Kathy Pinson scite author profile

The search to understand the mechanisms regulating brain wiring has relied on biochemical purification approaches in vertebrates and genetic approaches in invertebrates to identify molecular cues and receptors for axon guidance. Here we describe a phenotype-based gene-trap screen in mice designed for the large-scale identification of genes controlling the formation of the trillions of connections in the mammalian brain. The method incorporates an axonal marker, which helps to identify cell-autonomous mechanisms in axon guidance, and has generated a resource of mouse lines with striking patterns of axonal labelling, which facilitates analysis of the normal wiring diagram of the brain. Studies of two of these mouse lines have identified an in vivo guidance function for a vertebrate transmembrane semaphorin, Sema6A, and have helped re-evaluate that of the Eph receptor EphA4.

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Functional analysis of secreted and transmembrane proteins critical to mouse development

Mitchell

et al. 2001

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We describe the successful application of a modified gene-trap approach, the secretory trap, to systematically analyze the functions in vivo of large numbers of genes encoding secreted and membrane proteins. Secretory-trap insertions in embryonic stem cells can be transmitted to the germ line of mice with high efficiency and effectively mutate the target gene. Of 60 insertions analyzed in mice, one-third cause recessive lethal phenotypes affecting various stages of embryonic and postnatal development. Thus, secretory-trap mutagenesis can be used for a genome-wide functional analysis of cell signaling pathways that are critical for normal mammalian development and physiology.

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The Wnt co-receptors Lrp5 and Lrp6 are essential for gastrulation in mice

2004

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Studying Brain Development and Wiring Using a Modified Gene Trap Approach

Täte¹,

Scherz²,

Rayburn³

et al. 2001

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Studying Brain Development and Wiring Using a Modified Gene Trap Approach

Mitchell¹,

Goodrich²,

Leighton³

et al. 2001

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Kathy Pinson

Defining brain wiring patterns and mechanisms through gene trapping in mice

Functional analysis of secreted and transmembrane proteins critical to mouse development

The Wnt co-receptors Lrp5 and Lrp6 are essential for gastrulation in mice

Studying Brain Development and Wiring Using a Modified Gene Trap Approach

Studying Brain Development and Wiring Using a Modified Gene Trap Approach

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