Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals

Background: Olfactory systems create representations of the chemical world in the animal brain. Recordings of odour-evoked activity in the primary olfactory centres of vertebrates and insects have suggested similar rules for odour processing, in particular through spatial organization of chemical in...

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Detalles Bibliográficos
Autores principales: Josens, Roxana Beatriz, Giurfa, Martín
Publicado: 2010
Materias:
calcium
animal experiment
ant
antenna
article
brain function
Camponotus fellah
controlled study
evolutionary homology
mammal
nerve cell
neuroimaging
nonhuman
odor
olfactory system
species difference
animal
bee
brain
evoked response
evolution
metabolism
nerve cell inhibition
physiology
rat
smelling
stimulation
time
Animals
Ants
Bees
Brain
Calcium
Evoked Potentials
Evolution
Neural Inhibition
Neurons
Odors
Olfactory Perception
Physical Stimulation
Rats
Species Specificity
Time Factors
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_14712202_v11_n_p_Dupuy
http://hdl.handle.net/20.500.12110/paper_14712202_v11_n_p_Dupuy
Aporte de:
Aportado por : Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires .
id paper:paper_14712202_v11_n_p_Dupuy
record_format dspace
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic calcium
animal experiment
ant
antenna
article
brain function
Camponotus fellah
controlled study
evolutionary homology
mammal
nerve cell
neuroimaging
nonhuman
odor
olfactory system
species difference
animal
ant
bee
brain
evoked response
evolution
metabolism
nerve cell
nerve cell inhibition
odor
physiology
rat
smelling
stimulation
time
Animals
Ants
Bees
Brain
Calcium
Evoked Potentials
Evolution
Neural Inhibition
Neurons
Odors
Olfactory Perception
Physical Stimulation
Rats
Species Specificity
Time Factors
spellingShingle calcium
animal experiment
ant
antenna
article
brain function
Camponotus fellah
controlled study
evolutionary homology
mammal
nerve cell
neuroimaging
nonhuman
odor
olfactory system
species difference
animal
ant
bee
brain
evoked response
evolution
metabolism
nerve cell
nerve cell inhibition
odor
physiology
rat
smelling
stimulation
time
Animals
Ants
Bees
Brain
Calcium
Evoked Potentials
Evolution
Neural Inhibition
Neurons
Odors
Olfactory Perception
Physical Stimulation
Rats
Species Specificity
Time Factors
Josens, Roxana Beatriz
Giurfa, Martín
Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
topic_facet calcium
animal experiment
ant
antenna
article
brain function
Camponotus fellah
controlled study
evolutionary homology
mammal
nerve cell
neuroimaging
nonhuman
odor
olfactory system
species difference
animal
ant
bee
brain
evoked response
evolution
metabolism
nerve cell
nerve cell inhibition
odor
physiology
rat
smelling
stimulation
time
Animals
Ants
Bees
Brain
Calcium
Evoked Potentials
Evolution
Neural Inhibition
Neurons
Odors
Olfactory Perception
Physical Stimulation
Rats
Species Specificity
Time Factors
description Background: Olfactory systems create representations of the chemical world in the animal brain. Recordings of odour-evoked activity in the primary olfactory centres of vertebrates and insects have suggested similar rules for odour processing, in particular through spatial organization of chemical information in their functional units, the glomeruli. Similarity between odour representations can be extracted from across-glomerulus patterns in a wide range of species, from insects to vertebrates, but comparison of odour similarity in such diverse taxa has not been addressed. In the present study, we asked how 11 aliphatic odorants previously tested in honeybees and rats are represented in the antennal lobe of the ant Camponotus fellah, a social insect that relies on olfaction for food search and social communication.Results: Using calcium imaging of specifically-stained second-order neurons, we show that these odours induce specific activity patterns in the ant antennal lobe. Using multidimensional analysis, we show that clustering of odours is similar in ants, bees and rats. Moreover, odour similarity is highly correlated in all three species.Conclusion: This suggests the existence of similar coding rules in the neural olfactory spaces of species among which evolutionary divergence happened hundreds of million years ago. © 2010 Dupuy et al; licensee BioMed Central Ltd.
author Josens, Roxana Beatriz
Giurfa, Martín
author_facet Josens, Roxana Beatriz
Giurfa, Martín
author_sort Josens, Roxana Beatriz
title Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
title_short Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
title_full Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
title_fullStr Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
title_full_unstemmed Calcium imaging in the ant Camponotus fellah reveals a conserved odour-similarity space in insects and mammals
title_sort calcium imaging in the ant camponotus fellah reveals a conserved odour-similarity space in insects and mammals
publishDate 2010
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_14712202_v11_n_p_Dupuy
http://hdl.handle.net/20.500.12110/paper_14712202_v11_n_p_Dupuy
work_keys_str_mv AT josensroxanabeatriz calciumimagingintheantcamponotusfellahrevealsaconservedodoursimilarityspaceininsectsandmammals
AT giurfamartin calciumimagingintheantcamponotusfellahrevealsaconservedodoursimilarityspaceininsectsandmammals
bdutipo_str Repositorios
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