Barry W. Ache scite author profile

Olfaction is a vitally important sense for all animals. There are striking similarities between species in the organization of the olfactory pathway, from the nature of the odorant receptor proteins, to perireceptor processes, to the organization of the olfactory CNS, through odor-guided behavior and memory. These common features span a phylogenetically broad array of animals, implying that there is an optimal solution to the problem of detecting and discriminating odors.

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Ultrastructure of the aesthetasc (olfactory) sensilla of the spiny lobster, Panulirus argus

Ache

1988

Cell Tissue Res.

188

143

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Plasma membrane inositol 1,4,5-Trisphosphate-Activated channels mediate signal transduction in lobster olfactory receptor neurons

Fadool

Ache

1992

Neuron

230

126

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Inositol 1,4,5-trisphosphate (IP3) selectively evokes an inward (excitatory) current in cultured lobster olfactory receptor neurons (ORNs) and directly activates two types of channels in cell-free patches of plasma membrane from the ORNs. The IP3-activated channels have kinetic properties of odor-activated channels in the ORNs and pharmacological properties of intracellular IP3-activated channels in other systems. An antibody directed against an intracellular, cerebellar IP3 receptor recognizes a protein with a molecular weight similar to the mammalian receptor in the ORNs. The antibody selectively increases odor-evoked inward currents and IP3-activated unitary currents in the ORNs. The data provide further evidence for IP3 as an olfactory second messenger and implicate at least one and possibly two novel plasma membrane IP3 receptors in olfactory transduction.

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Barry W. Ache

Olfaction: Diverse Species, Conserved Principles

Ultrastructure of the aesthetasc (olfactory) sensilla of the spiny lobster, Panulirus argus

Plasma membrane inositol 1,4,5-Trisphosphate-Activated channels mediate signal transduction in lobster olfactory receptor neurons

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