July 1990
Volume 31, Issue 7
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Articles  |   July 1990
Characterization of Cat-2t, a radiation-induced dominant cataract mutation in mice.
Author Affiliations
  • J Graw
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • W Bors
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • P M Gopinath
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • S Merkle
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • C Michel
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • P Reitmeir
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • E Schäffer
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • K H Summer
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
  • A Wulff
    GSF-Institut für Säugetiergenetik, Neuherberg, Federal Republic of Germany.
Investigative Ophthalmology & Visual Science July 1990, Vol.31, 1353-1361. doi:
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      J Graw, W Bors, P M Gopinath, S Merkle, C Michel, P Reitmeir, E Schäffer, K H Summer, A Wulff; Characterization of Cat-2t, a radiation-induced dominant cataract mutation in mice.. Invest. Ophthalmol. Vis. Sci. 1990;31(7):1353-1361.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

A dominant cataract mutation was detected recently among the offspring of x-ray-irradiated male mice. The mutation, which causes total lens opacity, has provisionally been designated by the gene symbol Cat-2t. In the lenses of heterozygous and homozygous Cat-2t mutants, the epithelial and fiber cells were swollen and the lens capsule was ruptured. The histologic analysis demonstrated a complete destruction of the cellular organization of the lens, which might be caused by its altered developmental processes. The data derived from biochemical investigations indicate that biochemistry of the cataractous Cat-2t lenses is affected: the osmotic state as indicated by the increased water content and increased Na(+)-K(+)-adenosinetriphosphatase (ATPase) activity; the energy state as indicated by the decreased adenosine triphosphate (ATP) concentration; and the redox state as indicated by the enhanced content of oxidized glutathione. Additionally, the lenticular protein composition is altered because of the presence of vimentin in the water-soluble fraction. This cannot be explained by the enhanced crosslinking activity of transglutaminase. The changes of the osmotic, energy, and redox states are considered to be secondary in relation to the altered lenticular development. In contrast, the variations concerning vimentin and transglutaminase might be a biochemical indication of the changed development. Possible similarities to other dominantly expressed murine cataract mutants are discussed.

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