2024 Student Research Conference:
37th Annual Student Research Conference

Fem-1 regulates synapse formation and development of the Drosophila neuromuscular junction


Anna K. Cernich
Dr. Brett A. Berke, Faculty Mentor

The Fem-1 protein assists protein ubiquitination, which marks cellular proteins for degradation. Its function has been implicated in insulin signaling, glucose metabolism, sex determination, and courtship. Here, we show that the Fem-1 protein of Drosophila melanogaster also influences synapse formation at the neuromuscular junction (NMJ), sites of signal transmission between neurons and their muscle targets. NMJs in Drosophila form during embryonic development based on accurate cellular recognition between, motoneurons and their target muscles. Mistakes in target recognition during development result in erroneously-placed NMJs, known as ectopic synapses. These ectopics are normally removed by activity-dependent mechanisms within the motoneuron, such that decreasing motoneuron activity increases the number of ectopics. At the same time, an increase in motoneuron activity during development leads to larger NMJs. Here, we show that mutations of the Fem-1 gene surprisingly lead to more ectopics and larger NMJs, implicating the Fem-1 protein in both NMJ formation and growth. 

Keywords: Fem-1, Drosophila melanogaster, Ectopic synapses

Topic(s):Biology

Presentation Type: Oral Presentation

Session: TBA
Location: TBA
Time: TBA

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