ben在果蝇的突触传递和长期记忆形成过程中与scamp共同发挥作用。

ben Functions with scamp during synaptic transmission and long-term memory formation in Drosophila.

作者信息

Zhao Hong, Zheng Xingguo, Yuan Xiaojing, Wang Lei, Wang Xin, Zhong Yi, Xie Zuoping, Tully Tim

机构信息

Department of Biological Sciences and Biotechnology, State Key Laboratory of Biomembrane and Membrane Biotechnology, Tsinghua University, Beijing, China.

出版信息

J Neurosci. 2009 Jan 14;29(2):414-24. doi: 10.1523/JNEUROSCI.5036-07.2009.

DOI:10.1523/JNEUROSCI.5036-07.2009

PMID:19144841

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3045784/

Abstract

Genetic screens for Drosophila mutants defective in pavlovian olfactory memory have provided unique insight into the molecular basis of memory storage. Occasionally, these singular genetic lesions have been assembled into meaningful molecular pathways and neural circuitries. For the most part, however, these genes and their expression patterns in the CNS remain fragmented, demanding new clues from continued mutant screens. From a behavioral screen for long-term memory (LTM) mutants, we have identified ben (CG32594), which encodes a novel protein. Mutations of ben specifically disrupt LTM, leaving earlier memory phases intact. The role of ben appears physiological rather than developmental, because acutely induced expression of a ben(+) transgene in adults rescues the mutant's LTM defect. More interestingly, induced expression of ben(+) specifically in mushroom bodies (MBs), but not in the ellipsoid body of the central complex, is sufficient to rescue the mutant LTM defect. This suggests a role for ben in the MB during olfactory memory formation. We also provide evidence that BEN interacts genetically in both synaptic transmission and LTM formation with SCAMP, a synaptic protein known to be involved in vesicle recycling.

摘要

对巴甫洛夫式嗅觉记忆存在缺陷的果蝇突变体进行的遗传筛选，为记忆存储的分子基础提供了独特的见解。偶尔，这些独特的遗传损伤已被整合到有意义的分子途径和神经回路中。然而，在大多数情况下，这些基因及其在中枢神经系统中的表达模式仍然是零散的，需要通过持续的突变体筛选获得新的线索。通过对长期记忆（LTM）突变体的行为筛选，我们鉴定出了ben（CG32594），它编码一种新的蛋白质。ben基因的突变特异性地破坏了长期记忆，而早期记忆阶段则保持完整。ben的作用似乎是生理性的而非发育性的，因为在成虫中急性诱导ben（+）转基因的表达可挽救突变体的长期记忆缺陷。更有趣的是，仅在蘑菇体（MB）中特异性诱导ben（+）的表达，而不是在中央复合体的椭球体中诱导表达，就足以挽救突变体的长期记忆缺陷。这表明ben在嗅觉记忆形成过程中在蘑菇体中发挥作用。我们还提供了证据表明，BEN在突触传递和长期记忆形成方面与SCAMP发生遗传相互作用，SCAMP是一种已知参与囊泡循环的突触蛋白。

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