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排序方式: 共有491条查询结果,搜索用时 468 毫秒
1.
Excessive intake of essential elements agitates elemental homeostasis resulting in their heterogeneous distribution. Distraction
of these elements in central nervous system (CNS) have been demonstrated in many neurological disorders, which are vital in
generating free radicals, causing oxidative stress, and contributing to neuronal maladies. The developing CNS is highly vulnerable
to environmental agents, including fluoride. Fluorosis is one such disorder ensued from excessive consumption of fluoride
containing water and/or foods that poses a greater threat to the life. Present study offers perturbations caused by fluoride
toxicity on the level of biometal and antioxidant homeostasis and their interactions. Pregnant Wistar rats were exposed to
100- and 200-ppm fluoride (F−) in drinking water and controls with tap water. The pups born to them were used for the study. On 21st postnatal day, the
concentration of fluoride, biometals, and oxidative stress markers were determined in discrete regions of CNS. The levels
of fluoride, copper, and iron increased whereas manganese and zinc were decreased considerably. Among antioxidant enzymes,
catalase, superoxide dismutase, and glutathione peroxidase were decreased and lipid peroxidation was increased with regional
alterations. The correlation coefficient values among oxidative stress markers and biometals were either positive or negative
and showed less significance during correlation. The results confirm that the fluoride provoked oxidative stress and biometal
deformations are synergistic that successively governs the neuronal damage and developing CNS no longer prevents exacerbations
of fluoride. 相似文献
2.
Summary A cloned cDNA partial copy of a soybean leghemoglobin mRNA was used to probe genomic DNA of four species of actinorhizal plants. Southern blot hybridization revealed the presence of sequences with homology to the leghemoglobin probe in DNA from Alnus glutinosa, Casuarina glauca, Ceanothus americanus and Elaeagnus pungens. The hybridization patterns of the restriction fragments revealed some fragment size conservation between the DNA of soybean and the DNA of four actinorhizal plants which are taxonomically unrelated to soybean or to each other. The results presented here indicate that globin gene sequences are much more widely distributed in the plant kingdom than has previously been thought. Furthermore, if sequence conservation is actually as high as the restriction fragment patterns suggest, the evolution of the DNA surrounding the globin sequences has been highly constrained. 相似文献
3.
Babapoor-Farrokhran Savalan Gill Deanna Alzubi Jafar Mainigi Sumeet K. 《Molecular and cellular biochemistry》2021,476(6):2283-2293
Molecular and Cellular Biochemistry - Atrial fibrillation (AF) is a common arrhythmia that has major morbidity and mortality. Hypoxia plays an important role in AF initiation and maintenance.... 相似文献
4.
Mohammad Javad Ahmadi-Lahijani Mohammad Kafi Ahmad Nezami Jafar Nabati John E. Erwin 《Physiology and Molecular Biology of Plants》2021,27(2):313
Elevated CO2 interactions with other factors affects the plant performance. Regarding the differences between cultivars in response to CO2 concentrations, identifying the cultivars that better respond to such conditions would maximize their potential benefits. Increasing the ability of plants to benefit more from elevated CO2 levels alleviates the adverse effects of photoassimilate accumulation on photosynthesis and increases the productivity of plants. Despite its agronomic importance, there is no information about the interactive effects of elevated CO2 concentration and plant growth regulators (PGRs) on potato (Solanum tuberosum L.) plants. Hence, the physiological response and source-sink relationship of potato plants (cvs. Agria and Fontane) to combined application of CO2 levels (400 vs. 800 µmol mol−1) and plant growth regulators (PGR) [6-benzylaminopurine (BAP) + Abscisic acid (ABA)] were evaluated under a controlled environment. The results revealed a variation between the potato cultivars in response to a combination of PGRs and CO2 levels. Cultivars were different in leaf chlorophyll content; Agria had higher chlorophyll a, b, and total chlorophyll content by 23, 43, and 23%, respectively, compared with Fontane. The net photosynthetic rate was doubled at the elevated compared with the ambient CO2. In Agria, the ratio of leaf intercellular to ambient air CO2 concentrations [Ci:Ca] was declined in elevated-CO2-grown plants, which indicated the stomata would become more conservative at higher CO2 levels. On the other hand, the increased Ci:Ca in Fontane showed a stomatal acclimation to higher CO2 concentration. The higher leaf dark respiration of the elevated CO2-grown and BAP + ABA-treated plants was associated with a higher leaf soluble carbohydrates and starch content. Elevated CO2 and BAP + ABA shifted the dry matter partitioning to the belowground more than the above-media organs. The lower leaf soluble carbohydrate content and greater tuber yield in Fontane might indicate a more efficient photoassimilate translocation than Agria. The results highlighted positive synergic effects of the combined BAP + ABA and elevated CO2 on tuber yield and productivity of the potato plants. 相似文献
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Sanaz Khaseb Mahdi Orooji Majid Ghasemian Pour Seyed Mohammadreza Safavi Mohammad Jafar Eghbal Maryam Rezai Rad 《Cell biology international》2021,45(9):1851-1865
Dental tissue-derived stem cells (DSCs) provide an easy, accessible, relatively noninvasive promising source of adult stem cells (ASCs), which brought encouraging prospective for their clinical applications. DSCs provide a perfect opportunity to apply for a patient's own ASC, which poses a low risk of immune rejection. However, problems associated with the long-term culture of stem cells, including loss of proliferation and differentiation capacities, senescence, genetic instability, and the possibility of microbial contamination, make cell banking necessary. With the rapid development of advanced cryopreservation technology, various international DSC banks have been established for both research and clinical applications around the world. However, few studies have been published that provide step-by-step guidance on DSCs isolation and banking methods. The purpose of this review is to present protocols and technical details for all steps of cryopreserved DSCs, from donor selection, isolation, cryopreservation, to characterization and quality control. Here, the emphasis is on presenting practical principles in accordance with the available valid guidelines. 相似文献
7.
Maysam Mansouri Seyed Jafar Mousavy Zahra Ehsaei Shahram Nazarian Mohammad Reza Zali Seyed Mohammad Moazzeni 《Biologicals》2013,41(3):169-175
Enterotoxigenic Escherichia coli (ETEC) is the most common cause of children diarrhea in the world. Adhesion of ETEC to small intestine is an important virulence trait. One of the most prevalent colonization factors (CFs) in human is CFA/I fimbriae and CfaE which is the required binding factor for adhesion of ETEC to intestinal mucosa.We optimized cfaE gene codons according to codon bias of E. coli to achieve a high level of recombinant protein expression. The optimized gene was expressed in E. coli and rCFaE protein was used for mice immunization. Blocking activity of the obtained antibody was examined by microplate agglutination inhibition test. SDS-PAGE analysis indicated that the optimized sequence of cfaE produces a suitable amount of rCFaE in comparison with native gene sequence. This optimized rCFaE protein could induces strong humoral response in mice and the antibody obtained against rCFaE inhibited the adhesion of ETEC to human group A erythrocytes. It is concluded that codon optimization is a useful approach for obtaining large quantities of recombinant rCFaE protein. With regard to the results of hemagglutination inhibition test, codon optimization and increased production of recombinant protein expressed in E. coli did not affect the immunogenicity potential of CFaE. 相似文献
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10.
Mohammad Foad Abazari Fatemeh Soleimanifar Seyed Ehsan Enderami Navid Nasiri Fatemeh Nejati Seyed Ahmad Mousavi Masoud Soleimani Jafar Kiani Pegah Ghoraeian Mousa Kehtari 《Journal of cellular biochemistry》2020,121(2):1169-1181
Human-induced pluripotent stem cells-derived hepatocyte-like cells (hiPSCs-HLCs) holds considerable promise for future clinical personalized therapy of liver disease. However, the low engraftment of these cells in the damaged liver microenvironment is still an obstacle for potential application. In this study, we explored the effectiveness of decellularized amniotic membrane (dAM) matrices for culturing of iPSCs and promoting their differentiation into HLCs. The DNA content assay and histological evaluation indicated that cellular and nuclear residues were efficiently eliminated and the AM extracellular matrix component was maintained during decelluarization. DAM matrices were developed as three-dimensional scaffolds and hiPSCs were seeded into these scaffolds in defined induction media. In dAM scaffolds, hiPSCs-HLCs gradually took a typical shape of hepatocytes (polygonal morphology). HiPSCs-HLCs that were cultured into dAM scaffolds showed a higher level of hepatic markers than those cultured in tissue culture plates (TCPs). Moreover, functional activities in term of albumin and urea synthesis and CYP3A activity were significantly higher in dAM scaffolds than TCPs over the same differentiation period. Thus, based on our results, dAM scaffold might have a considerable potential in liver tissue engineering, because it can improve hepatic differentiation of hiPSCs which exhibited higher level of the hepatic marker and more stable metabolic functions. 相似文献