Intestinal flora of 47 Apriona germari(Hope) larvae,collected from fields,had been isolated and identified.The results showed that the predominant bacteria were Staphylococcus.Its viable count was 7.63±0.21,and t...Intestinal flora of 47 Apriona germari(Hope) larvae,collected from fields,had been isolated and identified.The results showed that the predominant bacteria were Staphylococcus.Its viable count was 7.63±0.21,and the detection rate was 100%.Meanwhile,a strain of cellulose-utilizing bacterium was isolated from the fore-midgut fluid of A.germari larvae with the cellulose-congo red agar medium.The bacterium was tentatively identified as Cellulomonas.The detection rate of the cellulolytic bacterium was 23.40%,and the count was 3.84±0.54 approximately.Its contribution to the borer′s cellulose digestion needs further investigations.展开更多
【目的】低分子量(12~43 k Da)热激蛋白(s HSPs)具有抗逆应答的功能,滞育是昆虫抵抗不良环境的特殊发育形式,但s HSPs在昆虫滞育发育过程中的作用仍不清楚。本研究克隆和特征化葱蝇Delia antiqua s HSP基因,并研究它在夏滞育和冬滞...【目的】低分子量(12~43 k Da)热激蛋白(s HSPs)具有抗逆应答的功能,滞育是昆虫抵抗不良环境的特殊发育形式,但s HSPs在昆虫滞育发育过程中的作用仍不清楚。本研究克隆和特征化葱蝇Delia antiqua s HSP基因,并研究它在夏滞育和冬滞育发育过程中的表达模式,为阐明s HSPs在滞育发育上的功能奠定基础。【方法】通过RACE-PCR方法克隆了葱蝇HSP23基因,通过相似性比较分析了其特征、结构域及与双翅目代表性同源基因的系统发育关系;采用实时荧光定量PCR研究了该基因在葱蝇冬滞育蛹和夏滞育蛹发育过程中的表达情况,通过表达的差异比较揭示了该基因与滞育发育的关系。【结果】克隆出了葱蝇HSP23基因,命名为Da HSP23(Gen Bank登录号:HQ392521.1),其c DNA全长序列为904 bp,编码186个氨基酸,推测蛋白分子量为20.9 k Da,等电点为6.42。该基因的编码蛋白与其他双翅目昆虫的s HSPs有超过66%的氨基酸序列一致性,与已报道的其他双翅目昆虫的滞育相关HSP23基因同源。基因组测序显示该基因无内含子。Da HSP23基因在葱蝇非滞育蛹的发育过程中一直保持在较低的水平,各发育阶段间的表达量不存在显著差异。但在冬滞育和夏滞育蛹中,该基因从滞育起始期开始逐渐显著升高表达,到滞育维持期的中后期达到峰值,在滞育终止期逐渐降到较低的水平。【结论】Da HSP23基因在葱蝇冬滞育和夏滞育发育过程中明显上调表达,但存在差异,它在滞育期的调控可能是种专化的。Da HSP23可能在葱蝇两种类型的滞育上起重要作用。展开更多
文摘Intestinal flora of 47 Apriona germari(Hope) larvae,collected from fields,had been isolated and identified.The results showed that the predominant bacteria were Staphylococcus.Its viable count was 7.63±0.21,and the detection rate was 100%.Meanwhile,a strain of cellulose-utilizing bacterium was isolated from the fore-midgut fluid of A.germari larvae with the cellulose-congo red agar medium.The bacterium was tentatively identified as Cellulomonas.The detection rate of the cellulolytic bacterium was 23.40%,and the count was 3.84±0.54 approximately.Its contribution to the borer′s cellulose digestion needs further investigations.
文摘【目的】低分子量(12~43 k Da)热激蛋白(s HSPs)具有抗逆应答的功能,滞育是昆虫抵抗不良环境的特殊发育形式,但s HSPs在昆虫滞育发育过程中的作用仍不清楚。本研究克隆和特征化葱蝇Delia antiqua s HSP基因,并研究它在夏滞育和冬滞育发育过程中的表达模式,为阐明s HSPs在滞育发育上的功能奠定基础。【方法】通过RACE-PCR方法克隆了葱蝇HSP23基因,通过相似性比较分析了其特征、结构域及与双翅目代表性同源基因的系统发育关系;采用实时荧光定量PCR研究了该基因在葱蝇冬滞育蛹和夏滞育蛹发育过程中的表达情况,通过表达的差异比较揭示了该基因与滞育发育的关系。【结果】克隆出了葱蝇HSP23基因,命名为Da HSP23(Gen Bank登录号:HQ392521.1),其c DNA全长序列为904 bp,编码186个氨基酸,推测蛋白分子量为20.9 k Da,等电点为6.42。该基因的编码蛋白与其他双翅目昆虫的s HSPs有超过66%的氨基酸序列一致性,与已报道的其他双翅目昆虫的滞育相关HSP23基因同源。基因组测序显示该基因无内含子。Da HSP23基因在葱蝇非滞育蛹的发育过程中一直保持在较低的水平,各发育阶段间的表达量不存在显著差异。但在冬滞育和夏滞育蛹中,该基因从滞育起始期开始逐渐显著升高表达,到滞育维持期的中后期达到峰值,在滞育终止期逐渐降到较低的水平。【结论】Da HSP23基因在葱蝇冬滞育和夏滞育发育过程中明显上调表达,但存在差异,它在滞育期的调控可能是种专化的。Da HSP23可能在葱蝇两种类型的滞育上起重要作用。