An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.

An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.

The analysis of microcircuitry (the connectivity at the level of individual neuronal processes and synapses), which is indispensable for our understanding of brain function, is based on serial transmission electron microscopy (TEM) or one of its modern variants. Due to technical limitations, most pr...

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Main Authors: Albert Cardona, Stephan Saalfeld, Stephan Preibisch, Benjamin Schmid, Anchi Cheng, Jim Pulokas, Pavel Tomancak, Volker Hartenstein
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-10-01
Series:PLoS Biology
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/20957184/?tool=EBI
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spelling doaj-cc78e81dcb774a9e8f1665017bbe2ca62021-07-02T17:19:52ZengPublic Library of Science (PLoS)PLoS Biology1544-91731545-78852010-10-0181010.1371/journal.pbio.1000502An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.Albert CardonaStephan SaalfeldStephan PreibischBenjamin SchmidAnchi ChengJim PulokasPavel TomancakVolker HartensteinThe analysis of microcircuitry (the connectivity at the level of individual neuronal processes and synapses), which is indispensable for our understanding of brain function, is based on serial transmission electron microscopy (TEM) or one of its modern variants. Due to technical limitations, most previous studies that used serial TEM recorded relatively small stacks of individual neurons. As a result, our knowledge of microcircuitry in any nervous system is very limited. We applied the software package TrakEM2 to reconstruct neuronal microcircuitry from TEM sections of a small brain, the early larval brain of Drosophila melanogaster. TrakEM2 enables us to embed the analysis of the TEM image volumes at the microcircuit level into a light microscopically derived neuro-anatomical framework, by registering confocal stacks containing sparsely labeled neural structures with the TEM image volume. We imaged two sets of serial TEM sections of the Drosophila first instar larval brain neuropile and one ventral nerve cord segment, and here report our first results pertaining to Drosophila brain microcircuitry. Terminal neurites fall into a small number of generic classes termed globular, varicose, axiform, and dendritiform. Globular and varicose neurites have large diameter segments that carry almost exclusively presynaptic sites. Dendritiform neurites are thin, highly branched processes that are almost exclusively postsynaptic. Due to the high branching density of dendritiform fibers and the fact that synapses are polyadic, neurites are highly interconnected even within small neuropile volumes. We describe the network motifs most frequently encountered in the Drosophila neuropile. Our study introduces an approach towards a comprehensive anatomical reconstruction of neuronal microcircuitry and delivers microcircuitry comparisons between vertebrate and insect neuropile.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/20957184/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Albert Cardona
Stephan Saalfeld
Stephan Preibisch
Benjamin Schmid
Anchi Cheng
Jim Pulokas
Pavel Tomancak
Volker Hartenstein
spellingShingle Albert Cardona
Stephan Saalfeld
Stephan Preibisch
Benjamin Schmid
Anchi Cheng
Jim Pulokas
Pavel Tomancak
Volker Hartenstein
An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
PLoS Biology
author_facet Albert Cardona
Stephan Saalfeld
Stephan Preibisch
Benjamin Schmid
Anchi Cheng
Jim Pulokas
Pavel Tomancak
Volker Hartenstein
author_sort Albert Cardona
title An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
title_short An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
title_full An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
title_fullStr An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
title_full_unstemmed An integrated micro- and macroarchitectural analysis of the Drosophila brain by computer-assisted serial section electron microscopy.
title_sort integrated micro- and macroarchitectural analysis of the drosophila brain by computer-assisted serial section electron microscopy.
publisher Public Library of Science (PLoS)
series PLoS Biology
issn 1544-9173
1545-7885
publishDate 2010-10-01
description The analysis of microcircuitry (the connectivity at the level of individual neuronal processes and synapses), which is indispensable for our understanding of brain function, is based on serial transmission electron microscopy (TEM) or one of its modern variants. Due to technical limitations, most previous studies that used serial TEM recorded relatively small stacks of individual neurons. As a result, our knowledge of microcircuitry in any nervous system is very limited. We applied the software package TrakEM2 to reconstruct neuronal microcircuitry from TEM sections of a small brain, the early larval brain of Drosophila melanogaster. TrakEM2 enables us to embed the analysis of the TEM image volumes at the microcircuit level into a light microscopically derived neuro-anatomical framework, by registering confocal stacks containing sparsely labeled neural structures with the TEM image volume. We imaged two sets of serial TEM sections of the Drosophila first instar larval brain neuropile and one ventral nerve cord segment, and here report our first results pertaining to Drosophila brain microcircuitry. Terminal neurites fall into a small number of generic classes termed globular, varicose, axiform, and dendritiform. Globular and varicose neurites have large diameter segments that carry almost exclusively presynaptic sites. Dendritiform neurites are thin, highly branched processes that are almost exclusively postsynaptic. Due to the high branching density of dendritiform fibers and the fact that synapses are polyadic, neurites are highly interconnected even within small neuropile volumes. We describe the network motifs most frequently encountered in the Drosophila neuropile. Our study introduces an approach towards a comprehensive anatomical reconstruction of neuronal microcircuitry and delivers microcircuitry comparisons between vertebrate and insect neuropile.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/20957184/?tool=EBI
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