Steven D. Fenster scite author profile

Synapse-associated proteins (SAPs) are constituents of the pre- and postsynaptic submembraneous cytomatrix. Here, we present SAP102, a novel 102kDa SAP detected in dendritic shafts and spines of asymmetric type 1 synapses. SAP102 is enriched in preparations of synaptic junctions, where it biochemically behaves as a component of the cortical cytoskeleton. Antibodies directed against NMDA receptors coimmunoprecipitate SAP102 from rat brain synaptosomes. Recombinant proteins containing the carboxy-terminal tail of NMDA receptor subunit NR2B interact with SAP102 from rat brain homogenates. All three PDZ domains in SAP102 bind the cytoplasmic tail of NR2B in vitro. These data represent direct evidence that in vivo SAP102 is involved in linking NMDA receptors to the submembraneous cytomatrix associated with postsynaptic densities at excitatory synapses.

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Piccolo, a Presynaptic Zinc Finger Protein Structurally Related to Bassoon

Fenster

Chung

Zhai

et al. 2000

Neuron

271

253

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Piccolo is a novel component of the presynaptic cytoskeletal matrix (PCM) assembled at the active zone of neurotransmitter release. Analysis of its primary structure reveals that Piccolo is a multidomain zinc finger protein structurally related to Bassoon, another PCM protein. Both proteins were found to be shared components of glutamatergic and GABAergic CNS synapses but not of the cholinergic neuromuscular junction. The Piccolo zinc fingers were found to interact with the dual prenylated rab3A and VAMP2/Synaptobrevin II receptor PRA1. We show that PRA1 is a synaptic vesicle-associated protein that is colocalized with Piccolo in nerve terminals of hippocampal primary neurons. These data suggest that Piccolo plays a role in the trafficking of synaptic vesicles (SVs) at the active zone.

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Interactions between Piccolo and the Actin/Dynamin-binding Protein Abp1 Link Vesicle Endocytosis to Presynaptic Active Zones

Fenster

Kessels

Qualmann

et al. 2003

Journal of Biological Chemistry

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Piccolo is a high molecular weight multi-domain protein shown to be a structural component of the presynaptic CAZ (cytoskeletal matrix assembled at active zones). These features indicate that Piccolo may act to scaffold proteins involved in synaptic vesicle endo-and exocytosis near their site of action. To test this hypothesis, we have utilized a functional cell-based endocytosis assay and identified the N-terminal proline-rich Q domain in Piccolo as a region that interferes with clathrinmediated endocytosis. Utilizing the Piccolo Q domain as bait in a yeast two-hybrid screen, we have identified the F-actin-binding protein Abp1 (also called SH3P7 or HIP-55) as a potential binding partner for this domain. The physiological relevance of this interaction is supported by in vitro binding studies, colocalization in nerve terminals, in vivo recruitment studies, and immunoprecipitation experiments. Intriguingly, Abp1 binds to both Factin and the GTPase dynamin and has been implicated in linking the actin cytoskeleton to clathrin-mediated endocytosis. Our results suggest that Piccolo, as a structural protein of the CAZ, may serve to localize Abp1 at active zones where it can actively participate in creating a functional connection between the dynamic actin cytoskeleton and synaptic vesicle recycling.

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Real‐Time PCR

Fraga

Meulia

Fenster

2014

CP Essential Lab Tech

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Real‐time PCR is a recent modification to the polymerase chain reaction that allows precise quantification of specific nucleic acids in a complex mixture by fluorescent detection of labeled PCR products. Detection can be accomplished using specific as well as nonspecific fluorescent probes. Real‐time PCR is often used in the quantification of gene expression levels. Prior to using real‐time PCR to quantify a target message, care must be taken to optimize the RNA isolation, primer design, and PCR reaction conditions so that accurate and reliable measurements can be made. This short overview of real‐time PCR discusses basic principles behind real‐time PCR, some optimization and experimental design considerations, and how to quantify the data generated using both relative and absolute quantification approaches. Useful Web sites and texts that expand upon topics discussed are also listed. Curr. Protoc. Essential Lab. Tech. 8:10.3.1‐10.3.40. © 2014 by John Wiley & Sons, Inc.

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Steven D. Fenster

SAP102, a Novel Postsynaptic Protein That Interacts with NMDA Receptor Complexes In Vivo

Piccolo, a Presynaptic Zinc Finger Protein Structurally Related to Bassoon

Interactions between Piccolo and the Actin/Dynamin-binding Protein Abp1 Link Vesicle Endocytosis to Presynaptic Active Zones

Real‐Time PCR

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