Faculty Opinions recommendation of Linking a mutation to survival in wild mice.

AbstractMercury accumulation has been proposed as a toxic factor that causes neurodegenerative diseases. However, the hazardous health effects of gaseous elemental mercury exposure on the spinal cord in volcanic areas have not been reported previously in the literature. To evaluate the presence of volcanogenic inorganic mercury in the spinal cord, a study was carried out in São Miguel island (Azores, Portugal) by comparing the spinal cord of mice exposed chronically to an active volcanic environment (Furnas village) with individuals not exposed (Rabo de Peixe village), through the autometallographic silver enhancement histochemical method. Moreover, a morphometric and quantification analysis of the axons was carried out. Results exhibited mercury deposits at the lumbar level of the spinal cord in the specimens captured at the site with volcanic activity (Furnas village). A decrease in axon calibre and axonal atrophy was also observed in these specimens. Given that these are relevant hallmarks in the neurodegenerative pathologies, our results highlight the importance of the surveillance of the health of populations chronically exposed to active volcanic environments.

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AN OUTBREAK OF INFECTION DUE TO STREPTOBACILLUS MONILIFORMIS AMONG WILD MICE

The Medical Journal of Australia ◽

10.5694/j.1326-5377.1941.tb95301.x ◽

1941 ◽

Vol 1 (12) ◽

pp. 357-359 ◽

Cited By ~ 4

Author(s):

Stephen Williams

Keyword(s):

Wild Mice ◽

Streptobacillus Moniliformis

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Variation in Brain Acetylcholinesterase in the Wild Mice Mus musculus and Reithrodontomys megalotis

Physiological Zoology ◽

10.1086/physzool.34.4.30161210 ◽

1961 ◽

Vol 34 (4) ◽

pp. 312-318 ◽

Cited By ~ 2

Author(s):

Howard S. Shellhammer

Keyword(s):

Mus Musculus ◽

Wild Mice ◽

In The Wild ◽

Reithrodontomys Megalotis ◽

Brain Acetylcholinesterase

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TL Genes in Asian Wild Mice: The Evolutionary Conserved Nonclassical Class I Genes of the Major Histocompatibility Complex

Genetics In Wild Mice ◽

10.1159/000424156 ◽

2015 ◽

pp. 159-177

Author(s):

Yuichi Obata ◽

Kazuo Moriwaki ◽

Toshihiko Shiroishi ◽

Yoko Satta ◽

Naoyuki Takahata ◽

...

Keyword(s):

Major Histocompatibility Complex ◽

Class I ◽

Major Histocompatibility ◽

Wild Mice ◽

Histocompatibility Complex ◽

Nonclassical Class

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Insights into mammalian biology from the wild house mouse Mus musculus

eLife ◽

10.7554/elife.05959 ◽

2015 ◽

Vol 4 ◽

Cited By ~ 45

Author(s):

Megan Phifer-Rixey ◽

Michael W Nachman

Keyword(s):

House Mouse ◽

Mus Musculus ◽

Genetic Model ◽

Inbred Strains ◽

Mendelian Inheritance ◽

Model Organisms ◽

House Mice ◽

Small Subset ◽

Wild Mice ◽

Wide Range

The house mouse, Mus musculus, was established in the early 1900s as one of the first genetic model organisms owing to its short generation time, comparatively large litters, ease of husbandry, and visible phenotypic variants. For these reasons and because they are mammals, house mice are well suited to serve as models for human phenotypes and disease. House mice in the wild consist of at least three distinct subspecies and harbor extensive genetic and phenotypic variation both within and between these subspecies. Wild mice have been used to study a wide range of biological processes, including immunity, cancer, male sterility, adaptive evolution, and non-Mendelian inheritance. Despite the extensive variation that exists among wild mice, classical laboratory strains are derived from a limited set of founders and thus contain only a small subset of this variation. Continued efforts to study wild house mice and to create new inbred strains from wild populations have the potential to strengthen house mice as a model system.

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