Seed treatment with endophytic fungi has been regarded as an effective method for plant parasitic nematode control.Endophytic fungi from cucumber seedlings were isolated and screened for their potential to be used as ...Seed treatment with endophytic fungi has been regarded as an effective method for plant parasitic nematode control.Endophytic fungi from cucumber seedlings were isolated and screened for their potential to be used as seed treatment agents against Meloidogyne incognita.Among the 294 isolates screened,23 significantly reduced galls formed by M.incognita in greenhouse test.The 10 most effective isolates were Fusarium(5),Trichoderma(1),Chaetomium(1),Acremonium(1),Paecilomyces(1),and Phyllosticta(1) .Their control efficacies were repeatedly tested and their colonizations as well as in vitro activity against M.incognita were studied.They reduced the number of galls by 24.0%-58.4%in the first screening and 15.6%-44.3%in the repeated test,respectively.Phyllosticta Ph511 and Chaetomium Ch1001 had high colonizations on both the roots and the aboveground parts of cucumber seedlings.Fusarium isolates had colonization preference on the roots,their root colonizations ranging from 20.1%to 47.3%of the total root area.Trichoderma Tr882,Paecilomyces Pa972,and Acremonium Ac985 had low colonizations on both the roots and the aboveground parts.Acremonium Ac985,Chaetomium Ch1001,Paecilomyces Pa972,and Phyllosticta Ph511 produced compounds affecting motility of the second stage juveniles of M.incognita.Based on these results,Chae-tomium Ch1001 was considered to have the highest potential as a seed treatment agent for M.incognita biocontrol.展开更多
Adoptive cell therapy using chimeric antigen receptor T (CAR-T) cells, which is a promising cancer immunotherapy strategy, has been developing very rapidly in recent years. CAR-T cells are genetically modified T cells...Adoptive cell therapy using chimeric antigen receptor T (CAR-T) cells, which is a promising cancer immunotherapy strategy, has been developing very rapidly in recent years. CAR-T cells are genetically modified T cells that can specifically recognize tumor specific antigens on the surface of tumor cells, and then effectively kill tumor cells. At present, exciting results are being achieved in clinical applications of CAR-T cells for patients with hematological malignancies. The research and development of CAR-T cells for various targets and for the treatment of solid tumors have become a hot topic worldwide, so an increasing number of investigational new drug applications (INDAs) and new drug applications (NDAs) of CAR-T cell products are expected to be submitted in future. The quality control and nonclinical research of these products are of great significance in ensuring the safety and effectiveness of these products;however, they also present great challenges and difficulties. This article discusses the general principles of and key issues regarding the quality control and nonclinical research of CAR-T cell products based on their product characteristics and on relevant guidelines for gene and cell therapy products.展开更多
通过田间试验测定了1%噁嗪草酮悬浮剂(SC)与25 g/L五氟磺草胺可分散油悬浮剂(OD)或10%双草醚悬浮剂(SC)桶混使用对机插秧稻田杂草的防效及水稻的安全性。结果表明:1%噁嗪草酮SC 250、300、350 m L/667 m^2与25 g/L五氟磺草胺OD 80 m L/6...通过田间试验测定了1%噁嗪草酮悬浮剂(SC)与25 g/L五氟磺草胺可分散油悬浮剂(OD)或10%双草醚悬浮剂(SC)桶混使用对机插秧稻田杂草的防效及水稻的安全性。结果表明:1%噁嗪草酮SC 250、300、350 m L/667 m^2与25 g/L五氟磺草胺OD 80 m L/667 m^2混用,1%噁嗪草酮SC 350 m L/667 m^2与10%双草醚SC 10 m L/667 m^2混用,在水稻移栽后7 d毒土撒施及移栽后13 d茎叶喷雾施用对稗属杂草、千金子、鸭舌草、耳叶水苋、异型莎草等杂草的防效均达91%以上,优于对照移栽前2 d 35%丙草胺·苄嘧磺隆可湿性粉剂(WP)80 g/667 m^2毒土撒施+移栽后7 d 50%苯噻酰草胺·苄嘧磺隆WP 75 g/667 m^2毒土撒施处理、移栽后20 d 60 g/L五氟磺草胺·氰氟草酯OD 100 m L/667 m^2茎叶喷雾处理,移栽后7 d施药处理对杂草的防效高于移栽后13 d施药处理。1%噁嗪草酮SC 250、300、350 m L/667 m^2与25 g/L五氟磺草胺OD 80 m L/667 m^2或10%双草醚SC 10 m L/667 m^2桶混在水稻移栽后7 d或13 d处理对机插秧水稻安全。展开更多
基金Project supported by the German Academic Exchange Agency (DAAD),the China Scholarship Council(CSC),the Special Fund for Agro-scientific Research in the Public Interest(No.nyhezx07-050-6)the Science and Technology Department of Zhejiang Province of China(No.2008C22062)the Zhejiang Provincial Natural Science Foundation of China(No.R307396)
文摘Seed treatment with endophytic fungi has been regarded as an effective method for plant parasitic nematode control.Endophytic fungi from cucumber seedlings were isolated and screened for their potential to be used as seed treatment agents against Meloidogyne incognita.Among the 294 isolates screened,23 significantly reduced galls formed by M.incognita in greenhouse test.The 10 most effective isolates were Fusarium(5),Trichoderma(1),Chaetomium(1),Acremonium(1),Paecilomyces(1),and Phyllosticta(1) .Their control efficacies were repeatedly tested and their colonizations as well as in vitro activity against M.incognita were studied.They reduced the number of galls by 24.0%-58.4%in the first screening and 15.6%-44.3%in the repeated test,respectively.Phyllosticta Ph511 and Chaetomium Ch1001 had high colonizations on both the roots and the aboveground parts of cucumber seedlings.Fusarium isolates had colonization preference on the roots,their root colonizations ranging from 20.1%to 47.3%of the total root area.Trichoderma Tr882,Paecilomyces Pa972,and Acremonium Ac985 had low colonizations on both the roots and the aboveground parts.Acremonium Ac985,Chaetomium Ch1001,Paecilomyces Pa972,and Phyllosticta Ph511 produced compounds affecting motility of the second stage juveniles of M.incognita.Based on these results,Chae-tomium Ch1001 was considered to have the highest potential as a seed treatment agent for M.incognita biocontrol.
文摘Adoptive cell therapy using chimeric antigen receptor T (CAR-T) cells, which is a promising cancer immunotherapy strategy, has been developing very rapidly in recent years. CAR-T cells are genetically modified T cells that can specifically recognize tumor specific antigens on the surface of tumor cells, and then effectively kill tumor cells. At present, exciting results are being achieved in clinical applications of CAR-T cells for patients with hematological malignancies. The research and development of CAR-T cells for various targets and for the treatment of solid tumors have become a hot topic worldwide, so an increasing number of investigational new drug applications (INDAs) and new drug applications (NDAs) of CAR-T cell products are expected to be submitted in future. The quality control and nonclinical research of these products are of great significance in ensuring the safety and effectiveness of these products;however, they also present great challenges and difficulties. This article discusses the general principles of and key issues regarding the quality control and nonclinical research of CAR-T cell products based on their product characteristics and on relevant guidelines for gene and cell therapy products.
文摘通过田间试验测定了1%噁嗪草酮悬浮剂(SC)与25 g/L五氟磺草胺可分散油悬浮剂(OD)或10%双草醚悬浮剂(SC)桶混使用对机插秧稻田杂草的防效及水稻的安全性。结果表明:1%噁嗪草酮SC 250、300、350 m L/667 m^2与25 g/L五氟磺草胺OD 80 m L/667 m^2混用,1%噁嗪草酮SC 350 m L/667 m^2与10%双草醚SC 10 m L/667 m^2混用,在水稻移栽后7 d毒土撒施及移栽后13 d茎叶喷雾施用对稗属杂草、千金子、鸭舌草、耳叶水苋、异型莎草等杂草的防效均达91%以上,优于对照移栽前2 d 35%丙草胺·苄嘧磺隆可湿性粉剂(WP)80 g/667 m^2毒土撒施+移栽后7 d 50%苯噻酰草胺·苄嘧磺隆WP 75 g/667 m^2毒土撒施处理、移栽后20 d 60 g/L五氟磺草胺·氰氟草酯OD 100 m L/667 m^2茎叶喷雾处理,移栽后7 d施药处理对杂草的防效高于移栽后13 d施药处理。1%噁嗪草酮SC 250、300、350 m L/667 m^2与25 g/L五氟磺草胺OD 80 m L/667 m^2或10%双草醚SC 10 m L/667 m^2桶混在水稻移栽后7 d或13 d处理对机插秧水稻安全。
