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951.
无乳链球菌鱼源株10 kb基因序列对细菌致病力的影响 总被引:1,自引:0,他引:1
【目的】在前期比较基因组学分析中,我们发现中国无乳链球菌鱼源株GD201008-001基因组中有一段10 kb基因序列,内含11个未知功能的开放阅读框。为了研究该段基因序列与细菌的致病力的关系,本研究将这段基因进行了全段缺失。【方法】运用链球菌-大肠杆菌穿梭质粒p SET4s,构建了10 kb基因缺失株(Δ10 kb),并通过生物学性状的比较,细胞粘附试验,斑马鱼攻毒试验和缺失前后毒力相关基因转录水平的检测,评价该序列对无乳链球菌毒力的影响。【结果】经测序证明缺失株Δ10 kb构建成功,与亲本株GD201008-001相比较,缺失株Δ10 kb在细菌染色形态、对HEp-2细胞的粘附能力无明显差异,但在培养液中的生长速度略慢;缺失株Δ10 kb对斑马鱼的毒力明显增强,LD_(50)有极其显著的差异(P0.001);编码菌毛骨架蛋白2b的基因(PI-2b)和唾液酸酶基因(neul)在缺失株中的转录水平明显上升。【结论】该序列对无乳链球菌GD201008-001的毒力有显著的影响,可能调控某些毒力基因的转录表达,使细菌的毒力减弱。 相似文献
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Jaime Resano‐Mayor Joan Real Marcos Moleón José Antonio Sánchez‐Zapata Luís Palma Antonio Hernández‐Matías 《Oikos》2016,125(2):262-270
Understanding the mechanisms that shape animal population dynamics is of fundamental interest in ecology, evolution and conservation biology. Food supply is an important limiting factor in most animal populations and may have demographic consequences. Optimal foraging theory predicts greater consumption of preferred prey and less diet diversity when food is abundant, which may benefit key fitness parameters such as productivity and survival. Nevertheless, the correspondence between individual resource use and demographic processes in populations of avian predators inhabiting large geographic areas remains largely unexplored, particularly in complex ecosystems such as those of the Mediterranean basin. Based on a long‐term monitoring program of the diet and demography of Bonelli's eagle Aquila fasciata in western Europe, here we test the hypothesis that a predator's diet is correlated to its breeding productivity and survival at both the territorial and population levels, and ultimately to its population growth rate. At the territorial level, we found that productivity increased with greater consumption of European rabbits Oryctolagus cuniculus, the Bonelli's eagle's preferred prey, and pigeons, an important alternative prey for this predator. The survival of territorial pairs was negatively affected by higher diet diversity, which probably reflected the inability to find sufficient high quality prey. Diet effects at the population level were similar but more noticeable than at the territorial level, i.e. a greater consumption of rabbits, together with lesser consumption of small‐to‐medium avian species (‘other birds’; non‐preferred prey), increased productivity, while greater diet diversity and lower consumption of rabbits was associated with reduced survival and population growth rate. Overall, our study illustrates how the diet of a predator species can be closely related to key individual vital rates, which, in turn, leave a measurable fingerprint on population dynamics within and among populations across large spatial scales. 相似文献
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Jing?Zhang Jinpeng?Zhang Weihua?Liu Xiaoyang?Wu Xinming?Yang Xiuquan?Li Yuqing?Lu Lihui?LiEmail author 《Planta》2016,244(4):853-864
Main conclusion
This study explored 6P chromosomal translocations in wheat, and determined the effects of 6P intercalary chromosome segments on kernel number per wheat spike. Exploiting and utilising gene(s) from wild relative species has become an essential strategy for wheat crop improvement. In the translocation line Pubing2978, the intercalary 6P chromosome segment from Agropyron cristatum (L.) Gaertn. (2n = 4x = 28, PPPP) carried valuable multi-kernel gene(s) and was selected from the offspring of the common wheat plant Fukuho and the irradiated wheat-A. cristatum 6P disomic substitution line 4844-8. Genomic in situ hybridisation (GISH), dual-colour fluorescence in situ hybridisation (FISH), and molecular markers were used to detect the small segmental 6P chromosome in the wheat background and its translocation breakpoint. Cytological studies demonstrated that Pubing2978 was a T1AS-6PL-1AS·1AL intercalary translocation with 42 chromosomes. The breakpoint was located near the centromeric region on the wheat chromosome 1AS and was flanked by the markers SSR12 and SSR283 based on an F2 linkage map. The genotypic data, combined with the phenotypic information, implied that A. cristatum 6P chromosomal segment plays an important role in regulating the kernel number per spike (KPS). By comparison, the mean value of KPS in plants with translocations was approximately 10 higher than that in plants without translocations in three segregated populations. Moreover, the improvement in KPS was likely achieved by increasing both the spikelet number per spike (SNS) and the kernel number per spikelet. These excellent agronomic traits laid the foundation for further investigation of valuable genes and make the Pubing2978 line a promising germplasm for wheat breeding.958.
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The human ocular surface, consisting of the cornea and conjunctiva, is colonized by an expansive, diverse microbial community. Molecular-based methods, such as 16S rRNA sequencing, has allowed for more comprehensive and precise identification of the species composition of the ocular surface microbiota compared to traditional culture-based methods. Evidence suggests that the normal microbiota plays a protective immunological role in preventing the proliferation of pathogenic species and thus, alterations in the homeostatic microbiome may be linked to ophthalmic pathologies. Further investigation of the ocular surface microbiome, as well as the microbiome of other areas of the body such as the oral mucosa and gut, and their role in the pathophysiology of diseases is a significant, emerging field of research, and may someday enable the development of novel probiotic approaches for the treatment and prevention of ophthalmic diseases. 相似文献