Familial hypertrophic cardiomyopathy (HCM) is a primary myocardial disease with a prevalence of 1 in 500 in human beings. Causative mutations have been identified in several sarcomeric genes, including the cardiac myosin binding protein C (MYBPC3) gene. Heritable HCM also exists in a large-animal model, the cat, and we have previously reported a mutation in the MYBPC3 gene in the Maine coon breed. We now report a separate mutation in the MYBPC3 gene in ragdoll cats with HCM. The mutation changes a conserved arginine to tryptophan and appears to alter the protein structure. The ragdoll is not related to the Maine coon and the mutation identified is in a domain different from that of the previously identified feline mutation. The identification of two separate mutations within this gene in unrelated breeds suggests that these mutations occurred independently rather than being passed on from a common founder.
To study age‐related peroxidation in annual beech (Fagus silvatica Mill.) leaves and perennial fir (Abies alba Mill.) needles, the concentration changes of the antioxidants vitamin C (ascorbic acid) and vitamin E (α‐tocopherol) present in leaves and needles were determined, and the formation of thiobarbituric acid reactants was measured as an index of age‐related lipid peroxidation. With age, the content of the lipid‐soluble antioxidant vitamin E increased, and the increase was higher in beech leaves than in fir needles. A comparable age‐dependent increase of the vitamin C content was found neither in leaves nor in needles. The concentration ratio of the vitamin C to the vitamin E present in leaves and needles, which determines the potency of the anti oxidative system consisting of both vitamins, declined with age. This decline was directly related to a higher peroxidation of lipids. The extent of age‐related peroxidative damage of cells seems to be controlled by the potency of anti oxidative systems.
A large percentage of the repetitive elements in mammalian genomes are retroelements, which have been moved primarily by LINE-1 retrotransposons and endogenous retroviruses. Although LINE-1 elements have remained active throughout the mammalian radiation, specific groups of endogenous retroviruses generally remain active for comparatively shorter periods of time. Identification of an unusual extinction of LINE-1 activity in a group of South American rodents has opened a window for examination of the interplay in mammalian genomes between these ubiquitous retroelements. In the course of a search for any type of repetitive sequences whose copy numbers have substantially changed in Oryzomys palustris, a species that has lost LINE-1 activity, versus Sigmodon hispidus, a closely related species retaining LINE-1 activity, we have identified an endogenous retrovirus family differentially amplified in these two species. Analysis of three full-length, recently transposed copies, called mysTR elements, revealed gag, pro, and pol coding regions containing stop codons which may have accumulated either before or after retrotransposition. Isolation of related sequences in S. hispidus and the LINE-1 active outgroup species, Peromyscus maniculatus, by PCR of a pro-pol region has allowed determination of copy numbers in each species. Unusually high copy numbers of approximately 10,000 in O. palustris versus 1,000 in S. hispidus and 4,500 in the more distantly related P. maniculatus leave open the question of whether there is a connection between endogenous retrovirus activity and LINE-1 inactivity. Nevertheless, these independent expansions of mysTR represent recent amplifications of this endogenous retrovirus family to unprecedented levels.Mammals contain a great array of repetitive sequences in their genomes. These sequences range from tandem repeats to ancient DNA transposons to a vast range of retroelements that have been deposited throughout the mammalian radiation (22,35,40). Retroelements alone constitute Ͼ43% of the Mus musculus genome (35) and have played significant roles in shaping the evolution of mammalian genomes and controlling gene function. The major autonomous retroelements are the non-long terminal repeat (LTR) elements, consisting of LINEs, and the LTR-containing elements, composed primarily of endogenous retroviruses, respectively, comprising 21% and 8
Several bacterial strains were examined for their ability to degrade the nitroaromatic explosive 2,4,6-trinitrotoluene (TNT). The strains examined included various clostridial strains isolated from a 4-year-old munition enrichment, related clostridial strains obtained from a culture collection, two enteric bacteria, and three lactobacilli. All Clostridium species tested were able to reduce TNT rapidly in a complex medium. In cell suspension experiments, these strains were also able to reduce 2,4-diamino-6-nitrotoluene (DANT) to 2,4,6-triaminotoluene (TAT) and to produce a compound that is not yet identified; thus, they could not be distinguished from one another with regard to the pathway of transformation. The enteric strains and the lactobacilli were able to perform the initial reduction of TNT, but none was capable of reducing DANT in cell suspensions.
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