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Attila Nagy Joseph Mowery Gary R. Bauchan Lili Wang Lydia Nichols-Russell Xiangwu Nou 《Applied and environmental microbiology》2015,81(14):4720-4727
Infection by human pathogens through the consumption of fresh, minimally processed produce and solid plant-derived foods is a major concern of the U.S. and global food industries and of public health services. Enterohemorrhagic Escherichia coli O157:H7 is a frequent and potent foodborne pathogen that causes severe disease in humans. Biofilms formed by E. coli O157:H7 facilitate cross-contamination by sheltering pathogens and protecting them from cleaning and sanitation operations. The objective of this research was to determine the role that several surface structures of E. coli O157:H7 play in adherence to biotic and abiotic surfaces. A set of isogenic deletion mutants lacking major surface structures was generated. The mutant strains were inoculated onto fresh spinach and glass surfaces, and their capability to adhere was assessed by adherence assays and fluorescence microscopy methods. Our results showed that filament-deficient mutants bound to the spinach leaves and glass surfaces less strongly than the wild-type strain did. We mimicked the switch to the external environment—during which bacteria leave the host organism and adapt to lower ambient temperatures of cultivation or food processing—by decreasing the temperature from 37°C to 25°C and 4°C. We concluded that flagella and some other cell surface proteins are important factors in the process of initial attachment and in the establishment of biofilms. A better understanding of the specific roles of these structures in early stages of biofilm formation can help to prevent cross-contaminations and foodborne disease outbreaks. 相似文献
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J C Nou?t M Kujas 《Comptes rendus des séances de la Société de biologie et de ses filiales》1986,180(6):625-628
The situation of mitoses in the adrenal glands of the rat has been studied by measuring the distance between each of them (3,061 in the whole) at the surface. The curve of their distribution, logarithmic-normal type, shows that they are the most numerous in germinative zone classically described, but that they appear down to the depth of inner fascicula. 相似文献
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Olivier Escaffre Cyril Le Nou?n Michel Amelot Xavier Ambroggio Kristen M. Ogden Olivier Guionie Didier Toquin Hermann Müller Mohammed R. Islam Nicolas Eterradossi 《Journal of virology》2013,87(5):2767-2780
Infectious bursal disease virus (IBDV) causes an economically significant disease of chickens worldwide. Very virulent IBDV (vvIBDV) strains have emerged and induce as much as 60% mortality. The molecular basis for vvIBDV pathogenicity is not understood, and the relative contributions of the two genome segments, A and B, to this phenomenon are not known. Isolate 94432 has been shown previously to be genetically related to vvIBDVs but exhibits atypical antigenicity and does not cause mortality. Here the full-length genome of 94432 was determined, and a reverse genetics system was established. The molecular clone was rescued and exhibited the same antigenicity and reduced pathogenicity as isolate 94432. Genetically modified viruses derived from 94432, whose vvIBDV consensus nucleotide sequence was restored in segment A and/or B, were produced, and their pathogenicity was assessed in specific-pathogen-free chickens. We found that a valine (position 321) that modifies the most exposed part of the capsid protein VP2 critically modified the antigenicity and partially reduced the pathogenicity of 94432. However, a threonine (position 276) located in the finger domain of the virus polymerase (VP1) contributed even more significantly to attenuation. This threonine is partially exposed in a hydrophobic groove on the VP1 surface, suggesting possible interactions between VP1 and another, as yet unidentified molecule at this amino acid position. The restored vvIBDV-like pathogenicity was associated with increased replication and lesions in the thymus and spleen. These results demonstrate that both genome segments influence vvIBDV pathogenicity and may provide new targets for the attenuation of vvIBDVs. 相似文献
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Hye Jung Lee Sailila E. Abdula Dae Won Jang Sung-Han Park Ung-Han Yoon Yu Jin Jung Kwon Kyoo Kang Ill Sup Nou Yong-Gu Cho 《Plant cell reports》2013,32(10):1521-1529
Key message
Overexpression of OsGS gene modulates oxidative stress response in rice after exposure to cadmium stress. Our results describe the features of transformants with enhanced tolerance to Cd and abiotic stresses.Abstract
Glutamine synthetase (GS) (EC 6.3.1.2) is an enzyme that plays an essential role in the metabolism of nitrogen by catalyzing the condensation of glutamate and ammonia to form glutamine. Exposure of plants to cadmium (Cd) has been reported to decrease GS activity in maize, pea, bean, and rice. To better understand the function of the GS gene under Cd stress in rice, we constructed a recombinant pART vector carrying the GS gene under the control of the CaMV 35S promoter and OCS terminator and transformed using Agrobacterium tumefaciens. We then investigated GS overexpressing rice lines at the physiological and molecular levels under Cd toxicity and abiotic stress conditions. We observed a decrease in GS enzyme activity and mRNA expression among transgenic and wild-type plants subjected to Cd stress. The decrease, however, was significantly lower in the wild type than in the transgenic plants. This was further validated by the high GS mRNA expression and enzyme activity in most of the transgenic lines. Moreover, after 10 days of exposure to Cd stress, increase in the glutamine reductase activity and low or no malondialdehyde contents were observed. These results showed that overexpression of the GS gene in rice modulated the expression of enzymes responsible for membrane peroxidation that may result in plant death. 相似文献7.
L Michat J C Nou?t 《Comptes rendus des séances de la Société de biologie et de ses filiales》1975,169(6):1421-1423
Working on histologic sections 7 microns thick in the equatorial part of male rat adrenal cortex, we found two high mitotic activity periods. The first one stays at midnight and shows an average number of 42 mitoses per section; the second one occurs at 5 a.m. with an average number of mitoses of 70,1 per section. If we except these particular points, the mitotic activity is low, the average number of mitoses being 13,2 per section. 相似文献
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Jungeun Kim Jeongyeo Lee Jae-Pil Choi Inkyu Park Kyungbong Yang Min Keun Kim Young Han Lee Ill-Sup Nou Dae-Soo Kim Sung Ran Min Sang Un Park HyeRan Kim 《BMC genomics》2014,15(1)
Background
The Brassicaceae family is an exemplary model for studying plant polyploidy. The Brassicaceae knowledge-base includes the well-annotated Arabidopsis thaliana reference sequence; well-established evidence for three rounds of whole genome duplication (WGD); and the conservation of genomic structure, with 24 conserved genomic blocks (GBs). The recently released Brassica rapa draft genome provides an ideal opportunity to update our knowledge of the conserved genomic structures in Brassica, and to study evolutionary innovations of the mesohexaploid plant, B. rapa.Results
Three chronological B. rapa genomes (recent, young, and old) were reconstructed with sequence divergences, revealing a trace of recursive WGD events. A total of 636 fast evolving genes were unevenly distributed throughout the recent and young genomes. The representative Gene Ontology (GO) terms for these genes were ‘stress response’ and ‘development’ both through a change in protein modification or signaling, rather than by enhancing signal recognition. In retention patterns analysis, 98% of B. rapa genes were retained as collinear gene pairs; 77% of those were singly-retained in recent or young genomes resulting from death of the ancestral copies, while others were multi-retained as long retention genes. GO enrichments indicated that single retention genes mainly function in the interpretation of genetic information, whereas, multi-retention genes were biased toward signal response, especially regarding development and defense. In the recent genome, 13,302, 5,790, and 20 gene pairs were multi-retained following Brassica whole genome triplication (WGT) events with 2, 3, and 4 homoeologous copies, respectively. Enriched GO-slim terms from B. rapa homomoelogues imply that a major effect of the B. rapa WGT may have been to acquire environmental adaptability or to change the course of development. These homoeologues seem to more frequently undergo subfunctionalization with spatial expression patterns compared with other possible events including nonfunctionalization and neofunctionalization.Conclusion
We refined Brassicaceae GB information using the latest genomic resources, and distinguished three chronologically ordered B. rapa genomes. B. rapa genes were categorized into fast evolving, single- and multi-retention genes, and long retention genes by their substitution rates and retention patterns. Representative functions of the categorized genes were elucidated, providing better understanding of B. rapa evolution and the Brassica genus.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-606) contains supplementary material, which is available to authorized users. 相似文献9.
We developed a molecular method for the identification of the S-alleles of Brassicaceae, which belongs to the inbred line. This method is quicker and more precise than the existing methods. The genotype of the S-allele for 20 S-haplotypes of cabbage and 20 S-haplotypes of broccoli was determined by a pollination test. In order to identify the S-alleles, we performed PCR-RFLP with a mixture of the primers that are related to the S-locus glycoprotein (SLG) gene, which corresponds to the results of the pollination test. The selected primers amplified all of the single bands of about 1,150 bp in all 40 lines of cabbage and broccoli. Three out of 20 lines of cabbage were amplified by class I SLG specific primers, whereas all of the lines of the cabbage were amplified by class II SLG specific primers. Therefore, we could not classify class I and class II precisely by the class I and class II primers. However, 15 out of 20 lines of broccoli were amplified by the class I SLG specific primers. The remaining 5 lines were amplified with the class II SLG specific primers. We then digested the amplified PCR products with various restriction endonucleases and chose a restriction endonuclease, which accords exactly with the results of the diallel cross. The best one was HinfI. Its RFLP result was the same as that of the nucleotide sequence analysis. The 40 lines of cabbage and broccoli consisted of 16 different S-haplotypes. Therefore, the PCR-RFLP analysis was quicker and more precise in identifying the characteristics of S-haplotypes that are used in breeding. Also, we were able to check whether the lines could be mixed. The S-genotypes were difficult to determine due to the different flowering time. 相似文献
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Khadiza Khatun Ujjal Kumar Nath Jong-In Park Chang Kil Kim Ill Sup Nou Mi-Young Chung 《Plant Molecular Biology Reporter》2018,36(2):273-283
The cold shock domain proteins (CSDPs) are small group of nucleic acid-binding proteins that act as RNA chaperones in growth regulation, development, and stress adaptation in plants. The functions of CSDPs have been studied in Arabidopsis (Arabidopsis thaliana), rice (Oryza sativa), wheat (Triticum aestivum), and Chinese cabbage (Brassica rapa). To gain insight into the function of CSDPs in tomato (Solanum lycopersicum), we performed a genome-wide analysis of CSDPs through in silico characterization and expression profiling in different organs and in response to different abiotic stress and phytohormone treatments. We identified five non-redundant SlCSDP genes. The evolutionary analysis and phylogenetic classification indicated that tomato CSDPs are more closely related to potato than those of others. The five SlCSDP genes are distributed on four of the 12 tomato chromosomes and no segmental or tandem duplication events are detected among them. Expression analysis showed broad expression patterns with strong expression in fruit development and ripening. Expression of individual SlCSDP genes was significantly altered by stress and phytohormone treatments. SlCSDP2, SlCSDP3, and SlCSDP4 were highly induced by all four abiotic stresses and by phytohormone treatment in tomato. These findings provide a foundation for future research towards functional biological roles of CSDP gene in particular to develop tomato cultivars with large size, early ripening, and abiotic stress tolerance. 相似文献