Sex peptide receptor is not required for refractoriness to remating or induction of egg laying in Aedes aegypti.

Across diverse insect taxa, the behavior and physiology of females dramatically changes after mating-processes largely triggered by the transfer of seminal proteins from their mates. In the vinegar fly Drosophila melanogaster, the seminal protein sex peptide (SP) decreases the likelihood of female flies remating and causes additional behavioral and physiological changes that promote fertility including increasing egg production. Although SP is only found in the Drosophila genus, its receptor, sex peptide receptor (SPR), is the widely conserved myoinhibitory peptide (MIP) receptor.

Tachykininergic Neurons Modulate the Activity of Two Groups of Receptor-Expressing Neurons to Regulate Aggressive Tone.

Neuropeptides influence animal behaviors through complex molecular and cellular mechanisms, the physiological and behavioral effects of which are difficult to predict solely from synaptic connectivity. Many neuropeptides can activate multiple receptors, whose ligand affinity and downstream signaling cascades are often different from one another. Although we know that the diverse pharmacological characteristics of neuropeptide receptors form the basis of unique neuromodulatory effects on distinct downstream cells, it remains unclear exactly how different receptors shape the downstream activity patterns triggered by a single neuronal neuropeptide source.

Single-Pair and Small-Group Crosses of .

is an emerging model insect species used in genetics studies because of its ease of laboratory rearing, desiccation-resistant eggs, expanding genetic toolkit, and high-quality reference genome. Here, we describe procedures to isolate and sex virgin female and male mosquitoes and establish successful mating crosses. We also detail how to blood feed mosquitoes from these crosses, isolate individual or small groups of females for egg laying, condition these eggs for storage and hatching, and verify female mating status.

Overview of and Use in Laboratory Studies.

The yellow fever mosquito is a prolific disease vector. This mosquito has been the subject of scientific investigation for more than a century. Continued research into biology is crucial for understanding how to halt the suite of major arthropod-borne viral diseases this mosquito transmits.

Batch Rearing .

Standardized rearing methods for the yellow fever mosquito are critical to facilitate controlled laboratory studies. This protocol describes a batch rearing protocol for stocks that yields healthy eggs, larvae, pupae, and adults in the laboratory for long-term colony maintenance and experimental manipulation. Foundational principles for the rearing and containment of these life cycle stages, as well as steps for mating and blood feeding to yield viable eggs for continuous culture or storage, are detailed.

Cerebellar-dependent expression of motor learning during eyeblink conditioning in head-fixed mice.

Eyeblink conditioning in restrained rabbits has served as an excellent model of cerebellar-dependent motor learning for many decades. In mice, the role of the cerebellum in eyeblink conditioning is less clear and remains controversial, partly because learning appears to engage fear-related circuits and lesions of the cerebellum do not abolish the learned behavior completely. Furthermore, experiments in mice are performed using freely moving systems, which lack the stability necessary for mapping out the essential neural circuitry with electrophysiological approaches.

Signals in inferotemporal and perirhinal cortex suggest an untangling of visual target information.

Finding sought visual targets requires our brains to flexibly combine working memory information about what we are looking for with visual information about what we are looking at. To investigate the neural computations involved in finding visual targets, we recorded neural responses in inferotemporal cortex (IT) and perirhinal cortex (PRH) as macaque monkeys performed a task that required them to find targets in sequences of distractors. We found similar amounts of total task-specific information in both areas; however, information about whether a target was in view was more accessible using a linear read-out or, equivalently, was more untangled in PRH.