavated from Baling in Shaanxi and Bamianshan in Hunan as case studies.展开更多
Wild castor grows in the high-altitude tropical desert of the African Plateau,a region known for high ultraviolet radiation,strong light,and extremely dry condition.To investigate the potential genetic basis of adapta...Wild castor grows in the high-altitude tropical desert of the African Plateau,a region known for high ultraviolet radiation,strong light,and extremely dry condition.To investigate the potential genetic basis of adaptation to both highland and tropical deserts,we generated a chromosome-level genome sequence assembly of the wild castor accession WT05,with a genome size of 316 Mb,a scaffold N50 of 31.93 Mb,and a contig N50 of 8.96 Mb,respectively.Compared with cultivated castor and other Euphorbiaceae species,the wild castor exhibits positive selection and gene family expansion for genes involved in DNA repair,photosynthesis,and abiotic stress responses.Genetic variations associated with positive selection were identified in several key genes,such as LIG1,DDB2,and RECG1,involved in nucleotide excision repair.Moreover,a study of genomic diversity among wild and cultivated accessions revealed genomic regions containing selection signatures associated with the adaptation to extreme environments.The identification of the genes and alleles with selection signatures provides insights into the genetic mechanisms underlying the adaptation of wild castor to the high-altitude tropical desert and would facilitate direct improvement of modern castor varieties.展开更多
The globin superfamily,central to oxygen(O_(2))cascade dynamics,exemplifies how canalization—evolutionary stabilization of phenotypic traits—enables vertebrates to thrive in extreme environments.In birds,hemoglobins...The globin superfamily,central to oxygen(O_(2))cascade dynamics,exemplifies how canalization—evolutionary stabilization of phenotypic traits—enables vertebrates to thrive in extreme environments.In birds,hemoglobins(Hbs)serve as a paradigm of this process,with structural and functional canalization underpinning their exceptional aerobic capacity and elevational diversification.Despite significant advances of globins in our understanding of avian aerobic adaptation,a comprehensive synthesis of functional diversity,molecular evolution,and structural innovation is essential to fully elucidate their canalized roles in O_(2)homeostasis.Integrating perspectives on globin functional diversity and structural evolution,this review examines how chance(mutation/fixation biases)and contingency(historical genetic/epistatic constraints)shape Hb divergence and parallelism,thereby bridging molecular mechanisms with physiological adaptation in birds.We highlight how avian Hbs,canalized through compensatory substitutions and allosteric regulation,achieves a balance between evolutionary robustness and adaptive plasticity.However,critical gaps remain persist:the roles of understudied globins(e.g.,neuroglobin,globin E)and the mechanisms of genetic assimilation in migratory taxa.We propose an integrative framework that incorporates ecological divergence(elevation,flight endurance),phylogenetic timescales,and systems biology to unravel how canalization directs adaptive compromise.By focusing on birds within the amniotes,this synthesis advances a cohesive model for vertebrate evolution,wherein canalized globins reconcile metabolic precision with ecological innovation.Ultimately,this review refines hypotheses of O_(2)cascade evolution and calls for cross-disciplinary studies to decode the genetic and physiological architecture underlying adaptive canalization in extreme environments.展开更多
Actinidia arguta,the most widely distributed Actinidia species and the second cultivated species in the genus,can be distinguished from the currently cultivated Actinidia chinensis on the basis of its small and smooth...Actinidia arguta,the most widely distributed Actinidia species and the second cultivated species in the genus,can be distinguished from the currently cultivated Actinidia chinensis on the basis of its small and smooth fruit,rapid softening,and excellent cold tolerance.Adaptive evolution of tetraploid Actinidia species and the genetic basis of their important agronomic traits are still unclear.Here,we generated a chromosome-scale genome assembly of an autotetraploid male A.arguta accession.The genome assembly was 2.77 Gb in length with a contig N50 of 9.97 Mb and was anchored onto 116 pseudo-chromosomes.Resequencing and clustering of 101 geographically representative accessions showed that they could be divided into two geographic groups,Southern and Northern,which first diverged 12.9 million years ago.A.arguta underwent two prominent expansions and one demographic bottleneck from the midPleistocene climate transition to the late Pleistocene.Population genomics studies using paleoclimate data enabled us to discern the evolution of the species’adaptation to different historical environments.Three genes(AaCEL1,AaPME1,and AaDOF1)related to flesh softening were identified by multi-omics analysis,and their ability to accelerate flesh softening was verified through transient expression assays.A set of genes that characteristically regulate sexual dimorphism located on the sex chromosome(Chr3)or autosomal chromosomes showed biased expression during stamen or carpel development.This chromosome-level assembly of the autotetraploid A.arguta genome and the genes related to important agronomic traits will facilitate future functional genomics research and improvement of A.arguta.展开更多
Tetrodotoxin(TTX)is a potent neurotoxin firstly discovered in the ovary of pufferfish.The genetic basis of voltage-gated sodium channel resistance to TTX has been widely studied,but it remains unclear in the evolution...Tetrodotoxin(TTX)is a potent neurotoxin firstly discovered in the ovary of pufferfish.The genetic basis of voltage-gated sodium channel resistance to TTX has been widely studied,but it remains unclear in the evolution history of voltage-gated sodium channel resistance to TTX in pufferfish with different TTX concentrations.In this study,six scn4aa coding sequences of pufferfish were firstly cloned and sequenced,then used to investigate the adaptive evolution of scn4aa associated with TTX concentration and reconstruct ancestral sequences with seven scn4aa of other fishes.The result of CODEML(codon substitution model)program from the PAML(phylogenetic analysis by maximum likelihood)package shows only in the genus of Takifugu,which contains TTX highly in the liver,under positive selection.The result also indicates that three of four positively selected sites are located in the intracellular regions,which may compensate for normal function.The ancestral sequence reconstruction may suggest that the replacements providing weak toxin resistance might have appeared first in scn4aa,then the genus Takifugu evolved stronger resistance to TTX later.These results contribute to the explanation of the evolutional history of voltage-gated sodium channel resistance to TTX in pufferfish.展开更多
Concentrate copper grade(CCG)is one of the important production indicators of copper flotation processes,and keeping the CCG at the set value is of great significance to the economic benefit of copper flotation indust...Concentrate copper grade(CCG)is one of the important production indicators of copper flotation processes,and keeping the CCG at the set value is of great significance to the economic benefit of copper flotation industrial processes.This paper addresses the fluctuation problem of CCG through an operational optimization method.Firstly,a density-based affinity propagationalgorithm is proposed so that more ideal working condition categories can be obtained for the complex raw ore properties.Next,a Bayesian network(BN)is applied to explore the relationship between the operational variables and the CCG.Based on the analysis results of BN,a weighted Gaussian process regression model is constructed to predict the CCG that a higher prediction accuracy can be obtained.To ensure the predicted CCG is close to the set value with a smaller magnitude of the operation adjustments and a smaller uncertainty of the prediction results,an index-oriented adaptive differential evolution(IOADE)algorithm is proposed,and the convergence performance of IOADE is superior to the traditional differential evolution and adaptive differential evolution methods.Finally,the effectiveness and feasibility of the proposed methods are verified by the experiments on a copper flotation industrial process.展开更多
Escherichia coli MLB(MG1655ΔpflBΔldhA),which can hardly grow on glucose with little succinate accumulation under anaerobic conditions.Two-stage fermentation is a fermentation in which the first stage is used for cel...Escherichia coli MLB(MG1655ΔpflBΔldhA),which can hardly grow on glucose with little succinate accumulation under anaerobic conditions.Two-stage fermentation is a fermentation in which the first stage is used for cell growth and the second stage is used for product production.The ability of glucose consumption and succinate production of MLB under anaerobic conditions can be improved significantly by using acetate as the solo carbon source under aerobic condition during the two-stage fermentation.Then,the adaptive laboratory evolution(ALE)of growing on acetate was applied here.We assumed that the activities of succinate production related enzymes might be further improved in this study.E.coli MLB46-05 evolved from MLB and it had an improved growth phenotype on acetate.Interestingly,in MLB46-05,the yield and tolerance of succinic acid in the anaerobic condition of two-stage fermentation were improved significantly.According to transcriptome analysis,upregulation of the glyoxylate cycle and the activity of stress regulatory factors are the possible reasons for the elevated yield.And the increased tolerance to acetate made it more tolerant to high concentrations of glucose and succinate.Finally,strain MLB46-05 produced 111 g/L of succinic acid with a product yield of 0.74 g/g glucose.展开更多
基金funded by the National Natural Science Foundation of China(grant no.32270238 and 31870311).
文摘Subtropical evergreen broad-leaved trees are usually vulnerable to freezing stress,while hexaploid wild Camellia oleifera shows strong freezing tolerance.As a valuable genetic resource of woody oil crop C.oleifera,wild C.oleifera can serve as a case for studying the molecular bases of adaptive evolution to freezing stress.Here,47 wild C.oleifera from 11 natural distribution sites in China and 4 relative species of C.oleifera were selected for genome sequencing.“Min Temperature of Coldest Month”(BIO6)had the highest comprehensive contribution to wild C.oleifera distribution.The population genetic structure of wild C.oleifera could be divided into two groups:in cold winter(BIO6≤0℃)and warm winter(BIO6>0℃)areas.Wild C.oleifera in cold winter areas might have experienced stronger selection pressures and population bottlenecks with lower N_(e) than those in warm winter areas.155 singlenucleotide polymorphisms(SNPs)were significantly correlated with the key bioclimatic variables(106 SNPs significantly correlated with BIO6).Twenty key SNPs and 15 key copy number variation regions(CNVRs)were found with genotype differentiation>50%between the two groups of wild C.oleifera.Key SNPs in cis-regulatory elements might affect the expression of key genes associated with freezing tolerance,and they were also found within a CNVR suggesting interactions between them.Some key CNVRs in the exon regions were closely related to the differentially expressed genes under freezing stress.The findings suggest that rich SNPs and CNVRs in polyploid trees may contribute to the adaptive evolution to freezing stress.
基金supported by the National Key Research and Development Program of China(2021YFC2101303)the National Natural Science Foundation of China(U22A20424 and 22378048)+6 种基金the Major Scientific and Technological Projects of Sinopecthe Dalian Technology Talents Project for Distinguished Young Scholars(2021RJ03)the Yunnan Provincial Rural Energy Engineering Key Laboratory(2022KF003)the National Natural Science Foundation of Liaoning Province(2023-MS-110)the Liaoning Revitalization Talents Program(XLYC2202049)the Fundamental Research Funds for the Central Universities(DUT22LK22)the CAS Key Laboratory of Renewable Energy,Guangzhou Institute of Energy Conversion(E229kf0401)。
文摘Acetic acid and furfural are known as prevalent inhibitors deriving from pretreatment during lignocellulosic ethanol production.They negatively impact cell growth,glucose uptake and ethanol biosynthesis of Saccharomyces cerevisiae strains.Development of industrial S.cerevisiae strains with high tolerance towards these inhibitors is thus critical for efficient lignocellulosic ethanol production.In this study,the acetic acid or furfural tolerance of different S.cerevisiae strains could be significantly enhanced after adaptive evolution via serial cultivation for 40 generations under stress conditions.The acetic acid-based adaptive strain SPSC01-TA9 produced 30.5 g·L^(-1)ethanol with a yield of 0.46 g·g^(-1)in the presence of 9 g·L^(-1)acetic acid,while the acetic acid/furfural-based adaptive strain SPSC01-TAF94 produced more ethanol of 36.2 g·L^(-1)with increased yield up to 0.49 g·g^(-1)in the presence of both 9 g·L^(-1)acetic acid and 4 g·L^(-1)furfural.Significant improvements were also observed during non-detoxified corn stover hydrolysate culture by SPSC01-TAF94,which achieved ethanol production and yield of 29.1 g·L^(-1)and 0.49 g·g^(-1),respectively,the growth and fermentation efficiency of acetic acid/furfural-based adaptive strain in hydrolysate was 95%higher than those of wildtype strains,indicating the acetic acid-and furfural-based adaptive evolution strategy could be an effective approach for improving lignocellulosic ethanol production.The adapted strains developed in this study with enhanced tolerance against acetic acid and furfural could be potentially contribute to economically feasible and sustainable lignocellulosic biorefinery.
基金supported by the National Natural Science Foundation of China (31470110, 31970399)China National GeneBank (CNGB)。
文摘Pikas(Lagomorpha: Ochotonidae) are small mouselike lagomorphs. To investigate their adaptation to different ecological environments during their dispersal from the Qinghai-Xizang(Tibet) Plateau(QTP), we collected 226 pikas and measured 20 morphological characteristics and recorded habitat information. We also sequenced the genome of 81specimens, representing 27 putative pika species.The genome-wide tree based on 4?090 coding genes identified five subgenera, i.e., Alienauroa, Conothoa,Lagotona, Ochotona, and Pika, consistent with morphometric data. Morphologically, Alienauroa and Ochotona had similar traits, including smaller size and earlier divergence time compared to other pikas.Consistently, the habitats of Alienauroa and Ochotona differed from those of the remaining subgenera. Phylogenetic signal analysis detected 83 genes significantly related to morphological characteristics, including several visual and hearingrelated genes. Analysis of shared amino acid substitutions and positively selected genes(PSGs) in Alienauroa and Ochotona identified two genes, i.e.,mitochondrial function-related TSFM(p.Q155E) and low-light visual sensitivity-related PROM1(p.H419Y).Functional experiments demonstrated that TSFM-155E significantly enhanced mitochondrial function compared to TSFM-155Q in other pikas, and PROM1-419Y decreased the modeling of dynamic intracellular chloride efflux upon calcium uptake. Alienauroa and Ochotona individuals mostly inhabit different environments(e.g., subtropical forests) than other pikas, suggesting that a shift from the larger ancestral type and changes in sensory acuity and energy enhancement may have been required in their new environments. This study increases our understanding of the evolutionary history of pikas.
基金supported by the National Natural Science Foundation of China(NSFC,Grant Nos.31370395 and 31500266)the"One Hundred Talents"project of the Chinese Academy of Sciences(Grant No.29Y127E71)
文摘In the field of phylogenetic analyses, the rbcL gene encoded large subunit Ribulose-1,5-biphosphate carboxylase/oxygenase (Rubisco, EC4.1.1.39), which plays a crucial role in the process of photosynthesis for most terrestrial plants, has been considered to be conserved; however, recent controversy regarding rbcL conservation has appeared since it was proposed to be under natural selection within all principal lineages of land plants. In this study, by examining the variation of DNA and protein sequences among 17 species in the family Tamaricaceae, three nonsynonymous mutations were identified to be under positive selection. The favored sites were located in the alph-helix domains of Rubisco, with decreased hydrophobicity and increased entropy, which could facilitate C〇 2 penetration into the active site of Rubisco. We also found that the expression level of rbcL in different genotypes of Reaumuria soongarica shifted in response to various stresses such as drought, temperature, salt, and light. This study not only sheds light on the functional/structural features of Rubisco in the evolution scenarios from 〇 3-like into C4 in Tamaricaceae but also provides useful information on directing genetic performance to enhance photosynthesis efficiency of desert plants for sustaining fragile desert ecosystems; fur-thermore, it promotes the ability to cope with desert aridification and global warming.
基金supported by the National Natural Science Foundation of China(31701577).
文摘Next-generation sequencing technology has transformed our ability to assess the taxonomic composition functions of host-associated microbiota and microbiomes. More human microbiome research projects—particularly those that explore genomic mutations within the microbiome—will be launched in the next decade. This review focuses on the coevolution of microbes within a microbiome, which shapes strain-level diversity both within and between host species. We also explore the correlation between microbial genomic mutations and common metabolic diseases, and the adaptive evolution of pathogens and probiotics during invasion and colonization. Finally, we discuss advances in methods and algorithms for annotating and analyzing microbial genomic mutations.
基金supported by the Natural Science Foundation of China(Nos.32030006 and No.32270302)the Natural Science Foundation of Sichuan Province(No.2024NSFSC0340).
文摘Plants adapt to their local environments through natural or artificial selection of optimal phenotypes.Recent advances in genomics and computational biology,which integrate phenotypic and multi-omics data,have facilitated the rapid identification of key genes and allelic variations that underlie these adaptive evolutionary processes.Under-standing the underlying molecular mechanisms has significantly enhanced our knowledge of how plants respond to changed habitats,including various biotic and abiotic stresses.In this review,we highlight recent progress in elucidating the ge-netic basis of phenotypic variation in morphological traits and stress responses,as well as the emer-gence of new ecotypes,subspecies,and species during adaptive evolution across varied environ-ments.This occurs through allelic divergences in both coding and non-coding regions in both model and non-model plants.Furthermore,the terrestrial-ization and early diversification of land plants in-volved the acquisition of additional genes,primarily through horizontal gene transfer and whole-genome duplication,which facilitated the development of complex molecular pathways to adapt to increas-ingly diverse environments.Finally,we discuss emerging trends and prospects for exploring and utilizing beneficial alleles for environmental adap-tation,to guide crop breeding efforts in response to global climate change.
基金supported by the National Natural Science Foundation of China(Grant Nos.32100489,41925009,42262001 and 42102001)。
文摘The giant panda(Ailuropoda melanoleuca)is a rare species endemic to China,and also serves as a flagship species for global biodiversity conservation.Elucidating its evolutionary history is of great significance for conservation efforts.However,knowledge about the demographic changes and adaptive evolution of the giant panda remains limited.Paleogenomic research,with its broad temporal and geographic coverage,provides a novel perspective for addressing these questions.Given this,this study discusses three core topics related to the evolution of the giant panda.Firstly,we systematically consolidated the fossil records from the Late Miocene to the Holocene,along with their related studies,illustrating the impact of climatic and anthropogenic factors on the demographic history of the giant panda.In particular,climate change served as the primary driver of population fluctuations during the Pleistocene,leading to two episodes of population expansion and bottleneck.Additionally,human activities played a significant role in population divergence and demographic changes during the Holocene.Secondly,we also elucidated the adaptive process of the giant panda in terms of their highly specialized diet,highlighting long-term adaptation in morphology,genetics,and gut microbiota composition,which have led to its unique adaptive traits.Finally,the potential and significance of the paleogenomic studies in deepening our understanding of the demographic history and adaptive evolution of the giant panda were discussed.Meanwhile,this study demonstrated the potential of paleogenomic approaches for resolving species identification and obtaining individual-level information from fossil specimens,using ancient samples excavated from Baling in Shaanxi and Bamianshan in Hunan as case studies.
基金supported by the National Key R&D Program of China(Grant No.2018YFA0901800)the National Natural Science Foundation of China(Grant No.32072101)+1 种基金the Guangdong Basic and Applied Basic Research Foundation,China(Grant No.2019A1515111150)the Shenzhen Science and Technology Program,China(Grant No.KQTD20180411143628272)。
文摘Wild castor grows in the high-altitude tropical desert of the African Plateau,a region known for high ultraviolet radiation,strong light,and extremely dry condition.To investigate the potential genetic basis of adaptation to both highland and tropical deserts,we generated a chromosome-level genome sequence assembly of the wild castor accession WT05,with a genome size of 316 Mb,a scaffold N50 of 31.93 Mb,and a contig N50 of 8.96 Mb,respectively.Compared with cultivated castor and other Euphorbiaceae species,the wild castor exhibits positive selection and gene family expansion for genes involved in DNA repair,photosynthesis,and abiotic stress responses.Genetic variations associated with positive selection were identified in several key genes,such as LIG1,DDB2,and RECG1,involved in nucleotide excision repair.Moreover,a study of genomic diversity among wild and cultivated accessions revealed genomic regions containing selection signatures associated with the adaptation to extreme environments.The identification of the genes and alleles with selection signatures provides insights into the genetic mechanisms underlying the adaptation of wild castor to the high-altitude tropical desert and would facilitate direct improvement of modern castor varieties.
基金supported by the National Natural Science Foundation of China(NSFC 31900313)to X.Z.the Central guide local science and technology development funds(XZ202301YD0007C)to L.Y.+1 种基金NSFC(32471572)National Key Research and Development Program of China(2024YFC2310303)to D.L。
文摘The globin superfamily,central to oxygen(O_(2))cascade dynamics,exemplifies how canalization—evolutionary stabilization of phenotypic traits—enables vertebrates to thrive in extreme environments.In birds,hemoglobins(Hbs)serve as a paradigm of this process,with structural and functional canalization underpinning their exceptional aerobic capacity and elevational diversification.Despite significant advances of globins in our understanding of avian aerobic adaptation,a comprehensive synthesis of functional diversity,molecular evolution,and structural innovation is essential to fully elucidate their canalized roles in O_(2)homeostasis.Integrating perspectives on globin functional diversity and structural evolution,this review examines how chance(mutation/fixation biases)and contingency(historical genetic/epistatic constraints)shape Hb divergence and parallelism,thereby bridging molecular mechanisms with physiological adaptation in birds.We highlight how avian Hbs,canalized through compensatory substitutions and allosteric regulation,achieves a balance between evolutionary robustness and adaptive plasticity.However,critical gaps remain persist:the roles of understudied globins(e.g.,neuroglobin,globin E)and the mechanisms of genetic assimilation in migratory taxa.We propose an integrative framework that incorporates ecological divergence(elevation,flight endurance),phylogenetic timescales,and systems biology to unravel how canalization directs adaptive compromise.By focusing on birds within the amniotes,this synthesis advances a cohesive model for vertebrate evolution,wherein canalized globins reconcile metabolic precision with ecological innovation.Ultimately,this review refines hypotheses of O_(2)cascade evolution and calls for cross-disciplinary studies to decode the genetic and physiological architecture underlying adaptive canalization in extreme environments.
基金funded by the Chinese National Key Research And Development Program(2019YFD1000202)the Biodiversity Survey,Observation and Assessment Program awarded by the Ministry of Ecology and Environment,The People’s Republic of China(2019HJ2096001006)+2 种基金the International Partnership Program of the Chinese Academy of Sciences(151542KYSB20210004)the Regional Key Projects of Science and Technology Service Network Initiative granted by the Chinese Academy of Sciences(KFJ-STS-QYZD-192)the Natural Science Foundation of China(NSFC)(31372031).
文摘Actinidia arguta,the most widely distributed Actinidia species and the second cultivated species in the genus,can be distinguished from the currently cultivated Actinidia chinensis on the basis of its small and smooth fruit,rapid softening,and excellent cold tolerance.Adaptive evolution of tetraploid Actinidia species and the genetic basis of their important agronomic traits are still unclear.Here,we generated a chromosome-scale genome assembly of an autotetraploid male A.arguta accession.The genome assembly was 2.77 Gb in length with a contig N50 of 9.97 Mb and was anchored onto 116 pseudo-chromosomes.Resequencing and clustering of 101 geographically representative accessions showed that they could be divided into two geographic groups,Southern and Northern,which first diverged 12.9 million years ago.A.arguta underwent two prominent expansions and one demographic bottleneck from the midPleistocene climate transition to the late Pleistocene.Population genomics studies using paleoclimate data enabled us to discern the evolution of the species’adaptation to different historical environments.Three genes(AaCEL1,AaPME1,and AaDOF1)related to flesh softening were identified by multi-omics analysis,and their ability to accelerate flesh softening was verified through transient expression assays.A set of genes that characteristically regulate sexual dimorphism located on the sex chromosome(Chr3)or autosomal chromosomes showed biased expression during stamen or carpel development.This chromosome-level assembly of the autotetraploid A.arguta genome and the genes related to important agronomic traits will facilitate future functional genomics research and improvement of A.arguta.
基金supported by National Natural Science Foundation of China (41176108)Key Innovation Project of Shanghai Education Commission (14zz145).
文摘Tetrodotoxin(TTX)is a potent neurotoxin firstly discovered in the ovary of pufferfish.The genetic basis of voltage-gated sodium channel resistance to TTX has been widely studied,but it remains unclear in the evolution history of voltage-gated sodium channel resistance to TTX in pufferfish with different TTX concentrations.In this study,six scn4aa coding sequences of pufferfish were firstly cloned and sequenced,then used to investigate the adaptive evolution of scn4aa associated with TTX concentration and reconstruct ancestral sequences with seven scn4aa of other fishes.The result of CODEML(codon substitution model)program from the PAML(phylogenetic analysis by maximum likelihood)package shows only in the genus of Takifugu,which contains TTX highly in the liver,under positive selection.The result also indicates that three of four positively selected sites are located in the intracellular regions,which may compensate for normal function.The ancestral sequence reconstruction may suggest that the replacements providing weak toxin resistance might have appeared first in scn4aa,then the genus Takifugu evolved stronger resistance to TTX later.These results contribute to the explanation of the evolutional history of voltage-gated sodium channel resistance to TTX in pufferfish.
基金supported in part by the National Key Research and Development Program of China(2021YFC2902703)the National Natural Science Foundation of China(62173078,61773105,61533007,61873049,61873053,61703085,61374147)。
文摘Concentrate copper grade(CCG)is one of the important production indicators of copper flotation processes,and keeping the CCG at the set value is of great significance to the economic benefit of copper flotation industrial processes.This paper addresses the fluctuation problem of CCG through an operational optimization method.Firstly,a density-based affinity propagationalgorithm is proposed so that more ideal working condition categories can be obtained for the complex raw ore properties.Next,a Bayesian network(BN)is applied to explore the relationship between the operational variables and the CCG.Based on the analysis results of BN,a weighted Gaussian process regression model is constructed to predict the CCG that a higher prediction accuracy can be obtained.To ensure the predicted CCG is close to the set value with a smaller magnitude of the operation adjustments and a smaller uncertainty of the prediction results,an index-oriented adaptive differential evolution(IOADE)algorithm is proposed,and the convergence performance of IOADE is superior to the traditional differential evolution and adaptive differential evolution methods.Finally,the effectiveness and feasibility of the proposed methods are verified by the experiments on a copper flotation industrial process.
基金supported by the National Key R&D Program of China(2021YFC2101300)Science and Technology Commission of Shanghai Municipality(21DZ1209100)Partially supported by Open Funding Project of the State Key Laboratory of Bioreactor Engineering.
文摘Escherichia coli MLB(MG1655ΔpflBΔldhA),which can hardly grow on glucose with little succinate accumulation under anaerobic conditions.Two-stage fermentation is a fermentation in which the first stage is used for cell growth and the second stage is used for product production.The ability of glucose consumption and succinate production of MLB under anaerobic conditions can be improved significantly by using acetate as the solo carbon source under aerobic condition during the two-stage fermentation.Then,the adaptive laboratory evolution(ALE)of growing on acetate was applied here.We assumed that the activities of succinate production related enzymes might be further improved in this study.E.coli MLB46-05 evolved from MLB and it had an improved growth phenotype on acetate.Interestingly,in MLB46-05,the yield and tolerance of succinic acid in the anaerobic condition of two-stage fermentation were improved significantly.According to transcriptome analysis,upregulation of the glyoxylate cycle and the activity of stress regulatory factors are the possible reasons for the elevated yield.And the increased tolerance to acetate made it more tolerant to high concentrations of glucose and succinate.Finally,strain MLB46-05 produced 111 g/L of succinic acid with a product yield of 0.74 g/g glucose.
