Anandasankar Ray
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View article: Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field
Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field Open
Preventing beneficial insects like honey bees (Apis mellifera) from contacting pesticides on crops using odorants could counter current pollinator declines. However, the discovery of behaviorally aversive odorants is impeded by the complex…
View article: Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field
Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field Open
Preventing beneficial insects like honey bees (Apis mellifera) from contacting pesticides on crops using odorants could counter current pollinator declines. However, the discovery of behaviorally aversive odorants is impeded by the complex…
View article: Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field
Machine learning of honey bee olfactory behavior identifies repellent odorants in free flying bees in the field Open
Preventing beneficial insects like honey bees ( Apis mellifera ) from contacting pesticides on crops using odorants could counter current pollinator declines. However, the discovery of behaviorally aversive odorants is impeded by the compl…
View article: Receptors underlying an odorant's valence across concentrations in <i>Drosophila</i> larvae
Receptors underlying an odorant's valence across concentrations in <i>Drosophila</i> larvae Open
Odorants interact with receptors expressed in specialized olfactory neurons, and neurons of the same class send their axons to distinct glomeruli in the brain. The stereotypic spatial glomerular activity map generates recognition and the b…
View article: Author Response: Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents
Author Response: Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents Open
The rational discovery of behaviorally active odorants is impeded by a lack of understanding on how the olfactory system generates percept or valence for a volatile chemical. In previous studies we showed that chemical informatics could be…
View article: Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents
Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents Open
The rational discovery of behaviorally active odorants is impeded by a lack of understanding on how the olfactory system generates percept or valence for a volatile chemical. In previous studies we showed that chemical informatics could be…
View article: Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents
Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents Open
The rational discovery of behaviorally active odorants is impeded by a lack of understanding on how the olfactory system generates percept or valence for a volatile chemical. In previous studies we showed that chemical informatics could be…
View article: Reviewer #1 (Public Review): Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents
Reviewer #1 (Public Review): Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents Open
The rational discovery of behaviorally active odorants is impeded by a lack of understanding on how the olfactory system generates percept or valence for a volatile chemical. In previous studies we showed that chemical informatics could be…
View article: Author Response: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Author Response: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Full text Figures and data Side by side Abstract eLife assessment Introduction Results Discussion Materials and methods Data availability References Peer review Author response Article and author information Abstract Eukaryotes respond to …
View article: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes respond to secreted metabolites from the microbiome. However, little is known about the effects of exposure to volatiles emitted by microbes or in the environment that we are exposed to over longer durations. Using Drosophila me…
View article: Author Response: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Author Response: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Joint Public Review: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Joint Public Review: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents
Machine Learning Based Modelling of Human and Insect Olfaction Screens Millions of compounds to Identify Pleasant Smelling Insect Repellents Open
The rational discovery of behaviorally active odorants is impeded by a lack of understanding on how the olfactory system generates percept or valence for a volatile chemical. In previous studies we showed that chemical informatics could be…
View article: Reviewer #2 (Public Review): Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Reviewer #2 (Public Review): Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes respond to secreted metabolites from the microbiome. However, little is known about the effects of exposure to volatiles emitted by microbes or in the environment that we are exposed to over longer durations. Using Drosophila me…
View article: Reviewer #1 (Public Review): Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Reviewer #1 (Public Review): Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs
Plasticity of gene expression in the nervous system by exposure to environmental odorants that inhibit HDACs Open
Eukaryotes are often exposed to microbes and respond to their secreted metabolites, such as the microbiome in animals or commensal bacteria in roots. Little is known about the effects of long-term exposure to volatile chemicals emitted by …
View article: Chemosensory detection of aversive concentrations of ammonia and basic volatile amines in insects
Chemosensory detection of aversive concentrations of ammonia and basic volatile amines in insects Open
Basic volatiles like ammonia are found in insect environments, and at high concentrations cause an atypical action potential burst, followed by inhibition in multiple classes of olfactory receptor neurons (ORNs) in Drosophila melanogaster.…
View article: Prolonged activation of carbon dioxide-sensitive neurons in mosquitoes
Prolonged activation of carbon dioxide-sensitive neurons in mosquitoes Open
Many insects can detect carbon dioxide (CO 2 ) plumes using a conserved receptor made up of members of the gustatory receptor (Gr) family Gr1, Gr2 and Gr3. Mosquitoes are attracted to host animals for blood meals using plumes of CO 2 in th…
View article: Development and Testing of a Novel Automated Insect Capture Module for Sample Collection and Transfer
Development and Testing of a Novel Automated Insect Capture Module for Sample Collection and Transfer Open
There exists an urgent need for efficient tools in disease surveillance to help model and predict the spread of disease. The transmission of insect-borne diseases poses a serious concern to public health officials and the medical and resea…
View article: Contributions of the conserved insect carbon dioxide receptor subunits to odor detection
Contributions of the conserved insect carbon dioxide receptor subunits to odor detection Open
The CO 2 receptor in mosquitoes is broadly tuned to detect many diverse odorants. The receptor consists of three 7-TM subunits (Gr1, Gr2, and Gr3) in mosquitoes but only two subunits in Drosophila : Gr21a (Gr1 ortholog) and Gr63a (Gr3 orth…
View article: Circadian regulation of light-evoked attraction/avoidance in day- vs. night-biting mosquitoes
Circadian regulation of light-evoked attraction/avoidance in day- vs. night-biting mosquitoes Open
Mosquitoes pose widespread threats to humans and other animals as disease vectors. Day- vs. night-biting mosquitoes occupy distinct time-of-day niches and exhibit very different innate temporal attraction/avoidance behavioral responses to …