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Literature DB >> 21508038

Orchestrating the synaptic network by tyrosine phosphorylation signalling.

Abstract

The establishment of a functional brain requires coordinated and stereotyped formation of synapses between neurons. For this, trans-synaptic molecular cues (synaptic organizers) are exchanged between a neuron and its target to organize appropriate synapses. The understanding of signalling mechanisms by which such synaptic organizers lead to synapse formation is just being elucidated. However, recent studies revealed that some of these cues act through receptor protein tyrosine kinases (RPTKs) or phosphatases (RPTPs). Synaptogenic RPTKs and RPTPs pattern synaptic network through affecting local protein-protein binding dynamics, changing the phosphorylation state of signalling cascades, or promoting gene expression. Each RPTK or RPTP has distinct roles in synapse formation, serving at different synapses or showing differential synaptogenic effects. Thus, tyrosine phosphorylation signalling plays critical roles in building the orchestrated synaptic circuitry in the brain.

Entities: Chemical

Mesh：

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Year: 2011 PMID： 21508038 PMCID： PMC3143439 DOI： 10.1093/jb/mvr047

Source DB: PubMed Journal: J Biochem ISSN： 0021-924X Impact factor: 3.387

55 in total

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5. Signal regulatory proteins (SIRPS) are secreted presynaptic organizing molecules.

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6. A biological function for the neuronal activity-dependent component of Bdnf transcription in the development of cortical inhibition.

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9. Trans-synaptic adhesion between NGL-3 and LAR regulates the formation of excitatory synapses.

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3. Anesthesia-Induced Neuronal Apoptosis in the Developing Retina: A Window of Opportunity.

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4. Distinct sets of FGF receptors sculpt excitatory and inhibitory synaptogenesis.

Authors: Ania Dabrowski; Akiko Terauchi; Cameron Strong; Hisashi Umemori
Journal: Development Date: 2015-04-29 Impact factor: 6.868

5. Mechanisms of splicing-dependent trans-synaptic adhesion by PTPδ-IL1RAPL1/IL-1RAcP for synaptic differentiation.

Authors: Atsushi Yamagata; Tomoyuki Yoshida; Yusuke Sato; Sakurako Goto-Ito; Takeshi Uemura; Asami Maeda; Tomoko Shiroshima; Shiho Iwasawa-Okamoto; Hisashi Mori; Masayoshi Mishina; Shuya Fukai
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6. Mice deficient in protein tyrosine phosphatase receptor type Z (PTPRZ) show reduced responsivity to methamphetamine despite an enhanced response to novelty.

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