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Synthesis, bioactivity and functional evaluation of linker-modified allatostatin analogs as potential insect growth regulators 被引量:1

Synthesis, bioactivity and functional evaluation of linker-modified allatostatin analogs as potential insect growth regulators
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摘要 Insect growth regulators play an important role in integrated pest management strategies.The FGLa–allatostatins(ASTs)are a family of neuropeptides that can inhibit juvenile hormone(JH)biosynthesis by the corpora allata(CA)of Diploptera punctata in vitro,are regarded as insect growth regulator candidates.In the search for new potential mimics and to explore the effect of linker length on inhibiting JH biosynthesis,a series of AST analogs were synthesized by modifying the linker of K24,which was found to have a significant effect on JH biosynthesis in vitro in our previous study.Functional evaluation demonstrated that all the target compounds can activate the Dippu-Ast R,albeit with different potencies.Analog L6 with the longest linker(n=5),exhibited not only a promising effect on inhibition of JH biosynthesis both in vitro and in vivo,but also good activity in inhibiting basal oocyte growth.Structure–activity relationships(SAR)studies showed that longer linkers provided greater contribution to activity. Insect growth regulators play an important role in integrated pest management strategies.The FGLa–allatostatins(ASTs)are a family of neuropeptides that can inhibit juvenile hormone(JH)biosynthesis by the corpora allata(CA)of Diploptera punctata in vitro,are regarded as insect growth regulator candidates.In the search for new potential mimics and to explore the effect of linker length on inhibiting JH biosynthesis,a series of AST analogs were synthesized by modifying the linker of K24,which was found to have a significant effect on JH biosynthesis in vitro in our previous study.Functional evaluation demonstrated that all the target compounds can activate the Dippu-Ast R,albeit with different potencies.Analog L6 with the longest linker(n=5),exhibited not only a promising effect on inhibition of JH biosynthesis both in vitro and in vivo,but also good activity in inhibiting basal oocyte growth.Structure–activity relationships(SAR)studies showed that longer linkers provided greater contribution to activity.
作者 Xiao-Qing Wu Juan Huang Mei-Zi Wang Zhe Zhang Xin-Lu Li Xin-Ling Yang Stephen S.Tobe
机构地区 Department of Applied Chemistry Department of Cell and Systems Biology
出处 《Chinese Chemical Letters》 SCIE CAS CSCD 2016年第4期559-562,共4页 中国化学快报(英文版)
基金 supported by the National Natural Science Foundation of China (No. 21372257) the National Basic Research Program of China (973 Program, No. 2010CB126104) the Natural Sciences and Engineering Research Council of Canada supported by China Scholarship Council (CSC) to study in the laboratory of SST at University of Toronto,Canada
关键词 ALLATOSTATIN Insect growth regulators Juvenile hormone ANALOGS Dippu-Ast receptor Allatostatin Insect growth regulators Juvenile hormone Analogs Dippu-Ast receptor
分类号 TQ453 [化学工程—农药化工]
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参考文献17

  • 1W.G. Bendena. B.C. Donly, S.S. Tobe, Allatostatins: a growing family of neuro- peptides with structural and functional diversity, Ann. N.Y. Acad. Sci. 897 (1999) 311-329.
  • 2M.D. Piulachs, L. Vilaplana, J.M. Bartolome, et al., Ketomethylene and methy- leneamino pseudopeptide analogues of insect allatostatins inhibit juvenile hormone and vitellogenin production in the cockroach Blattella gerrnanica, Insect Biochem. Mol. Biol. 27 (1997) 851-858.
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Chinese Chemical Letters
2016年 第4期

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