Laura Post scite author profile

Hypodactyly (Hd) is a semidominant mutation in mice that maps in a genetic interval overlapping the Hoxa cluster. The profound deficiency of digital arch structures in Hd/Hd mice is consistent with a defect in a gene activated late in limb morphogenesis. We have determined the structure of the Hoxa13 gene and describe a 50-base pair deletion in the first exon of the Hd allele that probably arose from unequal recombination or misalignment between triplet repeats. It is predicted that no Hoxa13 protein is made from Hd mRNA. The hypodactyly limb phenotype is similar to that of Hoxd13-deficient mice in sharing defects along multiple axes and alterations in cartilage maturation; however, the overall effects on digital arch formation are more severe in Hd/Hd mice. Our results confirm the critical role of AbdB-like Hox genes in the development of the autopod, and add to the spectrum of mutations involving triplet repeats.

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Rheb Is Essential for Murine Development

Goorden

Hoogeveen‐Westerveld

Cheng

et al. 2011

Molecular and Cellular Biology

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Ras homolog enriched in brain (Rheb) couples growth factor signaling to activation of the target of rapamycin complex 1 (TORC1). To study its role in mammals, we generated a Rheb knockout mouse. In contrast to mTOR or regulatory-associated protein of mTOR (Raptor) mutants, the inner cell mass of Rheb ؊/؊ embryos differentiated normally. Nevertheless, Rheb ؊/؊ embryos died around midgestation, most likely due to impaired development of the cardiovascular system. Rheb ؊/؊ embryonic fibroblasts showed decreased TORC1 activity, were smaller, and showed impaired proliferation. Rheb heterozygosity extended the life span of tuberous sclerosis complex 1-deficient (Tsc1 ؊/؊ ) embryos, indicating that there is a genetic interaction between the Tsc1 and Rheb genes in mouse.

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Notch/Delta expression in the developing mouse lung

Post

Ternet

Hogan

2000

Mechanisms of Development

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Factors controlling the differentiation of the multipotent embryonic lung endoderm and mesoderm are poorly understood. Recent evidence that Delta-like 1 (Dll1) and other genes in the Notch/Delta signaling pathway are expressed in the embryonic mouse lung suggests that this pathway is important for cell fate decisions and/or the differentiation of lung cell types. Here, we report the localization of transcripts of several genes encoding members of the Notch/Delta pathway in the early mouse lung. Most genes are expressed in specific populations and so may contribute to cell diversification.

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Temporal and Region-Specific Requirements of αCaMKII in Spatial and Contextual Learning

Achterberg¹,

Buitendijk²,

Kool

et al. 2014

J. Neurosci.

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The ␣ isoform of the calcium/calmodulin-dependent protein kinase II (␣CaMKII) has been implicated extensively in molecular and cellular mechanisms underlying spatial and contextual learning in a wide variety of species. Germline deletion of Camk2a leads to severe deficits in spatial and contextual learning in mice. However, the temporal and region-specific requirements for ␣CaMKII have remained largely unexplored. Here, we generated conditional Camk2a mutants to examine the influence of spatially restricted and temporally controlled expression of ␣CaMKII. Forebrain-specific deletion of the Camk2a gene resulted in severe deficits in water maze and contextual fear learning, whereas mice with deletion restricted to the cerebellum learned normally. Furthermore, we found that temporally controlled deletion of the Camk2a gene in adult mice is as detrimental as germline deletion for learning and synaptic plasticity. Together, we confirm the requirement for ␣CaMKII in the forebrain, but not the cerebellum, in spatial and contextual learning. Moreover, we highlight the absolute requirement for intact ␣CaMKII expression at the time of learning.

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Laura Post

The molecular basis of hypodactyly (Hd): a deletion in Hoxa13 leads to arrest of digital arch formation

Rheb Is Essential for Murine Development

Notch/Delta expression in the developing mouse lung

Temporal and Region-Specific Requirements of αCaMKII in Spatial and Contextual Learning

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