Preliminary Analyses of Expression of Learning and Memory Related Genes in Honey Bees (Apis mellifera) in Free-Choice Learning Paradigms

T. Black, Medhat Radi, Amanda Somers, C. Abramson
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Abstract

Honey bees are an established animal model for studying learning and memory related behaviors. In recent years, honey bees have become more common as a model for investigations of molecular biology, including gene expression. Honey bees have been used to extrapolate genetic functions found in other invertebrates, such as Drosophila melanogaster. The honey bee model has also provided a means for isolating novel genes, including non-coding microRNA fragments. Integrating the study of learning and memory with molecular genetics, the present work examines the effect of learning acquisition and memory consolidation in free-choice paradigms on the expression of a suite of genes of interest. Results suggest that short-term learning acquisition causes differential expression of microRNA fragments, while memory consolidation differentially affects the expression of the serine/threonine protein kinase gene in honey bees. These results corroborate previous findings suggesting the importance of protein kinases in the formation of long term memory, and suggest that microRNA may play a large role in regulation of cytoskeletal scaffolding proteins.
自由选择学习模式下蜜蜂学习记忆相关基因表达的初步分析
蜜蜂是研究学习和记忆相关行为的既定动物模型。近年来,蜜蜂作为分子生物学(包括基因表达)研究的模型变得越来越普遍。蜜蜂已经被用来推断其他无脊椎动物的遗传功能,比如黑腹果蝇。蜜蜂模型也为分离新基因提供了一种手段,包括非编码microRNA片段。将学习和记忆的研究与分子遗传学相结合,本研究考察了自由选择范式中学习习得和记忆巩固对一系列感兴趣基因表达的影响。结果表明,短期学习习得导致了microRNA片段的差异表达,而记忆巩固对蜜蜂丝氨酸/苏氨酸蛋白激酶基因的表达有差异影响。这些结果证实了先前的研究结果,即蛋白激酶在长期记忆形成中的重要性,并表明microRNA可能在细胞骨架支架蛋白的调节中发挥重要作用。
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