Decapod Iridescent Virus 1(DIV1)is a recently discovered virus recognized for its high infectivity in Macrobrachium rosenbergii.A thermal treatment was performed on DIV1-infected M.rosenbergii,and the therapeutic effi...Decapod Iridescent Virus 1(DIV1)is a recently discovered virus recognized for its high infectivity in Macrobrachium rosenbergii.A thermal treatment was performed on DIV1-infected M.rosenbergii,and the therapeutic efficacy was evaluated.In the DIV1 challenge experiment,the mortality rate in the challenged group was found to be 2.6 times greater than that in the control group,with the viral load in deceased individuals exceeding 5.41×10^(7)copies/μg-DNA.The thermal treatment(TT)was administered at 36℃for a duration of 16 d,followed by a temperature restoration(TR)period at 26℃for 3 d.On the first day at 36℃,an average viral concentration of 5.34×10 copies/μg-DNA was detected in the survived individuals.RNA-seq analysis showed a significant upregulation of genes related to the lysosome pathway,including sialin-like isoform x2(slc17a5),beta-galactosidase-1-like protein 2(glb1),putative glucosylceramidase 3(gba),sphingomyelin phosphodiesterase-like isoform x2(smpd1),betahexosaminidase subunit alpha-like(hexa_b)and legumain-like protein(lgmn),following a transient suppression period induced by thermal stress.Upon reaching 36℃,the activation of heat shock protein 70(hsp70)and heat shock protein 90(hsp90a)was observed.Concomitantly,genes that implicated in energy production critical for DIV1 replication,such as hexokinase(hk)and microsomal glutathione stransferase 3-like isoform x2(gst),were inhibited.These results collectively suggest that TT/TR treatments eliminated DIV1 in M.rosenbergii by activating the organism’s innate immune response and suppressing virus replication.This study provides a theoretical basis for utilizing thermal therapy in the management of viral infections in M.rosenbergii breeding programs,thereby facilitating the development of new strains resistant to DIV1.展开更多
The giant freshwater prawn Macrobrachium rosenbergii distributed from tropical to subtropical regions,is a warm-water species,and its survival temperature is 14-35°C,which greatly limits its culture cycle and cul...The giant freshwater prawn Macrobrachium rosenbergii distributed from tropical to subtropical regions,is a warm-water species,and its survival temperature is 14-35°C,which greatly limits its culture cycle and culture area in China.Therefore,it is urgent to cultivate a new high quality,high yield variety with improved cold-resistance,but the genetic parameters for cold-resistance traits are unknown in M.rosenbergii.In this study,the cold-resistance of adult M.rosenbergii populations was tested using the indoor artificial cooling method.Individuals were selected from 139 families of Shufeng G3 generation and cultured for 200 days.A linear mixed model was constructed by ASReml-R to evaluate the genetic parameters of the cold-resistance trait(cooling degree hours,CDH)and growth traits(body weight,BW,and body length,BL)based on the restricted maximum likelihood(REML)method.The results show that the heritability of CDH was low(0.12±0.05),while the growth traits(BW and BL)had low to moderate heritability,with 0.20±0.06 for BW and 0.06±0.04 for BL.The phenotypic and genetic correlation between BW and BL was significantly positive,but significantly negative phenotypic and genetic correlations were detected between CDH and BW and between CDH and BL.Furthermore,the analysis of the differences between cold-resistance and phenotypic traits showed that the female reproductive status,exoskeleton hardness and claw number of adult prawns had a great influence on the cold-resistance of M.rosenbergii(P<0.05),indicating that adults with claws and hard exoskeletons are preferred as parents in subsequent breeding selection.The present results can be attributed to the selection and breeding of a new cold-resistant variety of M.rosenbergii.展开更多
基金Supported by the earmarked fund for CARS(No.CARS-48)the National Natural Science Foundation of China(No.32202964)。
文摘Decapod Iridescent Virus 1(DIV1)is a recently discovered virus recognized for its high infectivity in Macrobrachium rosenbergii.A thermal treatment was performed on DIV1-infected M.rosenbergii,and the therapeutic efficacy was evaluated.In the DIV1 challenge experiment,the mortality rate in the challenged group was found to be 2.6 times greater than that in the control group,with the viral load in deceased individuals exceeding 5.41×10^(7)copies/μg-DNA.The thermal treatment(TT)was administered at 36℃for a duration of 16 d,followed by a temperature restoration(TR)period at 26℃for 3 d.On the first day at 36℃,an average viral concentration of 5.34×10 copies/μg-DNA was detected in the survived individuals.RNA-seq analysis showed a significant upregulation of genes related to the lysosome pathway,including sialin-like isoform x2(slc17a5),beta-galactosidase-1-like protein 2(glb1),putative glucosylceramidase 3(gba),sphingomyelin phosphodiesterase-like isoform x2(smpd1),betahexosaminidase subunit alpha-like(hexa_b)and legumain-like protein(lgmn),following a transient suppression period induced by thermal stress.Upon reaching 36℃,the activation of heat shock protein 70(hsp70)and heat shock protein 90(hsp90a)was observed.Concomitantly,genes that implicated in energy production critical for DIV1 replication,such as hexokinase(hk)and microsomal glutathione stransferase 3-like isoform x2(gst),were inhibited.These results collectively suggest that TT/TR treatments eliminated DIV1 in M.rosenbergii by activating the organism’s innate immune response and suppressing virus replication.This study provides a theoretical basis for utilizing thermal therapy in the management of viral infections in M.rosenbergii breeding programs,thereby facilitating the development of new strains resistant to DIV1.
基金Supported by the Key Scientific and Technological Grant of Zhejiang for Breeding New Agricultural(Aquaculture)Varieties(No.2021C02069-4-3)the Major Research&Development Program(Modern Agriculture)of Jiangsu Province(No.BE2019352)+1 种基金the Earmarked Fund for the China Agriculture Research System(No.CARS-48)the Innovation Project of Postgraduate Scientific Research in Huzhou University in 2022(No.2022KYCX63)。
文摘The giant freshwater prawn Macrobrachium rosenbergii distributed from tropical to subtropical regions,is a warm-water species,and its survival temperature is 14-35°C,which greatly limits its culture cycle and culture area in China.Therefore,it is urgent to cultivate a new high quality,high yield variety with improved cold-resistance,but the genetic parameters for cold-resistance traits are unknown in M.rosenbergii.In this study,the cold-resistance of adult M.rosenbergii populations was tested using the indoor artificial cooling method.Individuals were selected from 139 families of Shufeng G3 generation and cultured for 200 days.A linear mixed model was constructed by ASReml-R to evaluate the genetic parameters of the cold-resistance trait(cooling degree hours,CDH)and growth traits(body weight,BW,and body length,BL)based on the restricted maximum likelihood(REML)method.The results show that the heritability of CDH was low(0.12±0.05),while the growth traits(BW and BL)had low to moderate heritability,with 0.20±0.06 for BW and 0.06±0.04 for BL.The phenotypic and genetic correlation between BW and BL was significantly positive,but significantly negative phenotypic and genetic correlations were detected between CDH and BW and between CDH and BL.Furthermore,the analysis of the differences between cold-resistance and phenotypic traits showed that the female reproductive status,exoskeleton hardness and claw number of adult prawns had a great influence on the cold-resistance of M.rosenbergii(P<0.05),indicating that adults with claws and hard exoskeletons are preferred as parents in subsequent breeding selection.The present results can be attributed to the selection and breeding of a new cold-resistant variety of M.rosenbergii.
