Regulation of microRNAs(miRNAs)on various biological processes has been a surprising and exciting field.Identification of miRNAs is the first step to comprehensively understand their functions.However,attempts on glob...Regulation of microRNAs(miRNAs)on various biological processes has been a surprising and exciting field.Identification of miRNAs is the first step to comprehensively understand their functions.However,attempts on global identification and functional verification of miRNAs are very limited in penaeid shrimp Marsupenaeus japonicus,an economically important aquatic species.By performing an integrated analysis of transcriptomic profile from gastrula embryos of M.japonicus,21conserved miRNAs in M.japonicas(mja-miRNAs),belonging to 19 miRNA families,were identified and characterized.Of the 21 mja-miRNAs,15 miRNAs were successfully verified to be predominantly expressed in gastrula stage,where they displayed dynamic expression patterns compared with those in naupliuin stage.Based on perfect or near-perfect match to target region,120 target genes were predicted at transcriptome-wide level.Noteworthy,gene ontology(GO)classification and metabolic pathway annotation revealed eight targets that were actively involved in developmental processes.Of the predicted miRNA-mRNA pairs,six targets were then randomly selected and experimentally validated by dual luciferase reporter assay,where three pairs were proved with potential targeting activity.Overall,to search for conserved miRNAs potentially involved in early development of M.japonicus,we combined in silico and experimental methods,which can be applied in other organisms as well.Our data implied important roles of miRNAs in the early embryonic development and also suggested the presence of complex miRNA-mRNA functional networks in M.japonicus.展开更多
Carbon materials have been used as the support for catalysts in the field of acetylene hydrochlorination,the influence of inevitable oxygen-containing moieties on the reaction is often ignored and the mechanism of the...Carbon materials have been used as the support for catalysts in the field of acetylene hydrochlorination,the influence of inevitable oxygen-containing moieties on the reaction is often ignored and the mechanism of the oxygen-doping structure remains ambiguous.Herein,we explored the effect of the oxygen-containing group(C-O-C)in the support on the activity of single-atom dispersed Cu catalysts.By immersing the Cu single-atom catalyst in an alkaline solution,the epoxy species on the carbon support was cleaved to obtain a pure ether species while the Cu site was modified to a more electron-deficient state.The turnover frequency value of Cu/O-FLP catalyst with epoxy groups was 1.6-fold higher than that of alkaline treated catalyst.Our result indicated that the epoxy groups could assist adjacent single-atom Cu sites to synergistically promote the adsorption and cleavage of the reactant hydrogen chloride toward form C-OH and Cu-Cl bonds,and reduce the reaction energy barrier.The presence of electron deficient Cu sites and ether species could induce competitive adsorption of the acetylene and hydrogen chloride,thereby reducing the activity of the catalyst.This study highlights the influence of surface oxygen species and the tunability of the support,providing the foundation for the fabrication of higher-activity Cu catalysts for acetylene hydrochlorination.展开更多
Simultaneously boosting acetylene hydrochlorination activity and avoiding formation of explosive copper acetylide over Cu-based catalyst,which represented a promising alternative to Hg-based and noble metal catalysts,...Simultaneously boosting acetylene hydrochlorination activity and avoiding formation of explosive copper acetylide over Cu-based catalyst,which represented a promising alternative to Hg-based and noble metal catalysts,remained challenging.Herein,we fabricated a frustrated single-atom Cu/O Lewis pair catalyst(Cu/O-FLP)by coupling epoxide group(C-O-C)with atomdispersed Cu-cis-N_(2)C_(2)Cl center to address this challenge.The basic epoxy site modulated the electron-deficient state of Lewisacidic Cu center and paired with the Cu-cis-N_(2)C_(2)Cl moiety to preferentially break HCl into different electronegative Cu-Clδ-and C-O-H^(δ+)intermediates,which further induced both an extra localized electric field to polarize acetylene and a upshift of the dband center of catalyst,thereby promoting adsorption and enrichment of acetylene by enhancing the dipolar interaction between acetylene and active intermediates.Moreover,the generated Cu-Clδ-and C-O-H^(δ+)drastically reduced the energy barrier of ratelimiting step and made vinyl chloride easier to desorb from the Lewis-basic oxygen-atom site rather than traditional Lewis-acidic Cu center.These superiorities ensured a higher activity of Cu/O-FLP compared with its counterparts.Meanwhile,preferential dissociation of HCl endowed single-atom Cu with the coordination-saturated configuration,which impeded formation of explosive copper acetylide by avoiding the direct interaction between Cu and acetylene,ensuring the intrinsic safety during catalysis.展开更多
Due to our negligence,the original version of this article,published online on 12 January 2022,contained a mistake in Fig.4A.The lane ofβ-actin in Western blotting was misused.The correct Fig.4 is given below.We apol...Due to our negligence,the original version of this article,published online on 12 January 2022,contained a mistake in Fig.4A.The lane ofβ-actin in Western blotting was misused.The correct Fig.4 is given below.We apologize for our oversight when preparing the figure and state that this does not change the scientific conclusions of the article in any way.展开更多
Rabbit hemorrhagic disease virus(RHDV)is a member of the Caliciviridae family and cannot be propagated in vitro,which has impeded the progress of investigating its replication mechanism.Construction of an RHDV replico...Rabbit hemorrhagic disease virus(RHDV)is a member of the Caliciviridae family and cannot be propagated in vitro,which has impeded the progress of investigating its replication mechanism.Construction of an RHDV replicon system has recently provided a platform for exploring RHDV replication in host cells.Here,aided by this replicon system and using two-step affinity purification,we purified the RHDV replicase and identified its associated host factors.We identified rabbit nucleolin(NCL)as a physical link,which mediating the interaction between other RNA-dependent RNA polymerase(Rd Rp)-related host proteins and the viral replicase Rd Rp.We found that the overexpression or knockdown of NCL significantly increased or severely impaired RHDV replication in RK-13 cells,respectively.NCL was identified to directly interact with RHDV Rd Rp,p16,and p23.Furthermore,NCL knockdown severely impaired the binding of Rd Rp to Rd Rp-related host factors.Collectively,these results indicate that the host protein NCL is essential for RHDV replication and acts as a physical link between viral replicase and host proteins.展开更多
基金the National Natural Science Foundation of China(No.32273116)the Natural Science Foundation of Shandong Province(China)(No.ZR2020MC189)the National Key R&D Program of China(No.2018YFD0901301)。
文摘Regulation of microRNAs(miRNAs)on various biological processes has been a surprising and exciting field.Identification of miRNAs is the first step to comprehensively understand their functions.However,attempts on global identification and functional verification of miRNAs are very limited in penaeid shrimp Marsupenaeus japonicus,an economically important aquatic species.By performing an integrated analysis of transcriptomic profile from gastrula embryos of M.japonicus,21conserved miRNAs in M.japonicas(mja-miRNAs),belonging to 19 miRNA families,were identified and characterized.Of the 21 mja-miRNAs,15 miRNAs were successfully verified to be predominantly expressed in gastrula stage,where they displayed dynamic expression patterns compared with those in naupliuin stage.Based on perfect or near-perfect match to target region,120 target genes were predicted at transcriptome-wide level.Noteworthy,gene ontology(GO)classification and metabolic pathway annotation revealed eight targets that were actively involved in developmental processes.Of the predicted miRNA-mRNA pairs,six targets were then randomly selected and experimentally validated by dual luciferase reporter assay,where three pairs were proved with potential targeting activity.Overall,to search for conserved miRNAs potentially involved in early development of M.japonicus,we combined in silico and experimental methods,which can be applied in other organisms as well.Our data implied important roles of miRNAs in the early embryonic development and also suggested the presence of complex miRNA-mRNA functional networks in M.japonicus.
基金supported by the National Natural Science Foundation of China(No.22062021)the Science and Technology Project of Xinjiang supported by Central Government(No.2022BC001)+3 种基金Tianshan Talents Training Program of Xinjiang(Science and Technology Innovation Team,No.CZ002701)the Opening Project of Key Laboratory for Green Processing of Chemical Engineering of Xinjiang(No.KF2019010)the Start-Up Foundation for high-level professionals of Shihezi University(No.RCZK201932)research project of Shihezi University(No.CXFZ202205)。
文摘Carbon materials have been used as the support for catalysts in the field of acetylene hydrochlorination,the influence of inevitable oxygen-containing moieties on the reaction is often ignored and the mechanism of the oxygen-doping structure remains ambiguous.Herein,we explored the effect of the oxygen-containing group(C-O-C)in the support on the activity of single-atom dispersed Cu catalysts.By immersing the Cu single-atom catalyst in an alkaline solution,the epoxy species on the carbon support was cleaved to obtain a pure ether species while the Cu site was modified to a more electron-deficient state.The turnover frequency value of Cu/O-FLP catalyst with epoxy groups was 1.6-fold higher than that of alkaline treated catalyst.Our result indicated that the epoxy groups could assist adjacent single-atom Cu sites to synergistically promote the adsorption and cleavage of the reactant hydrogen chloride toward form C-OH and Cu-Cl bonds,and reduce the reaction energy barrier.The presence of electron deficient Cu sites and ether species could induce competitive adsorption of the acetylene and hydrogen chloride,thereby reducing the activity of the catalyst.This study highlights the influence of surface oxygen species and the tunability of the support,providing the foundation for the fabrication of higher-activity Cu catalysts for acetylene hydrochlorination.
基金This work was supported by the National Natural Science Foundation of China(No.22062021)the Science and Technology Project of Xinjiang Bingtuan supported by Central government(No.2022BC001)+2 种基金the Opening Project of Key Laboratory for Green Processing of Chemical Engineering of Xinjiang Bingtuan(No.KF2019010)the Start-Up Foundation for high-level professionals of Shihezi University(No.RCZK201932)the research project of Shihezi University(No.CXFZ202205).
文摘Simultaneously boosting acetylene hydrochlorination activity and avoiding formation of explosive copper acetylide over Cu-based catalyst,which represented a promising alternative to Hg-based and noble metal catalysts,remained challenging.Herein,we fabricated a frustrated single-atom Cu/O Lewis pair catalyst(Cu/O-FLP)by coupling epoxide group(C-O-C)with atomdispersed Cu-cis-N_(2)C_(2)Cl center to address this challenge.The basic epoxy site modulated the electron-deficient state of Lewisacidic Cu center and paired with the Cu-cis-N_(2)C_(2)Cl moiety to preferentially break HCl into different electronegative Cu-Clδ-and C-O-H^(δ+)intermediates,which further induced both an extra localized electric field to polarize acetylene and a upshift of the dband center of catalyst,thereby promoting adsorption and enrichment of acetylene by enhancing the dipolar interaction between acetylene and active intermediates.Moreover,the generated Cu-Clδ-and C-O-H^(δ+)drastically reduced the energy barrier of ratelimiting step and made vinyl chloride easier to desorb from the Lewis-basic oxygen-atom site rather than traditional Lewis-acidic Cu center.These superiorities ensured a higher activity of Cu/O-FLP compared with its counterparts.Meanwhile,preferential dissociation of HCl endowed single-atom Cu with the coordination-saturated configuration,which impeded formation of explosive copper acetylide by avoiding the direct interaction between Cu and acetylene,ensuring the intrinsic safety during catalysis.
文摘Due to our negligence,the original version of this article,published online on 12 January 2022,contained a mistake in Fig.4A.The lane ofβ-actin in Western blotting was misused.The correct Fig.4 is given below.We apologize for our oversight when preparing the figure and state that this does not change the scientific conclusions of the article in any way.
基金supported by the National Natural Science Foundation of China(51801017)the Key Discipline and Major Project of Dalian Science and Technology Innovation Foundation(2020JJ25CY004)+3 种基金the Subject Development Foundation of Key Laboratory of Surface Physics and Chemistry(XKFZ201706)the State Key Lab of Advanced Metals and Materials(2018-Z03)the Scientific Challenge Program for National Defense Basic Scientific Research(TZ2016004)supported by the US National Science Foundation under Contract DMR-0905979。
基金sponsored by Shanghai Sailing Program(20YF1457700)the National Natural Science Foundation of China(32000109 and 31672572)the China Postdoctoral Science Foundation(2019M660885 and 2021T140718)
文摘Rabbit hemorrhagic disease virus(RHDV)is a member of the Caliciviridae family and cannot be propagated in vitro,which has impeded the progress of investigating its replication mechanism.Construction of an RHDV replicon system has recently provided a platform for exploring RHDV replication in host cells.Here,aided by this replicon system and using two-step affinity purification,we purified the RHDV replicase and identified its associated host factors.We identified rabbit nucleolin(NCL)as a physical link,which mediating the interaction between other RNA-dependent RNA polymerase(Rd Rp)-related host proteins and the viral replicase Rd Rp.We found that the overexpression or knockdown of NCL significantly increased or severely impaired RHDV replication in RK-13 cells,respectively.NCL was identified to directly interact with RHDV Rd Rp,p16,and p23.Furthermore,NCL knockdown severely impaired the binding of Rd Rp to Rd Rp-related host factors.Collectively,these results indicate that the host protein NCL is essential for RHDV replication and acts as a physical link between viral replicase and host proteins.