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Drosophila larval

As mentioned above, Ddc is expressed in only about 150 cells within the Drosophila larval CNS. Figure 3 shows a cartoon illustrating these cells,... [Pg.61]

Figure 3. Sketch of DDC-expressing neurons in the Drosophila larval CNS. The CNS consists of brain lobes and a segmented ventral ganglion. Filled circles represent dopamine cells open circles represent serotonin cells grayed circles represent DDC cells that contain no detectable tyrosine hydroxylase or serotonin immunoreactivity, indicating that these cells may produce neither transmitter (Lundell and Hirsh, 1994). M, medial dopamine neurons VL, ventrolateral serotonin neurons DL, dorsolateral dopamine neurons. The hatched rectangle shows the region of the ventral ganglion that is shown in Figures 4 and 6. Figure 3. Sketch of DDC-expressing neurons in the Drosophila larval CNS. The CNS consists of brain lobes and a segmented ventral ganglion. Filled circles represent dopamine cells open circles represent serotonin cells grayed circles represent DDC cells that contain no detectable tyrosine hydroxylase or serotonin immunoreactivity, indicating that these cells may produce neither transmitter (Lundell and Hirsh, 1994). M, medial dopamine neurons VL, ventrolateral serotonin neurons DL, dorsolateral dopamine neurons. The hatched rectangle shows the region of the ventral ganglion that is shown in Figures 4 and 6.
Assembly and Maturation of the Drosophila Larval Neuromuscular Junction E Sian Gramates and Vivian Budnik... [Pg.440]

The Development of the Drosophila Larval Body Wall Muscles... [Pg.456]

These neurons were of different t3rpes interneurons, motor neurons, and neurosecretory cells. A small, stereotyped population of PLI neurons was found in the Drosophila larval central nervous system (CNS). In the periphery, proctolin-immunoreactive neuromuscular endings were identified on both visceral and skeletal muscle fibers. On the hindgut, the neuropeptide is associated with endings on intrinsic circular muscle fibers. In this study, the presence of proctolin was verified in the CNS, hindgut, and segmental body wall by tissue extraction followed by reverse-phase HPLC and quantitative bioassay. Evidence for a proctolin-like substance has also been found in the adult Colorado potato beetle... [Pg.54]

Kaun KR, Hendel T, Gerber B, Sokolowski MB (2007) Natural variation in Drosophila larval reward learning and memory due to a cGMP-dependent protein kinase. Ixam Mem 14 342-349... [Pg.192]

Ramaekers A, Magnenat E, Marin EC, Gendre N, Jefferis GSXE, Luo L, Stocker RF (2005) Glomerular maps without cellular redundancy at successive levels of the Drosophila larval olfactory circuit. Curr Biol 15 982-992... [Pg.194]

Hartenstein, V. (1988) Development of Drosophila larval sensory organs spatiotemporal pattern of sensory neurones, peripheral axonal pathways and sensilla differentiation. Development 102 869-886. [Pg.40]

These N -substituted adenosines have not been tested for mutagenic effects and if their mechanism of action is similar to N -hydroxymethyl adenosine, it would require the use of the Drosophila larval feeding system to detect activity. It is also not known whether their deoxyribose derivatives are inactive, as is the case with N -hydroxymethyl deoxyadenosine, or if they are incorporated into RNA or DNA. [Pg.508]

Guerrero, G., Rieff, D.F., Agarwal, G., Ball, R.W., Borst, A., et al. Heterogeneity in synaptic transmission along a Drosophila larval motm axon. Nat Neurosci. 8, 1188-1196 (2005)... [Pg.351]

Fig. 6.2 The role of gut microbiota in Drosophila larval growth. A nutrient-rich diet containing 5 % yeast or a nutrient-poor diet containing 0.5 % yeast was used in this study. The presence of microbiota enhances larval growth, especially in a nutrient-poor diet... Fig. 6.2 The role of gut microbiota in Drosophila larval growth. A nutrient-rich diet containing 5 % yeast or a nutrient-poor diet containing 0.5 % yeast was used in this study. The presence of microbiota enhances larval growth, especially in a nutrient-poor diet...
Fig. 6.3 The role of Acetobacteraceae in Drosophila larval growth. Microbe-free animals were mono-associated with each of three different Acetobacteraceae Acetobacter pomorum, Commensalibacter intestini, and Gluconobacter morbifer). The sizes of animals at the 120th hour of development after egg laying are shown... Fig. 6.3 The role of Acetobacteraceae in Drosophila larval growth. Microbe-free animals were mono-associated with each of three different Acetobacteraceae Acetobacter pomorum, Commensalibacter intestini, and Gluconobacter morbifer). The sizes of animals at the 120th hour of development after egg laying are shown...
Budnik V. and Gorczyca M. 1992. SSB, an antigen that selectively labels morphologically distinct synaptic boutons at the Drosophila larval neuromuscular junction. /. Neurobiol. 23 1054-1065. [Pg.197]

Figure 15.2. Drosophila larval neuromuscular junction system. A wandering third-instar larva is dissected open to reveal the ventral neuromusculature (see Figure 15.1). The peripheral nerve is severed and stimulated with a glass suction electrode. The muscle is recorded from in two-electrode voltage-clamp (TEVC) configuration. The postsynaptic excitatory junctional current (EJC) is recorded to assay synaptic transmission bottom inset). Top inset) Basis of synaptic transmission event being evoked by nerve stimulation and recorded via ion flux through muscle glutamate receptors. Figure 15.2. Drosophila larval neuromuscular junction system. A wandering third-instar larva is dissected open to reveal the ventral neuromusculature (see Figure 15.1). The peripheral nerve is severed and stimulated with a glass suction electrode. The muscle is recorded from in two-electrode voltage-clamp (TEVC) configuration. The postsynaptic excitatory junctional current (EJC) is recorded to assay synaptic transmission bottom inset). Top inset) Basis of synaptic transmission event being evoked by nerve stimulation and recorded via ion flux through muscle glutamate receptors.
Begg M. and Cruickshank W.J. 1963. A partial analysis of Drosophila larval haemolymph. Proc. R. Soc. Edinb. 68 215-236. [Pg.293]

Singh S. and Wu C.-R 1990. Properties of potassium currents and their role in membrane excitabihty in Drosophila larval muscle fibers. /. Exp. Biol. 152 59-76. [Pg.295]

Stewart B.A., Atwood H.L., Renger J.J., Wang J., and Wu C.-F. 1994. Improved stability of Drosophila larval neuromuscular preparations in haemolymph-like physiological solutions. /. Comp. Physiol. A 175 179-191. [Pg.295]

Wu C.-F., Suzuki N., and Poo M.-M. 1983. Dissociated neurons from normal and mutant Drosophila larval central nervous system in ceU culture. /. Neurosci. 3 1888-1899. [Pg.311]

Daul AL, Komori H, Lee C-Y (2010) Immunofluorescent staining of Drosophila larval brain tissue. Cold Spring Harb Protoc 2010 pdb.prot5460... [Pg.60]

Selcho M, Pauls D, Han K-A et al (2009) The role of dopamine in Drosophila larval classical olfactory conditioning. PLoS One 4 e5897... [Pg.61]

Selcho M, Pauls D, el Jundi B et al (2012) The role of octopamine and tyramine in Drosophila larval locomotion. J Comp Neurol 520 3764-3785... [Pg.62]

See other pages where Drosophila larval is mentioned: [Pg.601]    [Pg.323]    [Pg.579]    [Pg.96]    [Pg.490]    [Pg.147]    [Pg.150]    [Pg.294]   
See also in sourсe #XX -- [ Pg.139 , Pg.142 , Pg.143 , Pg.145 , Pg.146 , Pg.153 , Pg.159 , Pg.163 , Pg.164 , Pg.165 , Pg.171 , Pg.172 , Pg.173 , Pg.174 ]



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