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101.
Summary A striking proportion of Algerian subjects was reported among patients with congenital recessive methemoglobinemia due to cytochrome b5 reductase deficiency (Kaplan et al. 1979).A population survery was carried out in red blood cells from 1000 algerian subjects. In 16 subjects, the cytochrome b5 reductase activity was diminished by 50%. Family studies indicated the presence of a defective allele with an overall gene frequency of 0.008. Immunologically cross-reacting material was found in red cells with low cytochrome b5 reductase activity. Leukocytes exhibited normal levels of enzyme in some families and low levels in others suggesting that at least two different deficient alleles at the DIA1 locus were present in the Algerian population. A higher prevalence of the deficient allele(s) was found in subjects of Kabyle origin. 相似文献
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Previous experiments have shown that treatment of the melanophores of Pachymedusa (Agalychnis) dacnicolor with Melanophore-Stimulating Hormone (MSH) + puromycin causes the nuclear envelope to breakdown leading to the formation of discontinuous vesicles and the hyperdispersion of chromatin. We show here that these cells recover, reform their nuclear envelopes, and recondense their chromatin, both in the presence and in the absence of actinomycin D (actD). After recovery, these cells respond to MSH by melanosome dispersion. From these results, the following conclusions or observations are drawn:
- 1. 1, Reformation of nuclear envelope does not require that the chromatin be condensed into chromosomes as in mitosis.
- 2. 2, The new nuclear envelope is derived primarily from reutilization of the membrane vesicles produced during nuclear envelope breakdown, somewhat similar to mitosis. There may also be contributions from other membranous organelles.
- 3. 3, The hyperdispersed chromatin appears not to be subject to extensive attack by endogenous nucleases as the recovered cells are of good ultrastructure and can respond tropically to MSH.
- 4. 4, The presence of actD appears not to prevent the conversion of the hyperdispersed chromatin into the normal pattern.
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Triton-insoluble cytoskeleton of nonpigment cells has bound protein kinase that phosphorylates, with or without added cAMP, tubulins and the intermediate filament proteins p60, p56, p53, and p45a to give multiple charge variants. In the absence of 8-Br-cAMP, Triton-insoluble cytoskeletons from xanthophores also phosphorylate p60, p56, and p45a, but not p53; tubulin phosphorylation may also be reduced. In the presence of 8-Br-cAMP, p53, as well as several other peptides, are phosphorylated. One of these latter peptides was identified as the carotenoid droplet (pigment organelle) protein p57, whose phosphorylation and dephosphorylation precede pigment dispersion and aggregation respectively (Lynch et al.: J. Biol. Chem. 261:4204-4211, 1986). The amount of pp57 produced depends on the state of pigment distribution in the xanthophores used to prepare the cytoskeletons for labeling. With cytoskeletons from xanthophores with aggregated pigment, pp57 is a major labeled phosphoprotein seen in two-dimensional gels. With cytoskeletons prepared from xanthophores with dispersed pigment, the yield of labeled pp57 is greatly reduced (by at least 90%). Together with earlier results, we propose that, in the aggregated state, p57 serves to bind carotenoid droplets to the cytoskeletons, most likely the microtubules. The significance of other cAMP-dependent phosphorylation reactions is unknown but may be related to cAMP-induced cytoskeleton rearrangement in intact xanthophores. 相似文献