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Neural cells generate and receive many types of signals that involve biochemical pathways. Interactions between such biochemical pathways involving positive and negative feedback loops lead to emergent system properties. Due to this interdependence, the involvement of biochemical pathways in information processing increases the computational and integrative capacity of a neuron.
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Neural Cells Crosstalk The notion of crosstalk, referring to the case that two inputs work through distinct signaling pathways but cooperate to regulate cell growth. Signaling pathways enable cells to sense changes in their environment, to integrate external or internal signals, and to respond to them by changes in transcriptional activity, metabolism, or other regulatory measures. The proper functioning of these pathways is crucial for adaptation and survival under varying conditions, but also for differentiation and cell fate. In multicellular organisms, signaling pathways play an important role in neural cell plasticity. The neural cell crosstalk in tissues involved a wide range of signaling pathway and gene transcription, affect the alternative splicing, biosynthesis, posttranslational modification, transport to the cell periphery, and expression in the brain and other organs during development. Overview of Cells Crosstalk Crosstalk describes how signal integration from multiple inputs within a response network affects a common biological output. In our opinion, crosstalk exists between two pathways when both of the following criteria are met: The combinatorial signal from both pathways should produce a different response than that triggered by each pathway alone The two pathways must be connected directly or indirectly Find more: https://www.creative-diagnostics.com/neural-cells-crosstalk.htm