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Mohsen Hesami Mohammad Hosein Daneshvar Mohsen Yoosefzadeh-Najafabadi Milad Alizadeh 《Journal of Genetic Engineering and Biotechnology》2018,16(1):175-180
Ficus religiosa is known as a long-lived multipurpose forest tree. The tree plays an important role for religious, medicinal, and ornamental purposes. However, the propagation rate of Ficus religiosa is low in natural habitat so the plant tissue culture techniques are an applicable method for multiplication of this valuable medicinal plants. Thus, the aim of this study is to understand the effect of different auxin/cytokinin ratios on indirect shoot organogenesis of this plant. According to our results, the maximum callus induction frequency (100%) was obtained on Murashige and Skoog (MS) medium supplemented with 0.5?mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) plus 0.05?mg/l 6-benzylaminopurine (BAP) from petiole segments. For shoot induction purpose, the yellow-brownish, friable, organogenic calli were inoculated on shoot induction medium. On MS medium supplemented with 1.5?mg/l BAP and 0.15?mg/l Indole-3-butyric acid (IBA), 96.66% of the petiole-derived calli responded with an average number of 3.56 shoots per culture. The highest root formation frequency (96.66%), root number (5.5), and root length (4.83?cm) were achieved on MS medium containing 2.0?mg/l IBA plus 0.1?mg/l Naphthaleneacetic acid (NAA). The rooted shoots were successfully transferred to field condition and the substrate with the mixture of cocopeat and perlite (1:1) had the highest survival rate (96.66%). This is the first report of an effective in vitro organogenesis protocol for F. religiosa by indirect shoot organogenesis through axenic seedling derived petiole explants, which can be efficiently employed for conservation of this important medicinal plant species as well as the utilization of active biomolecules. 相似文献
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Wallinder C Botros M Rosenström U Guimond MO Beaudry H Nyberg F Gallo-Payet N Hallberg A Alterman M 《Bioorganic & medicinal chemistry》2008,16(14):6841-6849
In the investigation of the structure-activity relationship of nonpeptide AT(2) receptor agonists, a series of substituted benzamide analogues of the selective nonpeptide AT(2) receptor agonist M024 have been synthesised. In a second series, the biphenyl scaffold was compared to the thienylphenyl scaffold and the impact of the isobutyl substituent and its position on AT(1)/AT(2) receptor selectivity was also investigated. Both series included several compounds with high affinity and selectivity for the AT(2) receptor. Three of the compounds were also proven to function as agonists at the AT(2) receptor, as deduced from a neurite outgrowth assay, conducted in NG108-15 cells. 相似文献
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Mona Navaei-Nigjeh Milad Moloudizargari Maryam Baeeri Mahdi Gholami Nasrin Lotfibakhshaiesh Masoud Soleimani Ebrahim Vasheghani-farahani Jafar AI Mohammad Abdollahi 《Cytotherapy》2018,20(9):1124-1142
Background aims
Adipose tissue–derived mesenchymal stromal cells (AT-MSCs), widely known as multipotent progenitors, release several cytokines that support cell survival and repair. There are in vitro and in vivo studies reporting the regenerative role of AT-MSCs possibly mediated by their protective effects on functional islet cells as well as their capacity to differentiate into insulin-producing cells (IPCs).Methods
On such a basis, our goal in the present study was to use three different models including direct and indirect co-cultures and islet-derived conditioned medium (CM) to differentiate AT-MSCs into IPCs and to illuminate the molecular mechanisms of the beneficial impact of AT-MSCs on pancreatic islet functionality. Furthermore, we combined in vitro co-culture of islets and AT-MSCs with in vivo assessment of islet graft function to assess whether co-transplantation of islets with AT-MSCs can reduce marginal mass required for successful islet transplantation and prolong graft function in a diabetic rat model.Results
Our findings demonstrated that AT-MSCs are suitable for creating a microenvironment favorable for the repair and longevity of the pancreas β cells through the improvement of islet survival and maintenance of cell morphology and insulin secretion due to their potent properties in differentiation. Most importantly, hybrid transplantation of islets with AT-MSCs significantly promoted survival, engraftment and insulin-producing function of the graft and reduced the islet mass required for reversal of diabetes.Conclusions
This strategy might be of therapeutic potential solving the problem of donor islet material loss that currently limits the application of allogeneic islet transplantation as a more widespread therapy for type 1 diabetes. 相似文献25.
Very long chain fatty acids (VLCFAs) are exclusively oxidized in peroxisomes and their levels are significantly increased in tissues of patients with peroxisomal disorders. Although the biochemical indicators of peroxisomal dysfunction, such as elevated VLCFAs, are well known, the mechanisms of pathogenesis of peroxisomal diseases are unclear. In this study we have examined the effect of VLCFAs on NADPH oxidase (NOX), a complex enzyme system responsible for the production of superoxide anions, in order to understand the oxidative stress-mediated mechanisms involved in pathology of peroxisomal disorders. Varying concentrations (2.5 to 10 microg ml(-1)) of VLCFAs, lignoceric acid and cerotic acid, significantly (p < 0.001) increased the enzymic activity of NOX in cultures of human dermal fibroblasts. VLCFAs did not affect the expression of gp91phox or p22phox whereas the mRNA and protein levels of p47phox were significantly (two or three-fold) increased following treatment of fibroblasts with lignoceric acid or cerotic acid. VLCFAs also caused a significant (p < 0.01) increase in lipid peroxidation in dermal fibroblasts which could be markedly reversed by treatment with apocyanin (10 mM) or superoxide dismutase (SOD, 25 U ml(-1)). With these results, we report for the first time that VLCFAs enhance NOX activity and superoxide anion-mediated lipid peroxidation in cultured dermal fibroblasts. This study proposes a mechanism that may be taking place in vivo during peroxisomal dysfunction and that leads to oxidative stress-mediated pathogenesis. 相似文献
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Dariush Shokri Mohammad Rabbani Khorasgani Milad Mohkam Seyed Masih Fatemi Younes Ghasemi Asghar Taheri-Kafrani 《Probiotics and antimicrobial proteins》2018,10(1):34-42
The emergence of antibiotic-resistant and food-spoilage microorganisms has renewed efforts to identify safe and natural alternative agents of antibiotics such as probiotics. The aim of this study was the isolation of lactobacilli as potential probiotics from local dairy products with broad antibacterial and anti-biofilm activities against antibiotic-resistant strains of Pseudomonas aeruginosa and determination of their inhibition mechanism. Antibiotic susceptibility and classification of acquired resistance profiles of 80 P. aeruginosa strains were determined based on Centers for Disease Control and Prevention (CDC) new definition as multidrug-resistant (MDR), extensively drug-resistant (XDR), and pan-drug-resistant (PDR) followed by antibacterial assessment of lactobacilli against them by different methods. Among the 80 P. aeruginosa strains, 1 (1.3%), 50 (62.5%), and 78 (97.5%) were PDR, XDR, and MDR, respectively, and effective antibiotics against them were fosfomycin and polymyxins. Among 57 isolated lactobacillus strains, two strains which were identified as Lactobacillus fermentum using biochemical and 16S rDNA methods showed broad inhibition/killing and anti-biofilm effects against all P. aeruginosa strains. They formed strong biofilms and had bile salts and low pH tolerance. Although investigation of inhibition mechanism of these strains showed no bacteriocin production, results obtained by high-performance liquid chromatography (HPLC) analysis indicated that their inhibitory effect was the result of production of three main organic acids including lactic acid, acetic acid, and formic acid. Considering the broad activity of these two L. fermentum strains, they can potentially be used in bio-control of drug-resistant strains of P. aeruginosa. 相似文献
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Rahimpour Azam Pourmaleki Es’hagh Shams Forough Payandeh Zahra Pourzardosht Navid Didehdar Mojtaba Gholami Milad 《Molecular biology reports》2022,49(5):3461-3468
Background
The increasing need for therapeutic monoclonal antibodies (mAbs) entails the development of innovative and improved expression strategies. Chromatin insulators have been utilized for the enhancement of the heterologous proteins in mammalian cells.
Methods and resultsIn the current study the Ccnb1ip1 gene insulator element was utilized to construct a novel vector system for the expression of an anti-CD52 mAb in Chinese hamster ovary (CHO) cells. The insulator containing (pIns-mAb) and control (pmAb) vectors were generated and stable cell pools were established using these constructs. The expression level in the cells created with pIns-mAb vector was calculated to be 233 ng/mL, and the expression rate in the control vector was 210 ng/mL, which indicated a 10.9% increase in mAb expression in pIns-mAb pool. In addition, analysis of mAb expression in clonal cells established from each pool showed a 10% increase in antibody productivity in the highest mAb producing clone derived from the pIns-mAb pool compared to the clone isolated from pmAb pool.
ConclusionsMore studies are needed to fully elucidate the effects of Ccnb1ip1 gene insulator on recombinant therapeutic protein expression in mammalian cells. The combination of this element with other chromatin-modifying elements might improve its augmentation effect which could pave the way for efficient and cost-effective production of therapeutic drugs.
相似文献30.