Critical concentration of Glucose changes human serum albumin conformation: Circular Dichroism (CD)and UV Spectroscopyapproaches

HSA plays an important role in transporting metabolites and drugs throughout the vascular system.  In as much as its performance is very vital in the presents of different kinds of ligands at the specific body temperatures, its examination is crucial. This molecule can undergo increased glycation in diabetes. Therefore, glucose as the one of the most fundamental ligands dealing with albumin in human body is examined in this study at 100 mg/dl concentration in correspond to normal condition on human body, 175 mg/dl as a kidney glucose tolerance point and also 400 mg/dl as the critical point at the two most important temperatures in diabetic patients. Thermal conformational changes of (HSA) are important. These conformational alterations are accompanied by a mild alteration of secondary structures. For this reason, possible secondarystructural changes of HSA in presence of glucose has beeninvestigated by circular dichroism (CD) using Hepes bufferat the normal temperature 37˚C and 42˚C as a high fever condition.UV spectroscopystudies confirmed CD findings and indicate that critical concentration of glucoselead to generation of new structural feature of albumin similar to 42oC. However, as the temperature increases from 37˚C to 42˚C this process is no more capable of responding to glucose concentration changes.These results indicate that the native form of HSA is changed in the severe diabetic condition; likewise, same consequences can be achieved as the temperature arises from 37˚C to 42˚C

Valproate Effects on Chemophysical Properties of Human Serum Albumin

Albumin has a fundamental role in human body. Its main tasks in blood are to regulate osmotic blood pressure, maintaining the pH, and transporting metabolites and drugs throughout the vascular system.  Pharmacological studies of the interaction of drugs on HSA are important due to structural and functional changes of this vital protein; thus, here in this research the effect of valproate as a common drug for epilepsy disorders is evaluated in the presence of hexadecyl pyridinium bromide (HPB) as a positive surfactant in normal and fever condition. Electrochemical method was used to investigate the binding number of HPB molecules to HSA in the absence and presence of valproate by evaluating the concentration of free HPB in 37oC and 42oC temperatures. HSA affinity for valproate binding studied via ligand binding process for normal and fever temperatures. The findings indicate that, there is a significant difference in valproate binding to albumin at physiological and pathological temperatures. The consequences are the same in the presence of HPB; in other words, HSA binding tendency to HPB in the presence of valproate was totally altered because of HSA major conformational changes in fever condition. In conclusion, corrected dosage of valproate is needed for fever condition relative to normal temperature and the patients under prescription of different medications in fever condition should have different orders due to the interferences of drugs.

Herbal remedies and medicine; introducing some Iranian plants

     The overall goal of this review is to discuss the potential efficacy of herbal treatments. Plants are considered among the main sources of biologically active chemicals. Plant based drugs usage in our past decay became very renowned due to their fewer side effects and being less expensive than chemical ones. Recently, more abrupt tendency in this field has been increased. Furthermore, advances in molecular and cellular determinations revealed effective properties of these herbal components. Some plants extracts have shown multi-functional properties such as anti-oxidant, anti-amyloid, antimicrobial, and anti-inflammatory; further studies, besides,   are required for detailed chemical characterization and more extensive biological evaluation of the most active ingredients. In summary, herbals can be considered as novel therapeutic approach against wide range of diseases. This review article draws the attention to some species of plants possessing biological activities on human health

Use of neural network for optimization of energy cost in moving limb

Artificial neural networks are used in many smart apparatus and different fields such as signal processing pattern diagnoses, military systems, medicine, financial systems, and artificial intelligence. In this article using quality of neural networks in optimizing energy cost in moving limb and its effectiveness in organization a cognitive function founded by presenting an algorithm for use in human smart robotics and worldwide research will be described and discussed. Neural system contributes to minimal cost energy in decision-making and command exportation to skeletal muscle and suggested optimal energy cost in skeletal muscle that could be presented in software conformation.

Does three months genistein and daidzein in the form of soy protein supplementation have any effects on bone formation markers after menopause?

Postmenopausal osteoporosis is caused by a sharp decrease in estrogen levels leading to an increased rate of bone remodeling. Dietary supplements are preferred as alternative therapeutic options for many women instead of estrogen therapy. These alternative therapies include the use of natural substances such as soy isoflavones due to their weak estrogenic activity and affinity for estrogen receptors.Present study was carried out as a "before and after clinical trial" on 25 postmenopausal women aged 45-64 years. Soy protein at 35g level containing 98.3mg isoflavones (containing 47.2 genistein and 37.8 daidzein) were given to subjects daily for 12 weeks. Blood and urine samplings were done in 3 stages, in the beginning and at the end of 6th and 12th week. Repeated measurement analysis was employed to analyze any possible changes in food intake and biochemical variables in 3 stages. The level of significance was set at below 5 percent (P<0.05). Mean body mass index and physical activity level had no change and mean daily intake of macronutrients and important micronutrients were not different at 6 and 12 weeks compared to the start of the study The results showed a total serum alkaline phosphatase (TALP) significant increase while the other bone formation indicators namely osteocalcin and insulin growth factor binding protein (IGFBP3) did not change significantly. These data suggest that soy protein or its isoflavones may increase bone formation by supplementation

Chronic myeloid leukemia as a stem cell-derived malignancy

Chronic myeloid leukemia (CML) is a myeloproliferative disease of the hematopoietic stem cells, characterized by the presence of the Philadelphia (Ph) chromosome. Although imatinib inhibits the BCR-ABL kinase activity, clinical experiences confirm that imatinib may not target CML stem cells in vivo. The identification of signaling pathways responsible for the self-renewal properties of leukemic stem cells in CML will help in the discovery of novel therapeutic targets. Here we review signaling pathways including Wnt/β-catenin, Hedgehog, Alox5, and Foxo which play crucial roles in the maintenance of stem cell functions in CML. It is thought that inhibition of key genes that are part of self-renewal associated signaling pathways may provide an effective way to reduce aberrant stem cell renewal in CML

Surface modification by using of immobilized electrostatic self-assembly of bacteriorhodopsin as protein memory

        Bacteriorhodopsin (BR) is the light harvesting and photoactive proton pump found in the membrane of a salt marsh bacteria. This protein has significant potential to use in optical computing and memory devices due to unique intrinsic physical properties of photo and bioelectric. All these features make BR one of the most promising protein candidates in protein memories. Protein memory is a kind of optical memory with a large storage capacity and high speed processing features. BR protein was used with the polymer film in order to create better stability. In order to investigate immobilization of electrostatic self-assembly of BR on glass and polycarbonate as protein memories was used. Polycarbonate is a layer of compact disc (CD) structure which considered dye immobilized on its surface and have reading and writing abilities of information via 0,1 bites. In this study, surfaces of polycarbonate modified by the mixture of 5% sulfuric acid and 20% acetic acid; furthermore, by using of PEI as cationic resin the surface of polycarbonate was charged and BR immobilized on it electrostatically. The modified surfaces were characterized by AFM technique. Also, light activity for reading data is retained. This is an appropriate method for optimal stability and activity assay of the protein and also is suitable for preparation of protein memories.

Light at Night Exposure Effects Differentiation and Cell Cycle in Rat Liver with Autonomic Nervous System Denervation

Introduction: Exposure to the artificial light at night (LAN) effect human health and causes several functional modification in body. Obesity, diabetes, and hormonal changes are reported after LAN in humans. Aim of this study is highlighting critical features of gene expression changes in liver of rats which are received autonomic nervous system.Methods: Liver gene expression profiles of 5 male Wistar rats that were received a sympathetic plus parasympathetic hepatic denervation and 1 hour expose light at night (LAN) from Gene Expression Omnibus (GEO) are compared with controls. The significant differentially expressed genes (DEGs) are screened by protein-protein interaction (PPI) network analysis STRING database (an application of Cytoscape software). CuleGO and CleuDedia the two applications of Cytoscape software were used for more analysis. Results: Among 250 DEGs, 173 genes characterized genes with fold change more than 2 plus 100 added relevant genes were included in the PPI network. Analysis of the main connected component (MCC) led to introduce 15 hubs and 15 bottlenecks. CCT2, COPS7A, KAT2A, and ERCC1were determined as hub-bottlenecks. Among hubs and bottlenecks, DHX15, KAT2A, CCT2, HSP90AB1, CCNE1, DHX16, LSM2, WEE1, CWC27, BAZ1B, RAB22A, DNM2, and DHX30 were linked to the each other’s by various kinds of actions. CCT2 and KAT2A, the two hub-bottlenecks are included in the interacted genes in the action map. Four classes of biological terms including negative regulation of non-motile cilium assembly, negative regulation of transforming growth factor beta activation, alpha-tubulin acetylation, and histamine-induced gastric acid secration were identified as the critical involved biochemical pathways and biological processes.Conclusion: Several essential functions as like differentiation, cell cycle, ribosome assembly, and splicing are affected by LAN in rat liver with autonomic nervous system denervation.

Biomarker Profiling (Erbb2, P53, and PR) for Stage I of Breast Cancer

Breast cancer (BC) accounts for one of the major health problems around the world. Since the diagnosis process can have great effect on therapy outcomes, we studied the biomarkers specific to breast tumors stage I based on examining different Iranian patients. Cases from different stages were examined to discover their highly expressed proteins. In addition, pathologic evaluations were performed as the diagnosis procedure. Considering positive percentage of over-expressed protein in different stages in the population, it is guessed that over-expression of ErBb2 and PR are positively correlated, while P53 is in negative correlation with them. Therefore, these molecules can probably account for stage I biological marker. This study suggests that alterations in over-expression of specific biomarkers in different stages may be associated to the stage classification, and can help achieve more effective therapies of this malignancy

Duchenne muscular dystrophy (DMD) protein- protein interaction mapping

ObjectiveDuchenne muscular dystrophy as one of the mortal diseases is prominent to study in terms of molecular investigation. In this study, the protein interaction map of this muscle-wasting condition is generated to gain a better knowledge of interactome profile of DMD.Materials & Methods Applying Cytoscape and String Database, the protein-protein interaction network was constructed and the gene ontology of the constructed network was analyzed for biological process, molecular function, and cell component annotations.ResultsThe results indicate that among 100 proteins that are related to DMD, Dystrophin, Utrophin, Caveolin 3, and Myogenic differentiation 1 play key roles in DMD network. In addition, the gene ontology analysis showed that regulation processes, kinase activity and sarcoplasmic reticulum are the highlighted biological processes, molecular function, and cell component enrichments respectively for the proteins related to DMD.  ConclusionIn conclusion, the central proteins and the enriched ontologies can be suggested as possible prominent agents in DMD; however, the validation studies may be required