The occurrence and abundance of entomopathogenic fungi were analysed in 203 soil samples of the Moroccan endemic forests of Argania spinosa, the world main refuge of the Mediterranean fruit fly, Ceratitis capitata. Using the Galleria baiting method and selective media, entomopathogenic fungi were isolated from 186 of the 203 (91.62%) soil samples, with only three species found: Beauveria bassiana (Balsamo) Vuillemin, Metarhizium anisopliae (Metschnikoff) Sorokin and Paecilomyces lilacinus (Thom.) Samson. B. bassiana was the most widespread entomopathogenic fungi (90.64%) in the Argan forest whereas M. anisopliae was less common (15.27%) and P. lilacinus was very rare (1.48%). This is the first report of natural occurrence of M. anisopliae and P. lilacinus in Morocco. Furthermore, 118 Moroccan B. bassiana isolates were studied for their pathogenicity to C. capitata and thermotolerance. Most of these autochtonous B. bassiana isolates were virulent (86.44%) to Medfly pupae and tolerant (55.08%) to temperature stress at 45°C for 2 h. Only 60.17% of Moroccan B. bassiana isolates might be considered as highly entomopathogenic and will serve as a source of potential biological control agents to C. capitata. The percentage of thermotolerant and pathogenic B. bassiana to C. capitata were shown to decrease significantly at winter time characterized by low temperatures and absence of any noticeable medfly in the Argan forest. The occurrence, thermotolerance and virulence of B. bassiana isolates to C. capitata seemed to be related to the sampling periods and location. Our data are discussed with respect to fungal ecology and biocontrol potential of B. bassiana isolates in relation to their habitat.
Mitochondrial mutations are associated with a wide spectrum of human diseases. A common class of point mutations affects tRNA genes, and mutations in the tRNA-leu(UUR) gene (MTTL1) are the most frequently detected. In earlier studies, we showed that lung carcinoma cybrid cells containing high levels (greater than 95%) of mutated mtDNA from a patient with the pathological nucleotide pair (np) 3243 tRNA-leu(UUR) mutation can remain genotypically stable over time, and exhibit severe defects in mitochondrial respiratory metabolism. From such a cybrid containing 99% mutated mtDNA, we have isolated a spontaneous derivative that retains mutant mtDNA at this level but which has nevertheless reverted to the wild-type phenotype, based on studies of respiration, growth in selective media, mitochondrial protein synthesis and biogenesis of mitochondrial membrane complexes. The cells are heteroplasmic for a novel anticodon mutation in tRNA-leu(CUN) at np 12300, predicted to generate a suppressor tRNA capable of decoding UUR leucine codons. The suppressor mutation represents approximately 10% of the total mtDNA, but was undetectable in a muscle biopsy sample taken from the original patient or in the parental cybrid. These results indicate that the primary biochemical defect in cells with high levels of np 3243 mutated mtDNA is the inability to translate UUR leucine codons.
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