On December 7,2022,China adjusted public health control measures,there have been widespread of SARS-CoV-2 infections in Chinese mainland.As the number of infected people increased,the mutation probability of SARS-CoV-...On December 7,2022,China adjusted public health control measures,there have been widespread of SARS-CoV-2 infections in Chinese mainland.As the number of infected people increased,the mutation probability of SARS-CoV-2 is also raised.Therefore,it is of great importance to monitor SARS-CoV-2 variants and its mutations in China.In this current study,665 SARS-CoV-2 genomes from China deposited in the public database were used to analyze the proportion of different variants;to determine the composition of variants in China across different provinces;and analyze specific mutation frequency,focusing on 12 immune escape residues.The results showed that no new mutations were generated on the 12 immune escape residues.The evolutionary analysis of the BF.7 variant circulating in China showed that there is an independent evolutionary branch with unique mutation sites,officially named BF.7.14 by PANGO.This variant may have been imported from Russia to Inner Mongolia at the end of September 2022 and continued its spread in China.The evolutionary analysis of BA.5.2 variant shows that the variant is composed of two sub-variants,named BA.5.2.48 and BA.5.2.49 by PANGO,respectively.This variant may have been imported from abroad to Beijing at the beginning of September 2022 and formed two sub-variants after domestic transmission.Finally,this study showed that current epidemic variants in China were already circulating in other countries,and there were no additional mutations on immune escape residues that could pose a threat to other countries.展开更多
Many eukaryotic genes are members of multi-gene families due to gene duplications, which generate new copies that allow functional divergence. However, the relationship between
Dear Editor,Ever since the first human infection with H7N9 avian influenza virus(AIV)was reported in China in March 2013,there have been five H7N9 AIV pandemics in humans.Wave5 began earlier than the previous four wav...Dear Editor,Ever since the first human infection with H7N9 avian influenza virus(AIV)was reported in China in March 2013,there have been five H7N9 AIV pandemics in humans.Wave5 began earlier than the previous four waves,spread to more districts and counties in affected provinces,and had more confirmed cases(Wang et al.,2017).Human infections展开更多
Objective: To evaluate the evolution of the pathogen Mayaro virus, causing Mayaro fever(a mosquito-borne disease) and to perform selective pressure analysis and homology modelling.Methods: Nine different datasets were...Objective: To evaluate the evolution of the pathogen Mayaro virus, causing Mayaro fever(a mosquito-borne disease) and to perform selective pressure analysis and homology modelling.Methods: Nine different datasets were built, one for each protein(from protein C to non-structural protein 4) and the last one for the complete genome. Selective pressure and homology modelling analyses were applied. Results: Two main clades(A and B) were pointed in the maximum likelihood tree. The clade A included five Brazilian sequences sampled from 1955 to 2015. The Brazilian sequence sampled in 2014 significantly clustered with the Haitian sequence sampled in 2015. The clade B included the remaining 27 sequences sampled in the Central and Southern America from 1957 to 2013. Selective pressure analysis revealed several sites under episodic diversifying selection in envelope surface glycoprotein El, non-structural protein 1 and nonstructural protein 3 with a posterior probability P≤0.01. Homology modelling showed different sites modified by selective pressure and some protein-protein interaction sites at high interaction propensity. Conclusion: Maximum likelihood analysis confirmed the Mayaro virus previous circulation in Haiti and the successful spread to the Caribbean and USA. Selective pressure analysis revealed a strong presence of negatively selected sites, suggesting a probable purging of deleterious polymorphisms in functional genes. Homology model showed the position 31, under selective pressure, located in the edge of the ADP-ribose binding site predicting to possess a high potential of protein-protein interaction and suggesting the possible chance for a protective vaccine,thus preventing Mayaro virus urbanization as with Chikungunya virus.展开更多
The overuse of nitrogen(N)fertilizer in fields has increased production costs and raised environmental concerns.Increasing the N use efficiency(NUE)of rice varieties is crucial for sustainable agriculture.Here we repo...The overuse of nitrogen(N)fertilizer in fields has increased production costs and raised environmental concerns.Increasing the N use efficiency(NUE)of rice varieties is crucial for sustainable agriculture.Here we report the cloning and characterization of OsNPF3.1,a gene that controls rice NUE.An amino acid mutation in the OsNPF3.1 coding region caused different NUEs in wild and cultivated rice.OsNPF3.1,which is expressed mainly in the aerial parts of rice,also affects rice plant height,heading date,and thousand-grain weight.The OsNPF3.1 protein is located in the plasma membrane.When OsNPF3.1 was subjected to artificial selection,two naturally varying loci were associated with NUE,of which OsNPF3.1Chr6_8741040differed between indica and japonica rice.OsNPF3.1 can be used as a new target gene for breeding rice varieties with high NUE.展开更多
Oct4 is one of the key pluripotent factors essential for embryonic stem cells and induced pluripotent stem (iPS) cells. Oct4 belongs to the POU domain family, which contains multiples genes with various important fu...Oct4 is one of the key pluripotent factors essential for embryonic stem cells and induced pluripotent stem (iPS) cells. Oct4 belongs to the POU domain family, which contains multiples genes with various important functions. Although the function of Oct4 has been extensively studied, detailed comparison of Oct4 with other POU family genes and their evolutionary analysis are still lacking. Here, we systematically identified POU family genes from lower to higher animal species. We observed an expansion of POU family genes in vertebrates, with an additional increment in mammalian genomes. We analyzed the phylogenetic relationship, tissue specific expression profiles and regulatory networks of POU family genes of the human genome, and predicted the putative binding microRNAs of human POU family genes. These results provide the first comprehensive evolutionary and comparative analysis of POU family genes, which will help to better understand the relationships among POU family genes and shed light on their future functional studies.展开更多
The continuum structural-acoustic topology optimization with external loading is investigated herein. Finite element method (FEM) is used to obtain the structural frequency response and boundary element method (BEM...The continuum structural-acoustic topology optimization with external loading is investigated herein. Finite element method (FEM) is used to obtain the structural frequency response and boundary element method (BEM) is adopted to perform exterior acoustic radiation analysis. The evolutionary structural optimization (ESO) is served as an optimization method in structural-acoustic radiation topology analysis. The acoustic radiation optimization of a plate under harmonic excitation is given for example. The numerical results show that using ESO solution to analyze structural-acoustic topology optimization is feasible and effective.展开更多
Exploring the natural diversity of functional genes/proteins from environmental DNA in high throughput remains challenging.In this study,we developed a sequence-based functional metagenomics procedure for mining the d...Exploring the natural diversity of functional genes/proteins from environmental DNA in high throughput remains challenging.In this study,we developed a sequence-based functional metagenomics procedure for mining the diversity of copper(Cu)resistance gene copA in global microbiomes,by combining the metagenomic assembly technology,local BLAST,evolutionary trace analysis(ETA),chemical synthesis,and conventional functional genomics.In total,87 metagenomes were collected from a public database and subjected to copA detection,resulting in 93,899 hits.Manual curation of 1214 hits of high confidence led to the retrieval of 517 unique CopA candidates,which were further subjected to ETA.Eventually,175 novel copA sequences of high quality were discovered.Phylogenetic analysis showed that almost all these putative CopA proteins were distantly related to known CopA proteins,with 55 sequences from totally unknown species.Ten novel and three known copA genes were chemically synthesized for further functional genomic tests using the Cu-sensitive Escherichia coli(DcopA).The growth test and Cu uptake determination showed that five novel clones had positive effects on host Cu resistance and uptake.One recombinant harboring copA-like 15(copAL15)successfully restored Cu resistance of the host with a substantially enhanced Cu uptake.Two novel copA genes were fused with the gfp gene and expressed in E.coli for microscopic observation.Imaging results showed that they were successfully expressed and their proteins were localized to the membrane.The results here greatly expand the diversity of known CopA proteins,and the sequence-based procedure developed overcomes biases in length,screening methods,and abundance of conventional functional metagenomics.展开更多
基金This work was supported by grants from consultancy project(2022-JB-06)by the Chinese Academy of Engineering(CAE).
文摘On December 7,2022,China adjusted public health control measures,there have been widespread of SARS-CoV-2 infections in Chinese mainland.As the number of infected people increased,the mutation probability of SARS-CoV-2 is also raised.Therefore,it is of great importance to monitor SARS-CoV-2 variants and its mutations in China.In this current study,665 SARS-CoV-2 genomes from China deposited in the public database were used to analyze the proportion of different variants;to determine the composition of variants in China across different provinces;and analyze specific mutation frequency,focusing on 12 immune escape residues.The results showed that no new mutations were generated on the 12 immune escape residues.The evolutionary analysis of the BF.7 variant circulating in China showed that there is an independent evolutionary branch with unique mutation sites,officially named BF.7.14 by PANGO.This variant may have been imported from Russia to Inner Mongolia at the end of September 2022 and continued its spread in China.The evolutionary analysis of BA.5.2 variant shows that the variant is composed of two sub-variants,named BA.5.2.48 and BA.5.2.49 by PANGO,respectively.This variant may have been imported from abroad to Beijing at the beginning of September 2022 and formed two sub-variants after domestic transmission.Finally,this study showed that current epidemic variants in China were already circulating in other countries,and there were no additional mutations on immune escape residues that could pose a threat to other countries.
文摘Many eukaryotic genes are members of multi-gene families due to gene duplications, which generate new copies that allow functional divergence. However, the relationship between
基金supported by funding from the National Key Research and Development Program(2016YFD0500201)the CAS Pioneer Hundred Talents Program to Jie Cui
文摘Dear Editor,Ever since the first human infection with H7N9 avian influenza virus(AIV)was reported in China in March 2013,there have been five H7N9 AIV pandemics in humans.Wave5 began earlier than the previous four waves,spread to more districts and counties in affected provinces,and had more confirmed cases(Wang et al.,2017).Human infections
文摘Objective: To evaluate the evolution of the pathogen Mayaro virus, causing Mayaro fever(a mosquito-borne disease) and to perform selective pressure analysis and homology modelling.Methods: Nine different datasets were built, one for each protein(from protein C to non-structural protein 4) and the last one for the complete genome. Selective pressure and homology modelling analyses were applied. Results: Two main clades(A and B) were pointed in the maximum likelihood tree. The clade A included five Brazilian sequences sampled from 1955 to 2015. The Brazilian sequence sampled in 2014 significantly clustered with the Haitian sequence sampled in 2015. The clade B included the remaining 27 sequences sampled in the Central and Southern America from 1957 to 2013. Selective pressure analysis revealed several sites under episodic diversifying selection in envelope surface glycoprotein El, non-structural protein 1 and nonstructural protein 3 with a posterior probability P≤0.01. Homology modelling showed different sites modified by selective pressure and some protein-protein interaction sites at high interaction propensity. Conclusion: Maximum likelihood analysis confirmed the Mayaro virus previous circulation in Haiti and the successful spread to the Caribbean and USA. Selective pressure analysis revealed a strong presence of negatively selected sites, suggesting a probable purging of deleterious polymorphisms in functional genes. Homology model showed the position 31, under selective pressure, located in the edge of the ADP-ribose binding site predicting to possess a high potential of protein-protein interaction and suggesting the possible chance for a protective vaccine,thus preventing Mayaro virus urbanization as with Chikungunya virus.
基金supported by the National Natural Science Foundation of China(32060476 and 31860371)Guangxi Department of Science and Technology(AA22068087-4)+3 种基金Guangxi Natural Science Foundation of China(2015GXNSFAA139054,2018GXNSFAA138124,and 2020GXNSFAA259041)Guangxi Ministry of Science and Technology(AB21238009)Special Fund of Local Science and Technology Development for the Central Guidance(ZY21195034)Guangxi Academy of Agricultural Sciences(2021JM04,2021JM49,2021YT030,QN-25,and QN-35)。
文摘The overuse of nitrogen(N)fertilizer in fields has increased production costs and raised environmental concerns.Increasing the N use efficiency(NUE)of rice varieties is crucial for sustainable agriculture.Here we report the cloning and characterization of OsNPF3.1,a gene that controls rice NUE.An amino acid mutation in the OsNPF3.1 coding region caused different NUEs in wild and cultivated rice.OsNPF3.1,which is expressed mainly in the aerial parts of rice,also affects rice plant height,heading date,and thousand-grain weight.The OsNPF3.1 protein is located in the plasma membrane.When OsNPF3.1 was subjected to artificial selection,two naturally varying loci were associated with NUE,of which OsNPF3.1Chr6_8741040differed between indica and japonica rice.OsNPF3.1 can be used as a new target gene for breeding rice varieties with high NUE.
基金supported by grants from the National Program on the Development of Basic Research of China (Grant No. 2006CB101700)the National Natural Science Foundation of China (Grant No. 30971846)the Vital Project of Natural Science in Universities of Jiangsu Province, China (Grant No. 09KJA210002)
基金supported by the grants from the Ministry of Science and Technology of China(No.2011CBA01101 to X.-J.W.)the Chinese Academy of Sciences(Nos. XDA01020105,KSCX2-EW-R-01-03 and 2010-Biols-CAS- 0303 to X.-J.W.)
文摘Oct4 is one of the key pluripotent factors essential for embryonic stem cells and induced pluripotent stem (iPS) cells. Oct4 belongs to the POU domain family, which contains multiples genes with various important functions. Although the function of Oct4 has been extensively studied, detailed comparison of Oct4 with other POU family genes and their evolutionary analysis are still lacking. Here, we systematically identified POU family genes from lower to higher animal species. We observed an expansion of POU family genes in vertebrates, with an additional increment in mammalian genomes. We analyzed the phylogenetic relationship, tissue specific expression profiles and regulatory networks of POU family genes of the human genome, and predicted the putative binding microRNAs of human POU family genes. These results provide the first comprehensive evolutionary and comparative analysis of POU family genes, which will help to better understand the relationships among POU family genes and shed light on their future functional studies.
文摘The continuum structural-acoustic topology optimization with external loading is investigated herein. Finite element method (FEM) is used to obtain the structural frequency response and boundary element method (BEM) is adopted to perform exterior acoustic radiation analysis. The evolutionary structural optimization (ESO) is served as an optimization method in structural-acoustic radiation topology analysis. The acoustic radiation optimization of a plate under harmonic excitation is given for example. The numerical results show that using ESO solution to analyze structural-acoustic topology optimization is feasible and effective.
基金supported by the National Natural Science Foundation of China(Grant No.41877414)the National Key R&D Program of China(Grant No.2018YFD0800306)+3 种基金the Hebei Provincial Science Fund for Distinguished Young Scholars(Grant No.D2018503005)supported by the National Natural Science Foundation of China(Grant No.31700228)supported by the National Natural Science Foundation of China(Grant No.U21A20182)the Youth Innovation Promotion Association,Chinese Academy of Sciences(Grant No.2021092).
文摘Exploring the natural diversity of functional genes/proteins from environmental DNA in high throughput remains challenging.In this study,we developed a sequence-based functional metagenomics procedure for mining the diversity of copper(Cu)resistance gene copA in global microbiomes,by combining the metagenomic assembly technology,local BLAST,evolutionary trace analysis(ETA),chemical synthesis,and conventional functional genomics.In total,87 metagenomes were collected from a public database and subjected to copA detection,resulting in 93,899 hits.Manual curation of 1214 hits of high confidence led to the retrieval of 517 unique CopA candidates,which were further subjected to ETA.Eventually,175 novel copA sequences of high quality were discovered.Phylogenetic analysis showed that almost all these putative CopA proteins were distantly related to known CopA proteins,with 55 sequences from totally unknown species.Ten novel and three known copA genes were chemically synthesized for further functional genomic tests using the Cu-sensitive Escherichia coli(DcopA).The growth test and Cu uptake determination showed that five novel clones had positive effects on host Cu resistance and uptake.One recombinant harboring copA-like 15(copAL15)successfully restored Cu resistance of the host with a substantially enhanced Cu uptake.Two novel copA genes were fused with the gfp gene and expressed in E.coli for microscopic observation.Imaging results showed that they were successfully expressed and their proteins were localized to the membrane.The results here greatly expand the diversity of known CopA proteins,and the sequence-based procedure developed overcomes biases in length,screening methods,and abundance of conventional functional metagenomics.
基金supported by the National Natural Science Foundation of China(91731301 and U1902201)the Ministry of Science and Technology of the People’s Republic of China(2020YFC0847000)the Light of West China Program of the Chinese Academy of Sciences.