Neuronal architecture of the antennal lobe in Drosophila melanogaster

Stocker, Reinhard F.; Lienhard, Markus C.; Borst, Alexander; Fischbach, Karl‐Friedrich

doi:10.1007/bf00327741

Cited by 433 publications

(489 citation statements)

References 84 publications

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“…Figure 3c summarizes the`landmark' glomeruli (see Methods) that are innervated by anterodorsal projection neurons (green) or lateral projection neurons (red). In the 54 anterodorsal neuroblast and 25 lateral neuroblast clones we examined, we found no exception to this rule, despite the fact that there is no obvious relationship between the positions of projection neuron cell bodies and their glomeruli 4 . These observations indicate that the neuroblast from which a projection neuron is derived restricts its glomerular choice and consequently the subset of olfactory information that it can carry further into the brain.…”

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confidence: 74%

“…Projection neurons of the Drosophila antennal lobe send dendrites into glomeruli and axons to higher brain centres 4 , thereby transferring this odour map further into the brain. Here we use the MARCM method 5 to perform a systematic clonal analysis of projection neurons, allowing us to correlate lineage and birth time of projection neurons with their glomerular choice.…”

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confidence: 99%

“…About 1,300 ORNs expressing 40±60 different receptors 2,6,7 project their axons to 40±50 individually identi®able glomeruli of the antennal lobe 8 (equivalent to the mammalian olfactory bulb 9 ). Information leaves the antennal lobe through an estimated 150 projection neurons (equivalent to mammalian mitral/tufted cells), whose cell bodies are located at the periphery of the antennal lobe 4,10 (Fig. 2b).…”

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confidence: 99%

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Target neuron prespecification in the olfactory map of Drosophila

Jefferis

Marin

Stocker³

et al. 2001

Nature

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confidence: 74%

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confidence: 99%

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confidence: 99%

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Target neuron prespecification in the olfactory map of Drosophila

Jefferis

Marin

Stocker³

et al. 2001

Nature

396

442

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“…The antennal nerve is formed by two bundles of mechanosensory and chemosensory fibers that move together from the antenna until they reach the brain, where they split into two tracks. One bundle is the olfactory track, which terminates at the antennal lobe; the other is the antennal mechanosensory and motor center track, which bypasses the antennal lobe terminating at the mechanosensory region of the deuterocerebrum (Stocker RF et al, 1990). Accordingly, we have identified these labeled fibers as part of the antennal mechanosensory and motor center track.…”

Section: Distribution and Localization Of Sh Kch In The Cnsmentioning

confidence: 95%

Diverse Expression and Distribution ofShakerPotassium Channels during the Development of theDrosophilaNervous System

1997

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The spatio-temporal expression ofShaker(Sh) potassium channels (Kch) in the developing and adult nervous system ofDrosophilahas been studied at the molecular and histological level using specific antisera.ShKch are distributed in most regions of the nervous system, but their expression is restricted to only certain populations of cells.ShKch have been found in the following three locations: in synaptic areas of neuropile, in axonal fiber tracks, and in a small number of neuronal cell bodies. This wide subcellular localization, together with a diverse distribution, implicatesShKch in multiple neuronal functions.Experiments performed withShmutants that specifically eliminate a few of theShKch splice variants clearly demonstrate an abundant differential expression and usage of the wide repertoire ofShisoforms, but they do not support the idea of extensive segregation of these isoforms among different populations of neurons.ShKch are predominantly expressed at late stages of postembryonic development and adulthood. Strikingly, wide changes in the repertoire ofShsplice isoforms occur some time after the architecture of the nervous system is complete, indicating that the expression ofShKch contributes to the final refinements of neuronal differentiation. These late changes in the expression and distribution ofShKch seem to correlate with activity patterns suggesting thatShKch may be involved in adaptative mechanisms of excitability.

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“…LH). Previously the projection patterns of AL-PNs have been investigated in a wide variety of insects (fly: Stocker et al, 1990;cockroach: Malun et al, 1993;moth: Homberg et al, 1988, Rø et al, 2007; honeybee: Kirschner et al, 2006;ant: Zube et al, 2008). As in the other species studied we found in the cricket that the IACT was more frequently and more intensely stained.…”

Section: Tracts and Termination Areas Of The Al-pnsmentioning

confidence: 99%

The anatomical pathways for antennal sensory information in the central nervous system of the cricket, Gryllus bimaculatus

Yoritsune

Aonuma

2012

Invert Neurosci

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Antennae are one of the major organs to detect chemo- and mechanosensory cue in crickets. Little is known how crickets process and integrate different modality of information in the brain. We thus used a number of different anatomical techniques to gain an understanding of the neural pathways extending from the antennal sensory neurons up to centers in the brain. We identified seven antennal sensory tracts (assigned as T1–7) utilizing anterograde dye filling from the antennal nerve. Tracts T1–T4 project into the antennal lobe (AL), while tracts T5 and T6 course into the dorsal region of the deutocerebrum or the suboesophageal ganglion, and finally, tract T7 terminates in the ventral area of flagellar afferent (VFA). By analyzing autofluorescence images of the AL, we identified 49 sexually isomorphic glomeruli on the basis of shape, relative position and size. On the basis of our sensory-tract data, we assigned the glomeruli into one of four separate groups. We then three-dimensionally reconstructed the internal structures in the AL (glomeruli) and the VFA (layers). Next in the protocerebrum, we identified both the tracts and their terminations from the AL and VFA. We found that 10 tracts originate in the AL, whereas there are at least eight tracts from the VFA. Several tracts from the AL share their routes with those from the VFA, but their termination areas are segregated. We now have a better anatomical understanding of the pathways for the antennal information in cricket

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Neuronal architecture of the antennal lobe in Drosophila melanogaster

Cited by 433 publications

References 84 publications

Target neuron prespecification in the olfactory map of Drosophila

Target neuron prespecification in the olfactory map of Drosophila

Diverse Expression and Distribution ofShakerPotassium Channels during the Development of theDrosophilaNervous System

The anatomical pathways for antennal sensory information in the central nervous system of the cricket, Gryllus bimaculatus

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