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661.
Leila Jamali Roghayeh Tofigh Sara Tutunchi Ghodratollah Panahi Fatemeh Borhani Saeedeh Akhavan Parisa Nourmohammadi Sayyed M.H. Ghaderian Hamed Mirzaei 《Journal of cellular physiology》2018,233(11):8538-8550
Gastric and esophageal cancers are as main cancers of the gastrointestinal (GI) tract, which are associated with poor diagnosis and survival. Several efforts were made in the past few decades to finding effective therapeutic approaches, but these approaches had several problems. Finding new biomarkers is a critical step in finding new approaches for the treatment of these cancers. Finding new biomarkers that cover various aspects of the diseases could provide a choice of suitable therapies and better monitoring of patients with these cancers. Among several biomarkers tissue specific and circulating microRNAs (miRNAs) have emerged as powerful candidates in the diagnosis of gastric and esophageal cancers. MiRNAs are small noncoding single‐stranded RNA molecules that are found in the blood and regulate gene expression. These have numerous characteristics that make them suitable for being used as ideal biomarkers in cancer diagnosis. Research has indicated that the level and profile of miRNA in serum and plasma are very high. They are potentially noninvasive and sensitive enough to detect tumors in their primary stages of infection. Multiple lines of evidence indicate that the presence, absence, or deregulation of several circulating miRNAs (i.e., let‐7a, miR‐21, miR‐93, miR‐192a, miR‐18a, and miR‐10b for gastric cancer, and miR‐21, miR‐375, miR‐25‐3p, miR‐151a‐3p, and miR‐100‐3p for esophageal cancer) are associated with initiation and progression of gastric and esophageal cancers. The aim of this review is to highlight the recent advances in the roles of miRNAs in diagnosis and treatment of gastric and esophageal cancers. 相似文献
662.
Lipopolysaccharide of Pseudomonas aeruginosa is a major constituent of the outer membrane, and it is composed of three distinct regions: lipid A, core oligosaccharide, and O antigen. Lipid A and core oligosaccharides (OS) are synthesized and assembled at the cytoplasmic side of the inner membrane and then translocated to the periplasmic side of the membrane where lipid A-core becomes the acceptor of the O antigens. Here we show that MsbA encoded by pA4997 of the P. aeruginosa genome is a member of the ABC transporter family, but this protein has distinctive features when compared with other MsbA proteins. msbA is an essential gene in this organism since mutation in this gene is lethal to the bacterium. Disruption of the chromosomal msbA was achieved only when a functional copy of the gene was provided in trans. msbA from Escherichiacoli (msbA(Ec)) could not cross complement the msbA merodiploid cells of P. aeruginosa. MsbA was expressed and purified, and the kinetic of its ATPase activity is vastly different than that of MsbA(Ec). The activity of MsbA could be selectively stimulated by different truncated versions of core OS of P. aeruginosa LPS. Specifically, phosphate substituents in the lipid A-core are important for stimulating ATPase activity of MsbA. Expression of MsbA(Ec) but not MsbA(Pa) conferred resistance to erythromycin in P. aeruginosa. 相似文献
663.
Sandra K. Hartmann Yvonne Stockdreher Georg Wandrey Hamed Hosseinpour Tehrani Thiemo Zambanini Andreas J. Meyer Jochen Büchs Lars M. Blank Markus Schwarzländer Nick Wierckx 《BBA》2018,1859(10):1015-1024
Maintenance of metabolic redox homeostasis is essential to all life and is a key factor in many biotechnological processes. Changes in the redox state of NAD affect metabolic fluxes, mediate regulation and signal transduction, and thus determine growth and productivity. Here we establish an in vivo monitoring system for the dynamics of the cytosolic NADH/NAD+ ratio in the basidiomycete Ustilago maydis using the ratiometric fluorescent sensor protein Peredox-mCherry. Metabolic redox dynamics were determined in the cytosol of living cells with high time resolution under biotechnologically relevant conditions, i.e. with high cell density and high aeration. Analytical boundary conditions for reliable analysis were determined, and perturbations in C-, N- or O- availability had marked impact on the cytosolic NADH/NAD+ ratio. NAD redox dynamics could be manipulated in lines inducibly expressing a water-forming NADH oxidase as a synthetic reductant sink. The establishment of Peredox-mCherry in U. maydis and the analysis of NAD redox dynamics provides a versatile methodology for the in vivo investigation of cellular metabolism, and contributes fundamental knowledge for rational design and optimization of biocatalysts. 相似文献
664.
Khalid Ali Khan Hamed A. Ghramh Zubair Ahmad 《Saudi Journal of Biological Sciences》2022,29(5):3151-3156
Honey bee colony nutritional dynamics depend on the availability of floral resources throughout a countryside with varying forage circumstances. Few studies quantify the queen fecundity and colony performance about certain management approaches on a broad scale. The present study was conducted to investigate the queen bee fecundity and various colony performance parameters in response to different nutritional practices, i.e., Group-I, supplied with sucrose solution (1:1; w/v), Group-II, provided with locally available commercial pollen substitute, Group-III, supplied with both sucrose solution + locally available commercial pollen substitute, and Group-IV without any sugar solution and pollen substitute. Our results demonstrated that eggs laid by queen bees were significantly higher (1241.83 ± 46.24) in Group-III than in other groups over the time of observations. Similarly, a significant difference was noticed in the mean sealed worker brood area and honey store area between the different groups of management practices. Both, the max mean sealed worker brood area (2153.53 ± 29.18 cm2) and max mean honey store area (1713.33 ± 12.06 cm2) were observed in Group-III while, the mini mean sealed worker brood area (1066.53 ± 20.18 cm2) and mini mean honey store area (1058.86 ± 4.07 cm2) were observed in Group-IV. In contrast, a non-significant difference was observed in pollen stores between Group-II and Group-III (p > 0.005). Current findings add to our understanding of the mechanisms that underpin large-scale controlled colony performance when the natural pollens resources are insufficient. 相似文献
665.
Early changes in physiological and oxidative status induced by salt stress were monitored in two Brassicaceae plants differing in their tolerance to salinity, Cakile maritima (halophyte) and Arabidopsis thaliana (glycophyte). Growth response and antioxidant defense of C. maritima under 400 mM NaCl were compared with those of A. thaliana exposed to 100 mM NaCl. Salinity induced early growth reduction that is less pronounced in C. maritima than in A. thaliana. Maximum hydrogen peroxide (H2O2) level occurred in the leaves of both species 4 h after the onset of salt treatment. A rapid decline in H2O2 concentration was observed thereafter in C. maritima, whereas it remained high in A. thaliana. Correlatively, superoxide dismutase, catalase and peroxidase activities increased at 4 h of treatment in C. maritima and decreased thereafter. However, the activity of these enzymes remained higher in treated plants than that in controls, regardless of the duration of treatment, in A. thaliana. The concentrations of malondialdehyde (MDA) reached maximum values at 24 h of salt stress in both species. Again, MDA levels decreased later in C. maritima, but remained high in A. thaliana. The contents of α‐tocopherol remained constant during salt stress in C. maritima and decreased during the first 24 h of salt stress and then remained low in A. thaliana. The results clearly showed that C. maritima, in contrast to A. thaliana, can rapidly evolve physiological and antioxidant mechanisms to adapt to salt and manage the oxidative stress. This may explain, at least partially, the difference in salt tolerance between halophytes and glycophytes. 相似文献
666.
Aymen Souid Lorenza Bellani Morena Gabriele Laura Pucci Abderrazak Smaoui Chedly Abdelly Karim Ben Hamed Vincenzo Longo 《化学与生物多样性》2019,16(7)
A particular interest is nowadays given to natural antioxidants occurring in foods which can reduce the risk of several diseases through their protective effect. The genus Limonium is widely distributed in different salt regions of Tunisia and known in traditional medicine for the presence of highly effective viral and bacterial replication inhibitors. Limonium leaves have possible beneficial effects on human health for their antioxidant activities and free radical scavenging abilities. To exploit the potential of plants from extreme environments as new sources of natural antioxidants, we studied the extracts from leaves of eight Limonium species growing in extreme environments in Tunisia. Antioxidant molecules (polyphenols, flavonoids, flavonols, ascorbate, tocopherols), in vitro (DPPH, ORAC) and ex vivo antioxidant potential on human erythrocytes, antioxidant enzymes activities (superoxide dismutase, peroxidases, glutathione reductase) were evaluated to identify the species with the best antioxidant capacity. The results showed variability among the species considered in function of the environmental conditions of their natural biotopes, as for the antioxidants measured. In particular, L. vulgare from Oued Rane biotope, characterized by dryness and high temperatures, was the species with the highest enzymatic activity and antioxidant capacity, making it interesting as possible edible halophyte plant or as food complement. 相似文献
667.
Fatemeh Vahidian Hamed Mohammadi Mohammad Ali-Hasanzadeh Afshin Derakhshani Masoud Mostaan Maryam Hemmatzadeh Behzad Baradaran 《Journal of cellular physiology》2019,234(4):3294-3306
MicroRNAs (miRNAs) can control cancer and cancer stem cells (CSCs), and this topic has drawn immense attention recently. Stem cells are a tiny population of a bulk of tumor cells that have enormous potential in expansion and metastasis of the tumor. miRNA have a crucial role in the management of the function of stem cells. This role is to either promote or suppress the tumor. In this review, we investigated the function and different characteristics of CSCs and function of the miRNAs that are related to them. We also demonstrated the role and efficacy of these miRNAs in breast cancer and breast cancer stem cells (BCSC). Eventually, we revealed the metastasis, tumor formation, and their role in the apoptosis process. Also, the therapeutic potential of miRNA as an effective method for the treatment of BCSC was described. Extensive research is required to investigate the employment or suppression of these miRNAs for therapeutics approached in different cancers in the future. 相似文献
668.
Elham Safarzadeh Mona Orangi Hamed Mohammadi Farhad Babaie Behzad Baradaran 《Journal of cellular physiology》2018,233(4):3024-3036
669.
Mohammad Sadegh Masoudi Emadodin Mehrabian Hamed Mirzaei 《Journal of cellular biochemistry》2018,119(2):1285-1290
670.
Imène Ben Salah Héla Mahmoudi Margaret Gruber Tarek Slatni Mondher Boulaaba Mhemmed Gandour Dorsaf Messedi Karim Ben Hamed Riadh Ksouri Abdelali Hannoufa Chedly Abdelly 《Biologia》2011,66(5):813-820
The objective of this study was to determine more indepth physiological and antioxidant responses in two Medicago ciliaris lines (a salt-tolerant line TNC 1.8 and a salt-sensitive line TNC 11.9) with contrasting responses to 100 mM NaCl. Under salt stress, both lines showed a decrease in total biomass and in the growth rate for roots, but TNC 1.8 was less affected by salt than TNC 11.9 in that it maintained leaf growth even in the presence of added salt. In both lines, salt stress mainly affected micronutrient status (Fe, Mn, Cu and Zn) rather than K nutrition, but the tolerant line TNC 1.8 accumulated more Na in leaves and less in roots compared with TNC 11.9. Salt stress decreased total soluble sugars (TSS) in all organs of the sensitive line TNC 11.9, whereas TSS was only reduced in roots of the tolerant line. The salt-induced drop in growth was linked to an increase in lipid peroxidation in roots of both lines and in leaves of the sensitive line. The salt-tolerant line TNC 1.8 was more efficient at managing salt-induced oxidative damage in leaves and to a lesser extent in roots than the salt-sensitive line TNC 11.9, by preserving higher phenolic compound and superoxide dismutase levels in both organs. 相似文献