https://journals.sbmu.ac.ir/protein/issue/feed Trends in Peptide and Protein Sciences 2020-07-29T05:34:48+00:00 Prof. Bahram Kazemi tipps@sbmu.ac.ir Open Journal Systems <p style="text-align: justify;">The <em>Trends in Peptide and Protein Sciences</em> is a peer-reviewed, online-only (previously print-online), scientific journal owned by <strong>Protein Technology Research Center</strong>,<strong> Shahid Beheshti University of Medical Sciences</strong> and documents in all important aspects of the research in peptides and proteins focusing on analytics and impurities, bioinformatics, biopharmaceuticals and vaccines, biotechnology, chemical synthesis, conformational analysis, design and&nbsp; development of protein therapeutics, determination of structure, enzymology, folding and sequencing,&nbsp; formulation and stability, function, genetics,&nbsp; immunology, kinetics, modeling, molecular biology, pharmacokinetics and pharmacodynamics of therapeutic proteins and antibodies, pharmacology,&nbsp; protein engineering and development, protein-protein interaction, proteomics, purification/expression/production, simulation, thermodynamics and&nbsp; hydrodynamics and protein biomarkers. The aim of this Journal is to publish high quality original research articles, reviews, short communications and letters and to provide a medium for scientists and researchers to share their findings from the area of peptides and proteins. <span class="st">The </span><em><strong>Trends in Peptide and Protein Sciences</strong></em><span class="st"> is published in collaboration with </span><strong>Iranian Association of Pharmaceutical Scientists</strong><span class="st">.</span></p> <p><span class="st">&nbsp;</span></p> <p>&nbsp;</p> https://journals.sbmu.ac.ir/protein/article/view/5%3Ae1 Identification of Proteins Participating in the Cisplatin Resistance Following Treatment with Cisplatin in A2780 and A2780CP Ovarian Cell Lines 2020-04-06T09:37:04+00:00 Kamyar Keshavarz Farajkhah keshavarzkamyar@gmail.com Maryam Tabarzad m_tabarzad@sbmu.ac.ir Farshad Hosseini Shirazi f.shirazi@sbmu.ac.ir Mohammad Hassan Houshdar Tehrani tehranimh@yahoo.co.uk <p>Ovarian cancer is the most fatal gynecological cancer and the 8<sup>th</sup> most prevalent type of cancer in Iran. Chemotherapy regimen for the treatment of this type of cancer is mostly based on platinum agents and paclitaxel. The major problem during treatment with cisplatin is the appearance of acquired resistance in cancer cells in the first 6 months of therapy. Owing to inefficacy of second line regimens, it seems necessary to find out the molecular mechanisms of cisplatin resistance and find an efficient strategy against the resistant cancer cells.<strong> </strong>In this study, two ovarian cancer cell lines, A2780-sensitive and A2780CP (resistant to cisplatin) were evaluated. To acquire the protein expression profile, a culture of each line containing 1.5×10<sup>7 </sup>cells was divided into the two groups of control and treatment cells. The treatment group cells were treated with cisplatin at pre-determined IC<sub>50</sub> concentration for 6 hours. Then, the total proteins of 7×10<sup>6</sup> cells were extracted. The proteome of each group (20 μg) was used for subsequent separation of proteins by two-dimensional gel electrophoresis using 7 cm IPG strips. The results of protein pattern changes were analyzed by one-way ANOVA. At least 230 proteins were detected in each gel, from which, about 45 proteins were differentially expressed in each model of comparison. However, by considering the results of all models of analysis on the protein expression profile of two cell lines, three proteins were determined as the key players of resistance against cisplatin. Our results can be considered in the therapeutic regimen of ovarian cancers with cisplatin as important knowledge for defending against resistant cancer cells.</p><p><strong>HIGHLIGHTS</strong></p><ul><li>The major problem during treatment with cisplatin is the appearance of acquired resistance in cancer cells.</li><li>The cisplatin- resistant and sensitive ovarian cell lines of A2780 were evaluated in this study.</li><li>Proteomics analysis was run using 2D gel electrophoresis after cisplatin treatment.</li><li>Three proteins were determined as the key players of resistance against cisplatin in A2780 cell line.</li></ul> 2020-03-04T10:46:10+00:00 Copyright (c) 2020 Trends in Peptide and Protein Sciences https://journals.sbmu.ac.ir/protein/article/view/5%3Ae2 Effect of High Salinity on Mycosporine-Like Amino Acid Production in Desmodesmus sp. 2020-04-06T09:37:04+00:00 Rouzbeh Gharib rouzbehgharib90@gmail.com Maryam Tabarzad m_tabarzad@sbmu.ac.ir Tahereh Hosseinabadi Hosseinabadi.t@gmail.com <p>Mycosporine like amino acids (MAAs) are UV absorbing compounds which are produced by a variety of organisms such as algae and cyanobacteria, in order to protect themselves from harmful UV irradiation. Thus, they can potentially be used as sunscreens in pharmaceutical and cosmetic industry. Many abiotic factors are studied which induce the production of MAAs in algae and cyanobacteria. In this investigation, we have cultivated the green microalga <em>Desmodesmus</em> sp. under salt stress and studied the effect of high salinity on MAAs biosynthesis. MAAs was extracted and partially purified using HPLC method. One compound with similar properties to MAAs was detected from the biomass extract, having a maximum absorption at 320 nm. Accordingly, this genus of microalgae can produce MAA-like compound under this condition, whereas it was not capable to synthesize MAA in normal condition. In fact, salinity is a stressor which can lead to the induction of MAAs synthesis in this microalga. Moreover, this investigation supports that the production of MAAs in microalgae helps the organism to survive in harsh environments, such as high salinity conditions.</p><p><strong>HIGHLIGHTS</strong></p><ul><li>Mycosporine like amino acids (MAAs) can be considered as valuable sunscreens.</li><li>High salinity condition can induce MAAs production.</li><li><em>Desmodesmus </em>sp<em>. </em>in high salinity medium can produce MAA compound.</li></ul> 2020-03-04T10:46:11+00:00 Copyright (c) 2020 Trends in Peptide and Protein Sciences https://journals.sbmu.ac.ir/protein/article/view/30913 Purification and Properties of Thermostable Fucoidanase Produced by Recently Isolated Terrestrial Aspergillus flavus FS018 2020-07-29T05:34:48+00:00 Emmanuel O. Garuba oluseungaruba@gmail.com Paul A. Adeleye dejile3@gmail.com Abiodun A. Onilude abiodun.onilude@gmail.com <p>In this study fucoidanase produced by terrestrial Apsergillus flavus FS018 was purified and characterized. The pure fucoidanase enzyme was found to have an optimum activity of 20.8U/mL at 55 ºC and optimum activity of 17.2U/mL at pH 5.0. Furthermore, the fucoidanase retained 96% of its activity after 8 hours of incubation at 55 ºC. Metal ions such Mg2+ and Ca2+ ions were found to slightly enhance the activity of this enzyme while Na+, K+ had inhibitory effect on the activity. The enzyme was found to be active towards fucoidan consisting of α-1→4 and α-1→3 glycoside bonds in the main chains and also galactofucans group. Estimation of the kinetic parameters of the enzyme revealed that Km and Vmax to be 1.9 mM and 0.38 mg/min, respectively when fucoidan from Sargassum vulgare was used as substrate. SDS-PAGE analysis of the purified enzyme revealed that it’s a monomeric enzyme molecule with an estimated molecular weight of 70 kDa.</p> <p><strong>HIGHLIGHTS</strong></p> <ul> <li>Fucoidanase from Aspergillus flavus FS018 was purified and characterized.</li> <li>Molecular weight of the enzyme was estimated to be 70kDa.</li> <li>Enzyme was active towards fucoidan consisting of α-1→4 and α-1→3 glycoside bonds in the main chains and also galactofucans group.</li> </ul> 2020-07-29T00:00:00+00:00 Copyright (c) 2020 Trends in Peptide and Protein Sciences