为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(...为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(scanning electron microscope,SEM)等表征手段对激光熔化沉积制备Al-12Si合金显微组织进行表征。结果表明:在激光功率700~800 W、激光扫描速度为300~360 mm/min的工艺参数下能够获得高度致密的Al-12Si合金。激光熔化沉积Al-12Si合金成形工艺的研究旨在克服传统制造方式的局限性,通过科学的方法优化工艺参数并改善成形质量,最终获得高质量且性能优异的Al-12Si合金部件。展开更多
Base editors of the Cas9 system have been widely used for precise nucleotide substitution in crops. In this study, Cas12a was applied to construct plant cytosine base editors(CBEs). The main elements of Cas12aCBEs wer...Base editors of the Cas9 system have been widely used for precise nucleotide substitution in crops. In this study, Cas12a was applied to construct plant cytosine base editors(CBEs). The main elements of Cas12aCBEs were engineered and their efficiency was evaluated in stably transformed rice cells. An optimized ttCas12a-hyA3Bctd editor, consisting of a LbCas12a variant carrying catalytic inactive D832A and temperature-tolerance D156R double mutations, a truncated human APOBEC3B deaminase, a human RAD51 single-stranded DNA-binding domain, and double copies of UGI, outperformed other Cas12aCBEs in base editing efficiency. In T0transgenic rice plants, ttCas12a-hyA3Bctd edited an average of42.01% and a maximum of 68.75% of lines at six genomic targets. A-to-G conversions were generated in rice by an adenine base editor with a similar architecture to the optimized CBE. Our results provide preliminary evidence for the feasibility of robust and efficient plant Cas12a base editing systems, which could be useful for precise crop breeding.展开更多
A novel thermal-protective coating has been successfully prepared by CPED process on a cast Al-12%Si alloy with the addition of ZrO2 nano-particles in the electrolyte. The microstructures and phase composition of the ...A novel thermal-protective coating has been successfully prepared by CPED process on a cast Al-12%Si alloy with the addition of ZrO2 nano-particles in the electrolyte. The microstructures and phase composition of the coatings were analyzed by SEM and XRD, and the heat insulation performance and the thermal shock resistance of the coatings were investigated. With ZrO2 nanoparticles addition, the cathode plasma discharge on the coating surface is more obvious than that without ZrO2 nanoparticles addition, the coating is more uniform and compact, and the thickness of the coating increases. Furthermore, the content of Zr and Y elements increases and the degree of crystallization of the coating is more complete. The formation of the solid solution of yttrium stabilized zirconia is promoted by cathode plasma discharge. In addition, the thermal insulation temperature increases as ZrO2 nano-particles are added to the electrolyte. After 1 000 cycles of thermal shock, there was no cracking in the coating surface layer, which indicated that the CPED coating with ZrO2 nanoparticles addition possessed a good thermal shock resistance.展开更多
Xanthomonas oryzae pv.oryzae(Xoo)is a widespread pathogen causing bacterial leaf blight(BLB)disease,devastating rice productivity in many cultivated areas of Thailand.A specific and simple method for Xoo detection is ...Xanthomonas oryzae pv.oryzae(Xoo)is a widespread pathogen causing bacterial leaf blight(BLB)disease,devastating rice productivity in many cultivated areas of Thailand.A specific and simple method for Xoo detection is required to improve surveillance of disease transmission and outbreak.This study developed a recombinase polymerase amplification(RPA)assay assisted with CRISPR-cas12a assay(RAC)for Xoo detection from bacterial cell suspension of infected rice samples without DNA extraction.The efficiency of the RAC system for Xoo detection using either Xoo80 or Xoo4009 locus was optimized to amplify and determine the sensitivity and specificity using a Xoo DNA template from bacterial cell suspension of infected rice samples without DNA extraction.The RAC system using the Xoo4009 locus gave a higher specificity than Xoo80 locus,because only Xoo species was amplified positive RPA product with fluorescence signal by cas12a digestion,which indicated no cross reactivity.Optimal RAC using the Xoo4009 locus enabled diagnosis of Xoo presence from both plant extracted samples of Xoo artificially inoculated rice leaves within 3 d post-inoculation without symptomatic BLB appearance,and Xoo naturally infected rice.Findings exhibited that RAC using the Xoo4009 locus offered sensitivity,specificity and simplicity for Xoo detection,with low intensities of Xoo-DNA(1×10^(3) copies/μL)and Xoo-cell(2.5×10^(3) cfu/mL).This developed RAC system showed significantly potential for Xoo detection at point-of-care application for early signs of BLB disease outbreak in rice fields.展开更多
The emerging pests and phytopathogens have reduced the crop yield and quality, which hasthreatened the global food security. Traditional breeding methods, molecular marker-based breedingapproaches and use of genetical...The emerging pests and phytopathogens have reduced the crop yield and quality, which hasthreatened the global food security. Traditional breeding methods, molecular marker-based breedingapproaches and use of genetically modified crops have played a crucial role in strengthening the foodsecurity worldwide. However, their usages in crop improvement have been highly limited due to multiplecaveats. Genome editing tools like transcriptional activator-like effector nucleases and clustered regularlyinterspaced short palindromic repeats (CRISPR)-associated endonuclease Cas9 (CRISPR/Cas9) haveeffectively overcome limitations of the conventional breeding methods and are being widely accepted forimprovement of crops. Among the genome editing tools, the CRISPR/Cas9 system has emerged as themost powerful tool of genome editing because of its efficiency, amicability, flexibility, low cost andadaptability. Accumulated evidences indicate that genome editing has great potential in improving thedisease resistance in crop plants. In this review, we offered a brief introduction to the mechanisms of differentgenome editing systems and then discussed recent developments in CRISPR/Cas9 system-based genomeediting towards enhancement of rice disease resistance by different strategies. This review also discussed thepossible applications of recently developed genome editing approaches like CRISPR/Cas12a (formerlyknown as Cpf1) and base editors for enhancement of rice disease resistance.展开更多
Influence of microstructure on electrochemical behavior of nanocrystalline Fe88Si12 alloy has been investigated in 3.5 wt% NaCl solution. The results show that FFe88Si12 alloy with optimal corrosion resistance is comp...Influence of microstructure on electrochemical behavior of nanocrystalline Fe88Si12 alloy has been investigated in 3.5 wt% NaCl solution. The results show that FFe88Si12 alloy with optimal corrosion resistance is composite of ordered Fe3Si and disordered Fe(Si) phases and grain size of 40 nm. Because the ordered Fe3Si structure is beneficial to form SiO2 film, which possesses good corrosion resistance compared with the Fe2O3 film from disordered Fe(Si). Moreover, although the decreased grain size is conducive to form preservative, as the grain size decreases to 10 nm, the grain boundary increases to above 30 vol%, which is the active sites for corrosion attack.展开更多
The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in...The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in the modified alloy with 0.3% Nd. The morphology of the α(Al) phase is significantly refined in the Nd-modified alloys. The primary Si morphology simultaneously changes into a fine, particle-like morphology, and the morphology of eutectic Si becomes fine-fibrous instead of coarse-acicular. Relatively few growth twins are observed on the surface of the Si plate in the Al-12Si-0.3Nd alloy at the optimal modification level. The mechanical property test results confirm that the mechanical properties of the as-cast Al-12 Si alloys are enhanced after the Nd addition, with optimal ultimate tensile strength(UTS) of 252 MPa and elongation(EL) of 13% at an Nd content of 0.3%. The improved mechanical properties are attributed to the refined morphology of Si phase and the formation of the Al2 Nd phase.展开更多
文摘为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(scanning electron microscope,SEM)等表征手段对激光熔化沉积制备Al-12Si合金显微组织进行表征。结果表明:在激光功率700~800 W、激光扫描速度为300~360 mm/min的工艺参数下能够获得高度致密的Al-12Si合金。激光熔化沉积Al-12Si合金成形工艺的研究旨在克服传统制造方式的局限性,通过科学的方法优化工艺参数并改善成形质量,最终获得高质量且性能优异的Al-12Si合金部件。
基金funded by the National Natural Science Foundation of China (U19A2022 and 32000284)the Natural Science Foundation of Anhui Province (2208085Y11, 2108085Y07,2008085QC101, and 2008085MC71)+2 种基金the University Synergy Innovation Program of Anhui Province (GXXT-2021-056)Open Research Fund Program of Anhui Province Key Laboratory of Rice Genetics and Breeding (SDKF-2021-01 and SDKF-2022-04)Natural Science Research Project for Anhui Universities(KJ2021A0196)。
文摘Base editors of the Cas9 system have been widely used for precise nucleotide substitution in crops. In this study, Cas12a was applied to construct plant cytosine base editors(CBEs). The main elements of Cas12aCBEs were engineered and their efficiency was evaluated in stably transformed rice cells. An optimized ttCas12a-hyA3Bctd editor, consisting of a LbCas12a variant carrying catalytic inactive D832A and temperature-tolerance D156R double mutations, a truncated human APOBEC3B deaminase, a human RAD51 single-stranded DNA-binding domain, and double copies of UGI, outperformed other Cas12aCBEs in base editing efficiency. In T0transgenic rice plants, ttCas12a-hyA3Bctd edited an average of42.01% and a maximum of 68.75% of lines at six genomic targets. A-to-G conversions were generated in rice by an adenine base editor with a similar architecture to the optimized CBE. Our results provide preliminary evidence for the feasibility of robust and efficient plant Cas12a base editing systems, which could be useful for precise crop breeding.
基金Funded by the Youth Innovation Team of Shaanxi Universities,Shaanxi Key Research and Development Program(No.2018GY-111)Shaanxi Provincial Department of Education Industrialization Cultivation Project(No.17JF009)Yulin Science and Technology Project(Nos.2016-16-4 and 2018-2-30)
文摘A novel thermal-protective coating has been successfully prepared by CPED process on a cast Al-12%Si alloy with the addition of ZrO2 nano-particles in the electrolyte. The microstructures and phase composition of the coatings were analyzed by SEM and XRD, and the heat insulation performance and the thermal shock resistance of the coatings were investigated. With ZrO2 nanoparticles addition, the cathode plasma discharge on the coating surface is more obvious than that without ZrO2 nanoparticles addition, the coating is more uniform and compact, and the thickness of the coating increases. Furthermore, the content of Zr and Y elements increases and the degree of crystallization of the coating is more complete. The formation of the solid solution of yttrium stabilized zirconia is promoted by cathode plasma discharge. In addition, the thermal insulation temperature increases as ZrO2 nano-particles are added to the electrolyte. After 1 000 cycles of thermal shock, there was no cracking in the coating surface layer, which indicated that the CPED coating with ZrO2 nanoparticles addition possessed a good thermal shock resistance.
基金the Agricultural Research Development Agency(Public Organization),Thailand(Project No.PRP6205031190).
文摘Xanthomonas oryzae pv.oryzae(Xoo)is a widespread pathogen causing bacterial leaf blight(BLB)disease,devastating rice productivity in many cultivated areas of Thailand.A specific and simple method for Xoo detection is required to improve surveillance of disease transmission and outbreak.This study developed a recombinase polymerase amplification(RPA)assay assisted with CRISPR-cas12a assay(RAC)for Xoo detection from bacterial cell suspension of infected rice samples without DNA extraction.The efficiency of the RAC system for Xoo detection using either Xoo80 or Xoo4009 locus was optimized to amplify and determine the sensitivity and specificity using a Xoo DNA template from bacterial cell suspension of infected rice samples without DNA extraction.The RAC system using the Xoo4009 locus gave a higher specificity than Xoo80 locus,because only Xoo species was amplified positive RPA product with fluorescence signal by cas12a digestion,which indicated no cross reactivity.Optimal RAC using the Xoo4009 locus enabled diagnosis of Xoo presence from both plant extracted samples of Xoo artificially inoculated rice leaves within 3 d post-inoculation without symptomatic BLB appearance,and Xoo naturally infected rice.Findings exhibited that RAC using the Xoo4009 locus offered sensitivity,specificity and simplicity for Xoo detection,with low intensities of Xoo-DNA(1×10^(3) copies/μL)and Xoo-cell(2.5×10^(3) cfu/mL).This developed RAC system showed significantly potential for Xoo detection at point-of-care application for early signs of BLB disease outbreak in rice fields.
基金the China Priority Program-Breeding of Seven Major Crops(Grant No.2017YFD01100100)the Innovation Program of Chinese Academy of Agricultural Sciences(Grant No.01-ICS)the Talented Young Scientist Program of China(Grant No.India-17-01).
文摘The emerging pests and phytopathogens have reduced the crop yield and quality, which hasthreatened the global food security. Traditional breeding methods, molecular marker-based breedingapproaches and use of genetically modified crops have played a crucial role in strengthening the foodsecurity worldwide. However, their usages in crop improvement have been highly limited due to multiplecaveats. Genome editing tools like transcriptional activator-like effector nucleases and clustered regularlyinterspaced short palindromic repeats (CRISPR)-associated endonuclease Cas9 (CRISPR/Cas9) haveeffectively overcome limitations of the conventional breeding methods and are being widely accepted forimprovement of crops. Among the genome editing tools, the CRISPR/Cas9 system has emerged as themost powerful tool of genome editing because of its efficiency, amicability, flexibility, low cost andadaptability. Accumulated evidences indicate that genome editing has great potential in improving thedisease resistance in crop plants. In this review, we offered a brief introduction to the mechanisms of differentgenome editing systems and then discussed recent developments in CRISPR/Cas9 system-based genomeediting towards enhancement of rice disease resistance by different strategies. This review also discussed thepossible applications of recently developed genome editing approaches like CRISPR/Cas12a (formerlyknown as Cpf1) and base editors for enhancement of rice disease resistance.
文摘Influence of microstructure on electrochemical behavior of nanocrystalline Fe88Si12 alloy has been investigated in 3.5 wt% NaCl solution. The results show that FFe88Si12 alloy with optimal corrosion resistance is composite of ordered Fe3Si and disordered Fe(Si) phases and grain size of 40 nm. Because the ordered Fe3Si structure is beneficial to form SiO2 film, which possesses good corrosion resistance compared with the Fe2O3 film from disordered Fe(Si). Moreover, although the decreased grain size is conducive to form preservative, as the grain size decreases to 10 nm, the grain boundary increases to above 30 vol%, which is the active sites for corrosion attack.
基金Projects(5140521651165032)supported by the National Natural Science Foundation of China+3 种基金Project(20151BAB216018)supported by the Natural Science Foundation of Jiangxi ProvinceChinaProject(GJJ14200)supported by the Education Commission Foundation of Jiangxi ProvinceChina
文摘The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in the modified alloy with 0.3% Nd. The morphology of the α(Al) phase is significantly refined in the Nd-modified alloys. The primary Si morphology simultaneously changes into a fine, particle-like morphology, and the morphology of eutectic Si becomes fine-fibrous instead of coarse-acicular. Relatively few growth twins are observed on the surface of the Si plate in the Al-12Si-0.3Nd alloy at the optimal modification level. The mechanical property test results confirm that the mechanical properties of the as-cast Al-12 Si alloys are enhanced after the Nd addition, with optimal ultimate tensile strength(UTS) of 252 MPa and elongation(EL) of 13% at an Nd content of 0.3%. The improved mechanical properties are attributed to the refined morphology of Si phase and the formation of the Al2 Nd phase.
