Your search keyword '"Alexandre Javier"' showing total 4 results

1. Information flow, cell types and stereotypy in a full olfactory connectome

Author

Sridhar R. Jagannathan, Asa Barth-Maron, Marta Costa, Gerald M. Rubin, Feng Li, Alexandre Javier, Philipp Schlegel, Stephen M. Plaza, Nikolas Drummond, Tomke Stürner, Joseph Hsu, Laia Serratosa Capdevila, Imaan F.M. Tamimi, Elizabeth C. Marin, Gregory S.X.E. Jefferis, Alexander Shakeel Bates, Schlegel, Philipp [0000-0002-5633-1314], Bates, Alexander Shakeel [0000-0002-1195-0445], Stürner, Tomke [0000-0003-4054-0784], Jagannathan, Sridhar R [0000-0002-2078-1145], Marin, Elizabeth C [0000-0001-6333-0072], Li, Feng [0000-0002-6658-9175], Rubin, Gerald M [0000-0001-8762-8703], Plaza, Stephen M [0000-0001-7425-8555], Costa, Marta [0000-0001-5948-3092], Jefferis, Gregory SXE [0000-0002-0587-9355], Apollo - University of Cambridge Repository, and Jefferis, Gregory S X E [0000-0002-0587-9355]

Subjects

0301 basic medicine, Olfactory system, Property (programming), Datasets as Topic, neuroscience, 0302 clinical medicine, Biology (General), 0303 health sciences, D. melanogaster, General Neuroscience, General Medicine, Olfactory Pathways, 3. Good health, medicine.anatomical_structure, Drosophila melanogaster, Mushroom bodies, Connectome, Medicine, Drosophila, Female, Research Article, olfaction, Cell type, Connectomics, QH301-705.5, neuroanatomy, Science, Olfaction, Biology, stereotypy, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Interneurons, medicine, Animals, connectomics, 030304 developmental biology, General Immunology and Microbiology, biology.organism_classification, Stereotypy (non-human), 030104 developmental biology, nervous system, Antennal lobe, synapses, Neuroscience, 030217 neurology & neurosurgery, Neuroanatomy

Abstract

The hemibrain connectome (Scheffer et al., 2020) provides large scale connectivity and morphology information for the majority of the central brain of Drosophila melanogaster. Using this data set, we provide a complete description of the most complex olfactory system studied at synaptic resolution to date, covering all first, second and third-order neurons of the olfactory system associated with the antennal lobe and lateral horn (mushroom body neurons are described in a parallel paper, Li et al., 2020). We develop a generally applicable strategy to extract information flow and layered organisation from synaptic resolution connectome graphs, mapping olfactory input to descending interneurons. This identifies a range of motifs including highly lateralised circuits in the antennal lobe and patterns of convergence downstream of the mushroom body and lateral horn. We also leverage a second data set (FAFB, Zheng et al., 2018) to provide a first quantitative assessment of inter- versus intra-individual stereotypy. Complete reconstruction of select developmental lineages in two brains (three brain hemispheres) reveals striking similarity in neuronal morphology across brains for >170 cell types. Within and across brains, connectivity correlates with morphology. Notably, neurons of the same morphological type show similar connection variability within one brain as across brains; this property should enable a rigorous quantitative approach to cell typing.

Published

2021

2. Author response: Information flow, cell types and stereotypy in a full olfactory connectome

Author

Imaan F.M. Tamimi, Marta Costa, Asa Barth-Maron, Philipp Schlegel, Gregory S.X.E. Jefferis, Alexander Shakeel Bates, Laia Serratosa Capdevila, Elizabeth C. Marin, Joseph Hsu, Feng Li, Stephen M. Plaza, Sridhar R. Jagannathan, Alexandre Javier, Gerald M. Rubin, Nikolas Drummond, and Tomke Stürner

Subjects

Cell type, Stereotypy (non-human), Connectome, Information flow, Biology, Neuroscience

Published

2021

3. Complete Connectomic Reconstruction of Olfactory Projection Neurons in the Fly Brain

Author

Scott Waddell, Gerald M. Rubin, Ruairí J.V. Roberts, Davi D. Bock, Feng Li, Arian R. Jamasb, Robert Turnbull, Philipp Schlegel, Serene Dhawan, Imaan F.M. Tamimi, Xiaohui Zhao, Laia Serratosa Capdevila, Alexandre Javier, Gregory S.X.E. Jefferis, Alexander Shakeel Bates, Elizabeth C. Marin, Nikolas Drummond, Marta Costa, and Patricia D. Popovici

Subjects

0301 basic medicine, Olfactory system, neuroanatomy, Sensory system, Olfaction, Biology, Article, General Biochemistry, Genetics and Molecular Biology, memory, 03 medical and health sciences, 0302 clinical medicine, Lateral inhibition, Connectome, medicine, Animals, connectomics, Neurons, Brain, Olfactory bulb, Drosophila melanogaster, 030104 developmental biology, medicine.anatomical_structure, nervous system, EM, Mushroom bodies, Drosophila, synapses, Antennal lobe, General Agricultural and Biological Sciences, Neuroscience, 030217 neurology & neurosurgery, olfaction, Neuroanatomy

Abstract

Summary Nervous systems contain sensory neurons, local neurons, projection neurons, and motor neurons. To understand how these building blocks form whole circuits, we must distil these broad classes into neuronal cell types and describe their network connectivity. Using an electron micrograph dataset for an entire Drosophila melanogaster brain, we reconstruct the first complete inventory of olfactory projections connecting the antennal lobe, the insect analog of the mammalian olfactory bulb, to higher-order brain regions in an adult animal brain. We then connect this inventory to extant data in the literature, providing synaptic-resolution “holotypes” both for heavily investigated and previously unknown cell types. Projection neurons are approximately twice as numerous as reported by light level studies; cell types are stereotyped, but not identical, in cell and synapse numbers between brain hemispheres. The lateral horn, the insect analog of the mammalian cortical amygdala, is the main target for this olfactory information and has been shown to guide innate behavior. Here, we find new connectivity motifs, including axo-axonic connectivity between projection neurons, feedback, and lateral inhibition of these axons by a large population of neurons, and the convergence of different inputs, including non-olfactory inputs and memory-related feedback onto third-order olfactory neurons. These features are less prominent in the mushroom body calyx, the insect analog of the mammalian piriform cortex and a center for associative memory. Our work provides a complete neuroanatomical platform for future studies of the adult Drosophila olfactory system., Graphical Abstract, Highlights • First complete parts list for second-order neurons of an adult olfactory system • Quantification of left-right stereotypy in cell and synapse number • Axo-axonic connections form hierarchical communities in the lateral horn • Local and memory-related feedback target projection neuron axons, Bates, Schlegel et al. report the first complete part list of second-order neurons in an adult arthropod olfactory system. They show that these neurons are stereotyped across hemispheres and reveal their hierarchical interconnectivity and how they connect to third-order targets and memory-related neurons.

Published

2020

4. Complete connectomic reconstruction of olfactory projection neurons in the fly brain

Author

Gerald M. Rubin, Feng Li, Nikolas Drummond, Marta Costa, Arian R. Jamasb, Alexandre Javier, Davi D. Bock, Gregory S.X.E. Jefferis, Serene Dhawan, Alexander Shakeel Bates, Xiaohui Zhao, Philipp Schlegel, Patricia D. Popovici, Imaan F.M. Tamimi, Elizabeth C. Marin, Scott Waddell, Ruairí J.V. Roberts, and Robert Turnbull

Subjects

Olfactory system, 0303 health sciences, Sensory system, Biology, Olfactory bulb, Synapse, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, nervous system, Lateral inhibition, Piriform cortex, Mushroom bodies, medicine, Antennal lobe, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Nervous systems contain sensory neurons, local neurons, projection neurons and motor neurons. To understand how these building blocks form whole circuits, we must distil these broad classes into neuronal cell types and describe their network connectivity. Using an electron micrograph dataset for an entireDrosophila melanogasterbrain, we reconstruct the first complete inventory of olfactory projections connecting the antennal lobe, the insect analogue of the mammalian olfactory bulb, to higher-order brain regions in an adult animal brain. We then connect this inventory to extant data in the literature, providing synaptic-resolution ‘holotypes’ both for heavily investigated and previously unknown cell types. Projection neurons are approximately twice as numerous as reported by light level studies; cell types are stereotyped, but not identical, in cell and synapse numbers between brain hemispheres. The lateral horn, the insect analogue of the mammalian cortical amygdala, is the main target for this olfactory information and has been shown to guide innate behaviour. Here, we find new connectivity motifs, including: axo-axonic connectivity between projection neurons; feedback and lateral inhibition of these axons by local neurons; and the convergence of different inputs, including non-olfactory inputs and memory-related feedback onto lateral horn neurons. This differs from the configuration of the second most prominent target for olfactory projection neurons: the mushroom body calyx, the insect analogue of the mammalian piriform cortex and a centre for associative memory. Our work provides a complete neuroanatomical platform for future studies of the adultDrosophilaolfactory system.HighlightsFirst complete parts list for second-order neurons of an adult olfactory systemQuantification of left-right stereotypy in cell and synapse numberAxo-axonic connections form hierarchical communities in the lateral hornLocal neurons and memory-related feedback target projection neuron axons