The generation of DPOAEs in the locust ear is contingent upon the sensory neurons

## Abstract The inner ear of mammals uses neurosensory cells derived from the embryonic ear for mechanoelectric transduction of vestibular and auditory stimuli (the hair cells) and conducts this information to the brain via sensory neurons. As with most other neurons of mammals, lost hair cells and

Primary cultures derived from adult mouse dorsal root ganglia have been maintained in the presence or absence of 5 X 10(-6)M cytosine arabinoside for periods of up to 4 weeks. In cultures in which cytosine arabinoside is present, the non-neuronal cell population is effectively reduced. When uncoated

Three different cytochemical methods were used to detect acetylcholine in large, second-order neurons of locust ocelli (L-neurons). The first method used polyclonal antibodies raised against choline cleaved from acetylcholine and then conjugated with native protein, and this revealed strong staining

## Abstract In the __Limax__ central nervous system, the procerebrum is thought to be the locus of odor information processing and odor memory retention, but little is known about the input pathway of the noxious stimuli used in this learning protocol. To gain insight into the sensory information p

The mouse genome contains a small family of homeobox genes related to Hox11, but relatively little is known about the expression of these genes during early development. Hox11 itself is expressed in the embryonic spleen, among other tissues, and is required for its formation. No description of Hox11