Defective Proboscis Extension Response (DPR), a Member of the Ig Superfamily Required for the Gustatory Response to Salt

Makoto Nakamura; David Baldwin; Susannah Hannaford; John Palka; Craig Montell

Defective Proboscis Extension Response (DPR), a Member of the Ig Superfamily Required for the Gustatory Response to Salt

Makoto Nakamura, David Baldwin, Susannah Hannaford, John Palka, Craig Montell

School of Medicine

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

Gustatory stimuli, such as sugar, induce a behavioral response in Drosophila that involves extension of the proboscis and consumption of the sugar-containing solution. Addition of salt to the sugar solution inhibits this behavioral response. However, the mechanisms and gene products involved in the salt aversion response have not been described. Here, we report the identification of a locus, defective proboscis extension response (dpr), that is required for salt aversion. dpr was expressed in a subset of primary neurons in the gustatory organs and encoded a protein with two Ig-like domains, a single putative transmembrane domain, and a short region C terminal to the transmembrane segment. In addition, DPR defines a large previously unknown group of ≥20 highly related Ig-containing proteins.

Original language	English (US)
Pages (from-to)	3463-3472
Number of pages	10
Journal	Journal of Neuroscience
Volume	22
Issue number	9
State	Published - May 1 2002

Keywords

Chemoreceptors
Drosophila
Gustatory response
Immunoglobulin repeats
Salt aversion
Taste

ASJC Scopus subject areas

Neuroscience(all)

Cite this

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abstract = "Gustatory stimuli, such as sugar, induce a behavioral response in Drosophila that involves extension of the proboscis and consumption of the sugar-containing solution. Addition of salt to the sugar solution inhibits this behavioral response. However, the mechanisms and gene products involved in the salt aversion response have not been described. Here, we report the identification of a locus, defective proboscis extension response (dpr), that is required for salt aversion. dpr was expressed in a subset of primary neurons in the gustatory organs and encoded a protein with two Ig-like domains, a single putative transmembrane domain, and a short region C terminal to the transmembrane segment. In addition, DPR defines a large previously unknown group of ≥20 highly related Ig-containing proteins.",

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T1 - Defective Proboscis Extension Response (DPR), a Member of the Ig Superfamily Required for the Gustatory Response to Salt

AU - Nakamura, Makoto

AU - Baldwin, David

AU - Hannaford, Susannah

AU - Palka, John

AU - Montell, Craig

PY - 2002/5/1

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AB - Gustatory stimuli, such as sugar, induce a behavioral response in Drosophila that involves extension of the proboscis and consumption of the sugar-containing solution. Addition of salt to the sugar solution inhibits this behavioral response. However, the mechanisms and gene products involved in the salt aversion response have not been described. Here, we report the identification of a locus, defective proboscis extension response (dpr), that is required for salt aversion. dpr was expressed in a subset of primary neurons in the gustatory organs and encoded a protein with two Ig-like domains, a single putative transmembrane domain, and a short region C terminal to the transmembrane segment. In addition, DPR defines a large previously unknown group of ≥20 highly related Ig-containing proteins.

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KW - Immunoglobulin repeats

KW - Salt aversion

KW - Taste

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Defective Proboscis Extension Response (DPR), a Member of the Ig Superfamily Required for the Gustatory Response to Salt

Abstract

Keywords

ASJC Scopus subject areas

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