The molecular basis of CO
            <sub>2</sub>
            reception in
            <i>Drosophila</i>

Kwon, Jae Young; Dahanukar, Anupama; Weiss, Linnea A.; Carlson, John R.

doi:10.1073/pnas.0700079104

Cited by 446 publications

(449 citation statements)

References 41 publications

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“…Genetic approaches disrupting the activity of Gr68a-expressing neurons, Gr32a, Gr33a, or Gr39a, cause alterations in courtship behavior, consistent with a role in pheromone detection (Bray and Amrein, 2003;Miyamoto and Amrein, 2008;Watanabe et al, 2011). Gr21a and Gr63a together mediate the CO 2 response in the antenna (Jones et al, 2007;Kwon et al, 2007). Gr28b was recently found to be critical for light-induced responses in the Drosophila larvae (Xiang et al, 2010), consistent with the light-sensing role of its C. elegans homolog lite-1 (Liu et al, 2010).…”

Section: Introductionmentioning

confidence: 65%

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

Park

Kwon

2011

Molecules and Cells

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Section: Introductionmentioning

confidence: 65%

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

Park

Kwon

2011

Molecules and Cells

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“…Two of the Gr RNAs (Gr22e and Gr32a) were predicted to be enriched in Gr66a-positive neurons because the corresponding GAL4 reporters have been shown to be expressed in subsets of Gr66a GRNs (4,5). In addition, we examined Gr63a expression, which was unlikely to be coexpressed with either Gr5a or Gr66a because this Gr encodes a CO 2 receptor (33,34). Gr64b belonged to a distinct branch that included the seven Grs most related to Gr5a (28-45% amino acid identities; referred to here as the Gr-S group).…”

Section: Resultsmentioning

confidence: 99%

“…An indication that at least some Grs form obligatory heteromultimers is that misexpression of just one of the two CO 2 receptor genes, Gr21a or Gr63a, in CO 2 -insensitive antennal neurons is insufficient to confer CO 2 sensitivity to these cells. However, coexpression of both Gr21a and Gr63a induces CO 2 responsiveness (33,34). Misexpression of just Gr64a in Gr66a GRNs did not elicit an aversive response to sucrose, glucose, or maltose or result in sugar-induced action potentials in Gr66a GRNs (Y.J.…”

Section: Discussionmentioning

confidence: 99%

A Drosophila gustatory receptor required for the responses to sucrose, glucose, and maltose identified by mRNA tagging

Jiao

Moon

Montell

2007

Proc. Natl. Acad. Sci. U.S.A.

195

190

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In Drosophila, detection of tastants is thought to be mediated by members of a family of 68 gustatory receptors (Grs). However, only one receptor, Gr5a, has been associated with a sugar, and it appears to be activated specifically by trehalose. It is unclear whether other sugar receptors are activated by single or multiple sugars. Currently, no Grs are known to colocalize with Gr5a. Such Grs would be candidate sugar receptors because Gr5a-expressing cells function in the responses to attractive tastants. Here we use an ''mRNA tagging'' approach to identify Gr RNAs that are coexpressed with Gr5a. We found that all seven Grs most related to Gr5a (Gr64a-f and Gr61a) were expressed in Gr5a-expressing cells, whereas none of the other Grs examined were enriched in these Gr neurons (GRNs). We characterized the role of one Gr5a-related receptor, Gr64a, and found that it was required for the behavioral responses to glucose, sucrose, and maltose. Gr64a was required for GRN function because action potentials induced by these sugars were dependent on expression of Gr64a in GRNs. These data demonstrate that multiple Grs are coexpressed with Gr5a and that Drosophila Gr64a is required for the responses to multiple sugars. gustatory receptor neuron ͉ taste ͉ tip recordings ͉ sugars ͉ behavior

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“…Mutants lacking Or83b are insensitive to most odorants due to lack of functional receptors exposed to the environment. Or83b mutants detect CO 2 normally because this gas is detected by gustatory receptors Gr21a and Gr63a (9,10), and gustatory receptors do not require Or83b for function (8). vainsA mutants, like previously reported Or83b mutants, have normal CO 2 responses but lack responses to general odorants ( Fig.…”

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confidence: 87%

SNMP is a signaling component required for pheromone sensitivity in Drosophila

Jin

Smith³

2008

Proc. Natl. Acad. Sci. U.S.A.

266

277

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The only known volatile pheromone in Drosophila, 11-cis-vaccenyl acetate (cVA), mediates a variety of behaviors including aggregation, mate recognition, and sexual behavior. cVA is detected by a small set of olfactory neurons located in T1 trichoid sensilla on the antennae of males and females. Two components known to be required for cVA reception are the odorant receptor Or67d and the extracellular pheromone-binding protein LUSH. Using a genetic screen for cVA-insensitive mutants, we have identified a third component required for cVA reception: sensory neuron membrane protein (SNMP). SNMP is a homolog of CD36, a scavenger receptor important for lipoprotein binding and uptake of cholesterol and lipids in vertebrates. In humans, loss of CD36 is linked to a wide range of disorders including insulin resistance, dyslipidemia, and atherosclerosis, but how CD36 functions in lipid transport and signal transduction is poorly understood. We show that SNMP is required in pheromone-sensitive neurons for cVA sensitivity but is not required for sensitivity to general odorants. Using antiserum to SNMP infused directly into the sensillum lymph, we show that SNMP function is required on the dendrites of cVA-sensitive neurons; this finding is consistent with a direct role in cVA signal transduction. Therefore, pheromone perception in Drosophila should serve as an excellent model to elucidate the role of CD36 members in transmembrane signaling.CD36 ͉ olfaction ͉ olfactory ͉ sexual behavior ͉ signal transduction C VA (11-cis-vaccenyl acetate) mediates social behaviors in Drosophila, and its reception requires the odorant receptor Or67d and the extracellular pheromone-binding protein LUSH (1-4). Misexpression of Or67d receptors in trichoid neurons that are normally insensitive to pheromone confers cVA sensitivity but only if LUSH is present (3). However, Or67d and LUSH are not sufficient to confer cVA sensitivity to basiconic neurons (T.S.H. and D.P.S., unpublished work). This finding reveals that there are additional factors required for cVA sensitivity present in trichoid sensilla that are lacking in basiconic sensilla. Using a genetic screen, we set out to identify additional components important for cVA sensitivity. We screened Ϸ3,000 mutagenized third-chromosome lines selected for homozygous viability (5). We screened each mutant line for T1 electrophysiological responses to cVA using single sensillum electrophysiological recordings (2, 3, 6). We identified five complementation groups that were cVA-insensitive yet retained spontaneous activity in the pheromone-sensing neurons (the vains phenotype) ( Fig. 1 and Table 1). The presence of spontaneous activity indicates that the neurons are present, are viable, and can sustain action potentials, thereby eliminating nonspecific mutants affecting development or general neuronal function. Of the five complementation groups recovered, two, Or67d and Or83b, affect genes previously implicated in cVA or general odorant detection, two remain unmapped, and the fifth encodes SNMP, a new cVA...

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The molecular basis of CO ₂ reception in Drosophila

Cited by 446 publications

References 41 publications

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

A Drosophila gustatory receptor required for the responses to sucrose, glucose, and maltose identified by mRNA tagging

SNMP is a signaling component required for pheromone sensitivity in Drosophila

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The molecular basis of CO 2 reception in Drosophila

Cited by 446 publications

References 41 publications

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

A Systematic Analysis of Drosophila Gustatory Receptor Gene Expression in Abdominal Neurons which Project to the Central Nervous System

A Drosophila gustatory receptor required for the responses to sucrose, glucose, and maltose identified by mRNA tagging

SNMP is a signaling component required for pheromone sensitivity in Drosophila

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The molecular basis of CO ₂ reception in Drosophila