Knockout and knock-in mouse models to study purinergic signaling
Knockout and knock-in mouse models to study purinergic signaling
Purinergic signaling involves extracellular purines and pyrimidines acting upon specific cell surface purinoceptors classified into the P1, P2X, and P2Y families for nucleosides and nucleotides. This widespread signaling mechanism is active in all major tissues and influences a range of functions in health and disease. Orthologs to all but one of the human purinoceptors have been found in mouse, making this laboratory animal a useful model to study their function. Indeed, analyses of purinoceptors via knock-in or knockout approaches to produce gain or loss of function phenotypes have revealed several important therapeutic targets. None of the homozygous purinoceptor knockouts proved to be developmentally lethal, which suggest that either these receptors are not involved in key developmental processes or that the large number of receptors in each family allowed for functional compensation. Different models for the same purinoceptor often show compatible phenotypes but there have been examples of significant discrepancies. These revealed unexpected differences in the structure of human and mouse genes and emphasized the importance of the genetic background of different mouse strains. In this chapter, we provide an overview of the current knowledge and new trends in the modifications of purinoceptor genes in vivo. We discuss the resulting phenotypes, their applications and relative merits and limitations of mouse models available to study purinoceptor subtypes.
knock-in, knockout, genetically modified animals, purinergic signaling, purinoceptor
17-43
Rumney, Robin Mark Howard
fa3de9f8-b604-44e2-9e72-3e57980ce67f
Gorecki, Darek
154a91f6-6d35-4ac0-89f7-42828ab7c169
Rumney, Robin Mark Howard
fa3de9f8-b604-44e2-9e72-3e57980ce67f
Gorecki, Darek
154a91f6-6d35-4ac0-89f7-42828ab7c169
Rumney, Robin Mark Howard and Gorecki, Darek
(2019)
Knockout and knock-in mouse models to study purinergic signaling.
In,
Pelegrín, Pablo
(ed.)
Purinergic Signalling: Methods and Protocols.
(Methods in Molecular Biology)
Springer Wien, .
(doi:10.1007/978-1-4939-9717-6_2).
Record type:
Book Section
Abstract
Purinergic signaling involves extracellular purines and pyrimidines acting upon specific cell surface purinoceptors classified into the P1, P2X, and P2Y families for nucleosides and nucleotides. This widespread signaling mechanism is active in all major tissues and influences a range of functions in health and disease. Orthologs to all but one of the human purinoceptors have been found in mouse, making this laboratory animal a useful model to study their function. Indeed, analyses of purinoceptors via knock-in or knockout approaches to produce gain or loss of function phenotypes have revealed several important therapeutic targets. None of the homozygous purinoceptor knockouts proved to be developmentally lethal, which suggest that either these receptors are not involved in key developmental processes or that the large number of receptors in each family allowed for functional compensation. Different models for the same purinoceptor often show compatible phenotypes but there have been examples of significant discrepancies. These revealed unexpected differences in the structure of human and mouse genes and emphasized the importance of the genetic background of different mouse strains. In this chapter, we provide an overview of the current knowledge and new trends in the modifications of purinoceptor genes in vivo. We discuss the resulting phenotypes, their applications and relative merits and limitations of mouse models available to study purinoceptor subtypes.
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e-pub ahead of print date: 24 October 2019
Keywords:
knock-in, knockout, genetically modified animals, purinergic signaling, purinoceptor
Identifiers
Local EPrints ID: 497346
URI: http://eprints.soton.ac.uk/id/eprint/497346
PURE UUID: 7fbd8834-d3c6-4846-a96c-a1b203bd5e2b
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Date deposited: 20 Jan 2025 17:58
Last modified: 21 Jan 2025 02:48
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Contributors
Author:
Robin Mark Howard Rumney
Author:
Darek Gorecki
Editor:
Pablo Pelegrín
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