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John J. Schellenberg Teenus Paramel Jayaprakash Niradha Withana Gamage Mo H. Patterson Mario Vaneechoutte Janet E. Hill 《PloS one》2016,11(1)
Increased abundance of Gardnerella vaginalis and sialidase activity in vaginal fluid is associated with bacterial vaginosis (BV), a common but poorly understood clinical entity associated with poor reproductive health outcomes. Since most women are colonized with G. vaginalis, its status as a normal member of the vaginal microbiota or pathogen causing BV remains controversial, and numerous classification schemes have been described. Since 2005, sequencing of the chaperonin-60 universal target (cpn60 UT) has distinguished four subgroups in isolate collections, clone libraries and deep sequencing datasets. To clarify potential clinical and diagnostic significance of cpn60 subgroups, we undertook phenotypic and molecular characterization of 112 G. vaginalis isolates from three continents. A total of 36 subgroup A, 33 B, 35 C and 8 D isolates were identified through phylogenetic analysis of cpn60 sequences as corresponding to four “clades” identified in a recently published study, based on sequencing 473 genes across 17 isolates. cpn60 subgroups were compared with other previously described molecular methods for classification of Gardnerella subgroups, including amplified ribosomal DNA restriction analysis (ARDRA) and real-time PCR assays designed to quantify subgroups in vaginal samples. Although two ARDRA patterns were observed in isolates, each was observed in three cpn60 subgroups (A/B/D and B/C/D). Real-time PCR assays corroborated cpn60 subgroups overall, but 13 isolates from subgroups A, B and D were negative in all assays. A putative sialidase gene was detected in all subgroup B, C and D isolates, but only in a single subgroup A isolate. In contrast, sialidase activity was observed in all subgroup B isolates, 3 (9%) subgroup C isolates and no subgroup A or D isolates. These observations suggest distinct roles for G. vaginalis subgroups in BV pathogenesis. We conclude that cpn60 UT sequencing is a robust approach for defining G. vaginalis subgroups within the vaginal microbiome. 相似文献
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Xiaojuan Han Haoran Tai Xiaobo Wang Zhe Wang Jiao Zhou Xiawei Wei Yi Ding Hui Gong Chunfen Mo Jie Zhang Jianqiong Qin Yuanji Ma Ning Huang Rong Xiang Hengyi Xiao 《Aging cell》2016,15(3):416-427
AMPK activation is beneficial for cellular homeostasis and senescence prevention. However, the molecular events involved in AMPK activation are not well defined. In this study, we addressed the mechanism underlying the protective effect of AMPK on oxidative stress‐induced senescence. The results showed that AMPK was inactivated in senescent cells. However, pharmacological activation of AMPK by metformin and berberine significantly prevented the development of senescence and, accordingly, inhibition of AMPK by Compound C was accelerated. Importantly, AMPK activation prevented hydrogen peroxide‐induced impairment of the autophagic flux in senescent cells, evidenced by the decreased p62 degradation, GFP‐RFP‐LC3 cancellation, and activity of lysosomal hydrolases. We also found that AMPK activation restored the NAD+ levels in the senescent cells via a mechanism involving mostly the salvage pathway for NAD+ synthesis. In addition, the mechanistic relationship of autophagic flux and NAD+ synthesis and the involvement of mTOR and Sirt1 activities were assessed. In summary, our results suggest that AMPK prevents oxidative stress‐induced senescence by improving autophagic flux and NAD+ homeostasis. This study provides a new insight for exploring the mechanisms of aging, autophagy and NAD+ homeostasis, and it is also valuable in the development of innovative strategies to combat aging. 相似文献
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SWEET (sugars will eventually be exported transporters)是植物中新发现的一类编码糖转运蛋白的基因,它在植物生长发育及糖代谢过程中发挥重要作用。该基因家族在木薯(Manihot esculenta)中尚未有详细的报道。本研究从Phytozome数据库获得了28个木薯SWEET候选基因并对其进行生物信息学分析,在华南124的木薯苗中通过荧光定量实验检测SWEET基因在旱胁迫下的表达水平。结果发现木薯SWEET基因被分为4簇,主要分布在第6条和第14条染色体上,编码234 aa与302 aa之间的氨基酸序列;木薯SWEET基因家族的表达在旱胁迫条件下发生了变化,其中明显上调的基因有9个,包括MeSWEET1b、MeSWEET2a、MeSWEET6、MeSWEET9a、MeSWEET9b、MeSWEET12、MeSWEET15a、MeSWEET15b和MeSWEET16c;而表达量明显下调的基因也有9个,为MeSWEET2b、MeSWEET3b、MeSWEET4、MeSWEET7、MeSWEET11、MeSWEET16a、MeSWEET16b、MeSWEET17a和MeSWEET17c。这些结果为进一步阐明SWEET基因家族在木薯中的功能提供理论依据。 相似文献
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Guoling Li Xianwei Zhang Hao Ou Haoqiang Wang Dewu Liu Huaqiang Yang Zhenfang Wu 《遗传学报》2019,46(3):141-144
Homo!ogy-directed repair(HDR)is one of two major DNA repair pathways to mend the double-strand breaks(DSBs)formed in the genome(Liang et al.,1998;Pardo et al.,2009).Although less efficient compared with another DNA repair pathway,nonhomologous end joining(NHEJ),HDR is a type of precise repair to restore DNA damage and sustain genomic stability(Pardo et al.,2009;Ceccaldi et al.,2016).By contrast,NHEJ usually introduces mutations into the repaired site,thus probably harming the genomic integrity(Lieber et al.,2003).The error-free property enables HDR to be harnessed to correct a faulty mutation for therapeutic purpose in cells or in the body(Wu et al.,2013).In add让ion,HDR possesses great potential in the generation of genome-edited animals with precise genetic modifications,such as point mutation,DNA replacement,and DNA insertion in a specific genomic site(Wang et al.,2013).However,the low repair frequency mediated by HDR significantly limits让s application for efficient gene correction or establishment of various genetically modified animal models.Currently,multiple site-specific endonucleases have emerged as highly efficient tools to create targeted DSBs and markedly promote subsequent DNA repair either via HDR or NHEJ(Gaj et al.,2013).Nonetheless,the HDR-mediated modifications following the cleavage of engineering nucleases are still inefficient,usually with an efficiency less than 20%in cultured mammalian cells and embryos(Mali et al..2013;Wang et al.,2013;Yang et al.,2013). 相似文献