Florian Brüsselbach scite author profile

Florian Brüsselbach

3Publications

52Citation Statements Received

65Citation Statements Given

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Ruhr University Bochum

Publications

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Activity and coexpression of Drosophila black with ebony in fly optic lobes reveals putative cooperative tasks in vision that evade electroretinographic detection

Ziegler

Brüsselbach

Hovemann

2013

J of Comparative Neurology

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Drosophila mutants black and ebony show pigmentation defects in the adult cuticle, which disclose their cooperative activity in β-alanyl-dopamine formation. In visual signal transduction, Ebony conjugates β-alanine to histamine, forming β-alanyl-histamine or carcinine. Mutation of ebony disrupts signal transduction and reveals an electroretinogram (ERG) phenotype. In contrast to the corresponding cuticle phenotype of black and ebony, there is no ERG phenotype observed when black expression is disrupted. This discrepancy calls into question the longstanding assumption of Black and Ebony interaction. The purpose of this study was to investigate the role of Black and Ebony in fly optic lobes. We excluded a presynaptic histamine uptake pathway and confirmed histamine recycling via carcinine formation in glia. β-Alanine supply for this pathway is independent of enzymatic synthesis by Black and β-alanine synthase Pyd3. Two versions of Black are expressed in vivo. Black is a specific aspartate decarboxylase with no activity on glutamate. RNA in situ hybridization and anti-Black antisera localized Black expression in the head. Immunolabeling revealed expression in lamina glia, in large medulla glia, in glia of the ocellar ganglion, and in astrocyte-like glia below the ocellar ganglion. In these glia types, Black expression is strictly accompanied by Ebony expression. Activity, localization, and strict coexpression with Ebony strongly indicate a specific mode of functional interaction that, however, evades ERG detection.

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Alternative Tasks of Drosophila Tan in Neurotransmitter Recycling Versus Cuticle Sclerotization Disclosed by Kinetic Properties

Aust

Brüsselbach

Pütz

et al. 2010

Journal of Biological Chemistry

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Upon a stimulus of light, histamine is released from Drosophila photoreceptor axonal endings. It is taken up into glia where Ebony converts it into ␤-alanyl-histamine (carcinine). Carcinine moves into photoreceptor cells and is there cleaved into ␤-alanine and histamine by Tan activity. Tan thus provides a key function in the recycling pathway of the neurotransmitter histamine. It is also involved in the process of cuticle formation. There, it cleaves ␤-alanyl-dopamine, a major component in cuticle sclerotization. Active Tan enzyme is generated by a selfprocessing proteolytic cleavage from a pre-protein at a conserved Gly-Cys sequence motif. We confirmed the dependence on the Gly-Cys motif by in vitro mutagenesis. Processing time delays the rise to full Tan activity up to 3 h behind its putative circadian RNA expression in head. To investigate its pleiotropic functions, we have expressed Tan as a His 6 fusion protein in Escherichia coli and have purified it to homogeneity. We found wild type and mutant His 6 -Tan protein co-migrating in size exclusion chromatography with a molecular weight compatible with homodimer formation. We conclude that dimer formation is preceding pre-protein processing. Drosophila tan 1 null mutant analysis revealed that amino acid Arg 217 is absolutely required for processing. Substitution of Met 256 in tan 5 , on the contrary, does not affect processing extensively but renders it prone to degradation. This also leads to a strong tan phenotype although His 6 -Tan 5 retains activity. Kinetic parameters of Tan reveal characteristic differences in K m and k cat values of carcinine and ␤-alanyl-dopamine cleavage, which conclusively illustrate the divergent tasks met by Tan.

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Activity and coexpression of Drosophila black with ebony in fly optic lobes reveals putative cooperative tasks in vision that evade electroretinographic detection

Ziegler

Brüsselbach

Hovemann

2013

J of Comparative Neurology

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Drosophila mutants black and ebony show pigmentation defects in the adult cuticle, which disclose their cooperative activity in β‐alanyl‐dopamine formation. In visual signal transduction, Ebony conjugates β‐alanine to histamine, forming β‐alanyl‐histamine or carcinine. Mutation of ebony disrupts signal transduction and reveals an electroretinogram (ERG) phenotype. In contrast to the corresponding cuticle phenotype of black and ebony, there is no ERG phenotype observed when black expression is disrupted. This discrepancy calls into question the longstanding assumption of Black and Ebony interaction. The purpose of this study was to investigate the role of Black and Ebony in fly optic lobes. We excluded a presynaptic histamine uptake pathway and confirmed histamine recycling via carcinine formation in glia. β‐Alanine supply for this pathway is independent of enzymatic synthesis by Black and β‐alanine synthase Pyd3. Two versions of Black are expressed in vivo. Black is a specific aspartate decarboxylase with no activity on glutamate. RNA in situ hybridization and anti‐Black antisera localized Black expression in the head. Immunolabeling revealed expression in lamina glia, in large medulla glia, in glia of the ocellar ganglion, and in astrocyte‐like glia below the ocellar ganglion. In these glia types, Black expression is strictly accompanied by Ebony expression. Activity, localization, and strict coexpression with Ebony strongly indicate a specific mode of functional interaction that, however, evades ERG detection. © 2013 Wiley Periodicals, Inc.

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