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Summary Implantation of female fat body and ovary discs into the young male pupae brought about vitellin accumulation in the mature eggs developed in male hosts. The amounts of vitellin increased according to the increasing amounts of implanted fat body, and the vitellin synthesis activity of female fat body in male hosts was similar to that found in female hosts. When implanted into male pupae, larval fat body having no ability to produce vitellogenin in situ could bring about vitellin accumulation in the eggs. No accumulation of vitellin was induced by implantation of male fat body. 相似文献
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Aims
Although many studies on the mechanism of Al toxicity and tolerance have been conducted independently, events occurring during the recovery process from Al injury is limited. This study was to investigate Al toxicity recovery mechanism focusing in morphological and physiological aspect.Methods
We investigated the mechanisms underlying Al toxicity recovery in terms of oxidative stress using the pea root apex as a model system.Results
The accumulation of reactive oxygen species was remarkably high in the root under continued Al treatment but decreased in the recovering root. The superoxide anion exuded in the presence of nicotinamide adenine dinucleotide phosphate (NADPH) showed a similar tendency with respect to the accumulation of reactive oxygen species. A similar pattern of lignin content and superoxide dismutase activity was observed among the treatments, while the increased peroxidation in the root under continued Al treatment did not decline with recovery treatment. A longitudinal section of the root under continued Al treatment showed the accumulation of superoxide anion, lignin and peroxide (H2O2) at the epidermal and outer cortex region where the Al induced injuries, including ruptures, are detected.Conclusions
Oxidative stress is associated with the mechanism of Al toxicity recovery. The recovery process might include the elongation of the central cylinder as a consequence of the oxidative stress-induced formation of the zonal region (ZR). The results further suggest a plausible role for the ZR in the programmed cell death-like function involved in Al toxicity recovery. 相似文献65.
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Atsushi Tabata Kota Nakano Kazuto Ohkura Toshifumi Tomoyasu Ken Kikuchi Robert A. Whiley Hideaki Nagamune 《Journal of bacteriology》2013,195(5):1090-1099
Streptococcus anginosus is a member of the anginosus group streptococci, which form part of the normal human oral flora. In contrast to the pyogenic group streptococci, our knowledge of the virulence factors of the anginosus group streptococci, including S. anginosus, is not sufficient to allow a clear understanding of the basis of their pathogenicity. Generally, hemolysins are thought to be important virulence factors in streptococcal infections. In the present study, a sag operon homologue was shown to be responsible for beta-hemolysis in S. anginosus strains by random gene knockout. Interestingly, contrary to pyogenic group streptococci, beta-hemolytic S. anginosus was shown to have two tandem sagA homologues, encoding streptolysin S (SLS)-like peptides, in the sag operon homologue. Gene deletion and complementation experiments revealed that both genes were functional, and these SLS-like peptides were essential for beta-hemolysis in beta-hemolytic S. anginosus. Furthermore, the amino acid sequence of these SLS-like peptides differed from that of the typical SLS of S. pyogenes, especially in their propeptide domain, and an amino acid residue indicated to be important for the cytolytic activity of SLS in S. pyogenes was deleted in both S. anginosus homologues. These data suggest that SLS-like peptides encoded by two sagA homologues in beta-hemolytic S. anginosus may be potential virulence factors with a different structure essential for hemolytic activity and/or the maturation process compared to the typical SLS present in pyogenic group streptococci. 相似文献
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Yota Tsuge Shougo Yamamoto Masako Suda Masayuki Inui Hideaki Yukawa 《Applied microbiology and biotechnology》2013,97(15):6693-6703
We previously demonstrated the simplicity of oxygen-deprived Corynebacterium glutamicum to produce d-lactate, a primary building block of next-generation biodegradable plastics, at very high optical purity by introducing heterologous D-ldhA gene from Lactobacillus delbrueckii. Here, we independently evaluated the effects of overexpressing each of genes encoding the ten glycolytic enzymes on d-lactate production in C. glutamicum. We consequently show that while the reactions catalyzed by glucokinase (GLK), glyceraldehyde 3-phosphate dehydrogenase (GAPDH), phosphofructokinase (PFK), triosephosphate isomerase (TPI), and bisphosphate aldolase had positive effects on d-lactate productivity by increasing 98, 39, 15, 13, and 10 %, respectively, in 10 h reactions in minimal salts medium, the reaction catalyzed by pyruvate kinase had large negative effect by decreasing 70 %. The other glycolytic enzymes did not affect d-lactate productivity when each of encoding genes was overexpressed. It is noteworthy that all reactions associated with positive effects are located upstream of glycerate-1,3-bisphosphate in the glycolytic pathway. The d-lactate yield also increased by especially overexpressing TPI encoding gene up to 94.5 %. Interestingly, overexpression of PFK encoding gene reduced the yield of succinate, one of the main by-products of d-lactate production, by 52 %, whereas overexpression of GAPDH encoding gene increased succinate yield by 26 %. Overexpression of GLK encoding gene markedly increased the yield of dihydroxyacetone and glycerol by 10- and 5.8-fold in exchange with decreasing the d-lactate yield. The effect of overexpressing glycolytic genes was also evaluated in 80 h long-term reactions. The variety of effects of overexpressing each of genes encoding the ten glycolytic enzymes on d-lactate production is discussed. 相似文献