NPR1 is a key regulator of systemic acquired resistance(SAR)in plant species.In our previous study,we identified a conserved fungal effector PNPi from Puccinia striiformis f.sp.tritici(Pst)that can suppress acquired r...NPR1 is a key regulator of systemic acquired resistance(SAR)in plant species.In our previous study,we identified a conserved fungal effector PNPi from Puccinia striiformis f.sp.tritici(Pst)that can suppress acquired resistance in local leaf by directly targeting the wheat NPR1 protein.In this investigation,we identified and validated a novel protein interaction between PNPi and wheat pathogenesis-related TaPR1a in the apoplastic space.TaPR1a-overexpressing wheat lines exhibited enhanced resistance to both Pst and Puccinia triticina(Pt).We further determined that exogenous expression of PNPi RNA in transgenic wheat lines reduced the degree of acquired resistance to Magnaporthe oryzae isolate P131 in the region adjacent to Pseudomonas syringae pv.tomato DC3000 infection area.Additionally,when PNPi was overexpressed,the expression levels of two plant defense responsive genes were suppressed upon P.syringae DC3000 infection in the local infiltration region.These findings established the mechanism of a single rust effector that can suppress multiple defense responses in wheat plants by targeting different components.展开更多
In this study,Bacillus mojavensis and Lactiplantibacillus herbarum were used to co-treat kitchen waste(KW)with Black soldier fly larvae(BSFL).The effects on the physicochemical properties,heavy metal content,and micro...In this study,Bacillus mojavensis and Lactiplantibacillus herbarum were used to co-treat kitchen waste(KW)with Black soldier fly larvae(BSFL).The effects on the physicochemical properties,heavy metal content,and microbial community of the BSFL sand were determined.Compared to the control group,the L.herbarum inoculation reduced 19.04%of the soluble salt(TSS),15.48%of Ni,and 13.04%of Zn in the residues;the B.mojavensis inoculation reduced 23.84%of TSS,13.61%of Pb,and 20.32%of the Ni in the residues;the L.herbarum and B.mojavensis inoculation reduced 29.53%of Cr,20.23%of Pb,18.06%of Ni,and 25.68%of the Zn in the residues.The microbial inoculants significantly enhanced the BSFL sand microbial diversity(Tukey,P<0.05).The dominant phylum and genus in the BSFL sand were Firmicutes(53.08%)and Corynebacterium(47.01%),respectively.The microbial inoculants resulted in an approximate 12%reduction in Corynebacterium.The linear discriminant analysis effective size analysis showed that the Corynebacterium abundance was significantly reduced.The microbial inoculants significantly affected the Corynebacterium relative abundance by significantly altering the substrate TSS,moisture content,and Ni.In conclusion,the effect of B.mojavensis and L.herbarum on the BSFL treatment of KW was beneficial,and their potential should be further exploited.展开更多
Arabinogalactan proteins(AGPs)are widely distributed in plant cells.Fasciclin-like AGPs(FLAs)belong to a subclass of AGPs that play important roles in plant growth and development.However,little is known about the bio...Arabinogalactan proteins(AGPs)are widely distributed in plant cells.Fasciclin-like AGPs(FLAs)belong to a subclass of AGPs that play important roles in plant growth and development.However,little is known about the biological functions of rice FLA.Herein,we report the identification of a male-sterile mutant of DEFECTIVE EXINE AND APERTURE PATTERNING1(DEAP1)in rice.The deap1 mutant anthers produced aberrant pollen grains with defective exine formation and a flattened aperture annulus and exhibited slightly delayed tapetum degradation.DEAP1 encodes a plasma membrane-associated member of groupⅢplant FLAs and is specifically and temporally expressed in reproductive cells and the tapetum layer during male development.Gene expression studies revealed reduced transcript accumulation of genes related to exine formation,aperture patterning,and tapetum development in deap1 mutants.Moreover,DEAP1 may interact with two rice D6 PROTEIN KINASE-LIKE3 s(OsD6PKL3s),homologs of a known Arabidopsis aperture protein,to affect rice pollen aperture development.Our findings suggested that DEAP1 is involved in male reproductive development and may affect exine formation and aperture patterning,thereby providing new insights into the molecular functions of plant FLAs in male fertility.展开更多
基金supported by National Natural Science Foundation of China(31701776)Modern Agricultural Industry Technology System(CARS-03)+4 种基金Provincial Natural Science Foundation of Hebei for Excellent Young Scholar(C2018204091)Technology Innovation Team of Shaanxi Province(2018TD-004)Open Project Program of State Key Laboratory of Crop Stress Biology for Arid Areas(CSBAAKF2018009)Provincial Supporting Program of Hebei for the Returned Oversea Scholars(C20190180)Modern Agricultural Industry System Wheat Innovation Team in Hebei Province(HBCT2018010204).
文摘NPR1 is a key regulator of systemic acquired resistance(SAR)in plant species.In our previous study,we identified a conserved fungal effector PNPi from Puccinia striiformis f.sp.tritici(Pst)that can suppress acquired resistance in local leaf by directly targeting the wheat NPR1 protein.In this investigation,we identified and validated a novel protein interaction between PNPi and wheat pathogenesis-related TaPR1a in the apoplastic space.TaPR1a-overexpressing wheat lines exhibited enhanced resistance to both Pst and Puccinia triticina(Pt).We further determined that exogenous expression of PNPi RNA in transgenic wheat lines reduced the degree of acquired resistance to Magnaporthe oryzae isolate P131 in the region adjacent to Pseudomonas syringae pv.tomato DC3000 infection area.Additionally,when PNPi was overexpressed,the expression levels of two plant defense responsive genes were suppressed upon P.syringae DC3000 infection in the local infiltration region.These findings established the mechanism of a single rust effector that can suppress multiple defense responses in wheat plants by targeting different components.
文摘In this study,Bacillus mojavensis and Lactiplantibacillus herbarum were used to co-treat kitchen waste(KW)with Black soldier fly larvae(BSFL).The effects on the physicochemical properties,heavy metal content,and microbial community of the BSFL sand were determined.Compared to the control group,the L.herbarum inoculation reduced 19.04%of the soluble salt(TSS),15.48%of Ni,and 13.04%of Zn in the residues;the B.mojavensis inoculation reduced 23.84%of TSS,13.61%of Pb,and 20.32%of the Ni in the residues;the L.herbarum and B.mojavensis inoculation reduced 29.53%of Cr,20.23%of Pb,18.06%of Ni,and 25.68%of the Zn in the residues.The microbial inoculants significantly enhanced the BSFL sand microbial diversity(Tukey,P<0.05).The dominant phylum and genus in the BSFL sand were Firmicutes(53.08%)and Corynebacterium(47.01%),respectively.The microbial inoculants resulted in an approximate 12%reduction in Corynebacterium.The linear discriminant analysis effective size analysis showed that the Corynebacterium abundance was significantly reduced.The microbial inoculants significantly affected the Corynebacterium relative abundance by significantly altering the substrate TSS,moisture content,and Ni.In conclusion,the effect of B.mojavensis and L.herbarum on the BSFL treatment of KW was beneficial,and their potential should be further exploited.
基金supported by funds from the National Natural Science Foundation of China(31901482,31971863,31971867 and 32171966)the Open Research Fund of the State Key Laboratory of Hybrid Rice(Hunan Hybrid Rice Research Centre,2016KF10)the Sichuan Province Science and Technology Support Program(2021YFYZ0016,2021YFYZ0027,2020YJ0139)。
文摘Arabinogalactan proteins(AGPs)are widely distributed in plant cells.Fasciclin-like AGPs(FLAs)belong to a subclass of AGPs that play important roles in plant growth and development.However,little is known about the biological functions of rice FLA.Herein,we report the identification of a male-sterile mutant of DEFECTIVE EXINE AND APERTURE PATTERNING1(DEAP1)in rice.The deap1 mutant anthers produced aberrant pollen grains with defective exine formation and a flattened aperture annulus and exhibited slightly delayed tapetum degradation.DEAP1 encodes a plasma membrane-associated member of groupⅢplant FLAs and is specifically and temporally expressed in reproductive cells and the tapetum layer during male development.Gene expression studies revealed reduced transcript accumulation of genes related to exine formation,aperture patterning,and tapetum development in deap1 mutants.Moreover,DEAP1 may interact with two rice D6 PROTEIN KINASE-LIKE3 s(OsD6PKL3s),homologs of a known Arabidopsis aperture protein,to affect rice pollen aperture development.Our findings suggested that DEAP1 is involved in male reproductive development and may affect exine formation and aperture patterning,thereby providing new insights into the molecular functions of plant FLAs in male fertility.
