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991.
Membrane surface localized endonuclease EndA of the pulmonary pathogen Streptococcus pneumoniae (pneumococcus) is required for both genetic transformation and virulence. Pneumococcus expresses EndA during growth. However, it has been reported that EndA has no access to external DNA when pneumococcal cells are not competent for genetic transformation, and thus, unable to degrade extracellular DNA. Here, by using both biochemical and genetic methods, we demonstrate the existence of EndA-mediated nucleolytic activity independent of the competence state of pneumococcal cells. Pneumococcal mutants that are genetically deficient in competence development and genetic transformation have extracellular nuclease activity comparable to their parental wild type, including their ability to degrade neutrophil extracellular traps (NETs). The autolysis deficient ΔlytA mutant and its isogenic choline-treated parental wild-type strain D39 degrade extracellular DNA readily, suggesting that partial cell autolysis is not required for DNA degradation. We show that EndA molecules are secreted into the culture medium during the growth of pneumococcal cells, and contribute substantially to competence-independent nucleolytic activity. The competence-independent activity of EndA is responsible for the rapid degradation of DNA and NETs, and is required for the full virulence of Streptococcus pneumoniae during lung infection. 相似文献
992.
Currently, it is believed that toad oocyte maturation is dependent on the physiological conditions of winter hibernation. Previous antibody-blocking experiments have demonstrated that toad ubiquitin carboxyl-terminal hydrolase L1 (tUCHL1) is necessary for germinal vesicle breakdown during toad oocyte maturation. In this paper, we first supply evidence that tUCHL1 is highly evolutionarily conserved. Then, we exclude protein availability and ubiquitin carboxyl-terminal hydrolase enzyme activity as factors in the response of oocytes to winter hibernation. In the context of MPF (maturation promoting factor) controlling oocyte maturation and to further understand the role of UCHL1 in oocyte maturation, we performed adsorption and co-immunoprecipitation experiments using toad oocyte protein extracts and determined that tUCHL1 is associated with MPF in toad oocytes. Recombinant tUCHL1 absorbed p34cdc2, a component of MPF, in obviously larger quantities from mature oocytes than from immature oocytes, and p13suc1 was isolated from tUCHL1 with a dependence on the ATP regeneration system, suggesting that still other functions may be involved in their association that require phosphorylation. In oocytes from hibernation-interrupted toads, the p34cdc2 protein level was significantly lower than in oocytes from toads in artificial hibernation, providing an explanation for the different quantities isolated by recombinant tUCHL1 pull-down and, more importantly, identifying a mechanism involved in the toad oocyte’s dependence on a low environmental temperature during winter hibernation. Therefore, in toads, tUCHL1 binds p34cdc2 and plays a role in oocyte maturation. However, neither tUCHL1 nor cyclin B1 respond to low temperatures to facilitate oocyte maturation competence during winter hibernation. 相似文献
993.
994.
995.
Brent E. Walling Zhizhou Kuang Yonghua Hao David Estrada Joshua D. Wood Feifei Lian Lou Ann Miller Amish B. Shah Jayme L. Jeffries Richard T. Haasch Joseph W. Lyding Eric Pop Gee W. Lau 《PloS one》2013,8(11)
Aerosolized or aspirated manufactured carbon nanotubes have been shown to be cytotoxic, cause pulmonary lesions, and demonstrate immunomodulatory properties. CD-1 mice were used to assess pulmonary toxicity of helical carbon nanotubes (HCNTs) and alterations of the immune response to subsequent infection by Pseudomonas aeruginosa in mice. HCNTs provoked a mild inflammatory response following either a single exposure or 2X/week for three weeks (multiple exposures) but were not significantly toxic. Administering HCNTs 2X/week for three weeks resulted in pulmonary lesions including granulomas and goblet cell hyperplasia. Mice exposed to HCNTs and subsequently infected by P. aeruginosa demonstrated an enhanced inflammatory response to P. aeruginosa and phagocytosis by alveolar macrophages was inhibited. However, clearance of P. aeruginosa was not affected. HCNT exposed mice depleted of neutrophils were more effective in clearing P. aeruginosa compared to neutrophil-depleted control mice, accompanied by an influx of macrophages. Depletion of systemic macrophages resulted in slightly inhibited bacterial clearance by HCNT treated mice. Our data indicate that pulmonary exposure to HCNTs results in lesions similar to those caused by other nanotubes and pre-exposure to HCNTs inhibit alveolar macrophage phagocytosis of P. aeruginosa. However, clearance was not affected as exposure to HCNTs primed the immune system for an enhanced inflammatory response to pulmonary infection consisting of an influx of neutrophils and macrophages. 相似文献
996.
997.
Qun Hu Hui Zhang Lei Zhang Yong Liu Changjun Huang Cheng Yuan Zefan Chen Kunpeng Li Robert M Larkin Jiongjiong Chen Hanhui Kuang 《Plant physiology》2021,187(4):2674
The most common response of a host to pathogens is arguably the asymptomatic response. However, the genetic and molecular mechanisms responsible for asymptomatic responses to pathogens are poorly understood. Here we report on the genetic cloning of two genes controlling the asymptomatic response to tobacco mosaic virus (TMV) in cultivated tobacco (Nicotiana tabacum). These two genes are homologous to tobamovirus multiplication 2A (TOM2A) from Arabidopsis, which was shown to be critical for the accumulation of TMV. Expression analysis indicates that the TOM2A genes might play fundamental roles in plant development or in responses to stresses. Consistent with this hypothesis, a null allele of the TOM2A ortholog in tomato (Solanum lycopersicum) led to the development of bent branches and a high tolerance to both TMV and tomato mosaic virus (ToMV). However, the TOM2A ortholog in Nicotiana glauca did not account for the asymptomatic response to TMV in N. glauca. We showed that TOM2A family is plant-specific and originated from Chlorophyte, and the biological functions of TOM2A orthologs to promote TMV accumulation are highly conserved in the plant kingdom—in both TMV host and nonhost species. In addition, we showed that the interaction between tobacco TOM1 and TOM2A orthologs in plant species is conserved, suggesting a conserved nature of TOM1–TOM2A module in promoting TMV multiplication in plants. The tradeoff between host development, the resistance of hosts to pathogens, and their influence on gene evolution are discussed. Our results shed light on mechanisms that contribute to asymptomatic responses to viruses in plants and provide approaches for developing TMV/ToMV-resistant crops.Tobacco TOBAMOVIRUS MULTIPLICATION 2A homologs control the asymptomatic response to tobacco mosaic virus and have highly conserved biological functions related to virus multiplication. 相似文献
998.
Characterization of photosynthesis, photoinhibition and the activities of C4 pathway enzymes in a superhigh-yield rice, Liangyoupeijiu 总被引:4,自引:0,他引:4
Characteristics of photosynthetic gas exchange, photoinhibition and C4 pathway enzyme activities in both flag leaves and lemma were compared between a superhigh-yield rice (Oryza sativa L.) hybrid, Liangyoupeijiu and a traditional rice hybrid, Shanyou63. Liangyoupeijiu had a similar light saturated assimilation rate (Asat) to Shanyou63, but a much higher apparent quantum yield (AQY), carboxylation efficiency (CE) and quantum yield of CO2 fixation (φCO2). Liangyoupeijiu also showed a higher resistance to photoinhibition and higher non-radiative energy dissipation associated with the xanthophyll cycle than Shanyou63 when subjected to strong light. In addition, Liangyoupeijiu had higher activities of the C4 pathway enzymes in both flag leaves and lemmas than Shanyou63. These results indicate that higher light and CO2 use efficiency, higher resistance to photoinhibition and C4 pathway in both flag leaf and lemma may contribute to the higher yield of the superhigh-yield rice hybrid, Liangyoupeijiu. 相似文献
999.
The endosperm culture of wheat-rye hybrid was studied in order to explore a new pathway of chromosome engineering. The preliminary results were obtained to show that the endosperm callus formation could be induced from the young endosperm within 7–14 days after crossing on the medium supplemented with 2 ppm 2,4-D, 0.5 ppm kinetin and 3%–8% sucrose. The induction frequency of callus amounts to 35.3%. When the calli were transfered onto an auxin step-down medium containing 0.5 ppm IAA and 1 ppm kinetin, both shoots and roots were formed. 4 endosperm plantlets were obtained. The chromosome number in somatic cells of endosperm plantlets was very unstable. The numbers varied from 6—42, but there is no 49 to be found. The chromosome number with 1—4 times of 7 can be found in higher percentage. 相似文献
1000.
Based upon our previous work on the relationship between structure and function of chloroplast of wheat in connection with PSⅡ reaction, we studied the effects of MgCl2 and KC1 toward two kinds of thylakoid membranes. After exposing etiolated wheat seedlings to intermittent light (cycle of 2 min. light, 118 min. dark) for 24 hr, we obtain ed an incompletely developed chleroplast membrane. Completely developed chloroplast membrane was obtained from wheat seedlings grown under normal light-dark regime. Thylakoid membranes of plants grown under intermittent light failed to form grana stacks they remained as single lamellae in the suspension containing Mg++ or K+ of high concentration although simple stackings not more than two thylakoids c.ould be found. However, thylakoids grown under normal light-dark regime showed well developed grand stacks. Isolated chloroplast samples from two kinds of seedlings were suspended in 5 mM MgCl2 and 100 mM KC1 solutions for a definite time, portions of each samples were processed for electron microscopic observations and their photosynthetic activities were measured at the same time (It will be dealt with in another article). When these two kinds of isolated plastids were suspended either in MgCl2 (5 mM) or KC1 (100), the normally developed grana thylakoids stacked closely but the incompletely developed thylakoid- membranes did not stack. The incompletely developed chloroplast thylakoid membranes,, in either Mg++ or K+ ions could not induce stacking of the scattered thylakoid membranes to form grana. Therefore, we presume that light- harvesting chlorophyll a/b protein complex is on internal factor to induce thylakoid- membranes stacking and a definite concentration of caionions is an important factor in maintaining the stacking of thylakoid membranes. These results further prove the close association between structure and function in our previous studies on the mesophyll cell of the winter wheat. 相似文献