FET-based nanobiosensors for the detection of smell and taste

Various nanobiosensors composed of biomaterials and nanomaterials have been developed, due to their demonstrated advantage of showing high performance. Among various biomaterials for biological recognition elements of the nanobiosensor, sensory receptors, such as olfactory and taste receptors, are promising biomaterials for developing nanobiosensors, because of their high selectivity to target molecules. Field-effect transistors(FET) with nanomaterials such as carbon nanotube(CNT), graphene, and conducting polymer nanotube(CPNT), can be combined with the biomaterials to enhance the sensitivity of nanobiosensors.Recently, many efforts have been made to develop nanobiosensors using biomaterials, such as olfactory receptors and taste receptors for detecting various smells and tastes. This review focuses on the biomaterials and nanomaterials used in nanobiosensor systems and studies of various types of nanobiosensor platforms that utilize olfactory receptors and taste receptors which could be applied to a wide range of industrial fields, including the food and beverage industry, environmental monitoring, the biomedical field, and anti-terrorism.     

Adipogenic differentiation of adipose tissue derived adult stem cells in nude mouse

We evaluated the use of a combination of adipose tissue derived adult stem cells (ADSCs) obtained from liposuction and injectable poly(lactic-co-glycolic acid) (PLGA) spheres for adipose tissue engineering. Adipogenesis was examined in nude mice injected subcutaneously with ADSCs (group I), PLGA spheres (group II), or ADSCs attached PLGA spheres (group III) cultured in adipogenic medium for 7 days. After 4 and 8 weeks, newly formed adipose tissue was observed in groups II and III but not in group I. Oil red O staining of newly formed tissue showed that there was substantially more tissue regeneration and adipogenic differentiation in group III than in group II. RT-PCR confirmed that, after 8 weeks, the PLGA-attached ADSCs had fully differentiated into adipocytes. This study provides significant evidence that ADSCs and PLGA spheres can be used in a clinical setting to generate adipose tissue as a noninvasive soft tissue filler.     

Production of a major stilbene phytoalexin, resveratrol in peanut (Arachis hypogaea) and peanut products: a mini review

As a major stilbene phytoalexin, resveratrol is produced or elicited in several plant species as a part of defense systems protecting plants against diseases. Resveratrol can be present in both the trans- and cis-isomeric forms, and only the trans-form increases the life expectancy and lowers the risk of cardiovascular diseases as the most bioactive form. In addition to the usages for diet and industry, peanut plant (Arachis hypogaea) and peanuts are getting higher attention due to their containment of resveratrol in the kernels and other parts of peanut plant, such as leaves, roots, and peanut shell. Recently, natural resveratrol derived from peanuts has also become a promising nutraceutical agent, promoting human health. Resveratrol has also been detected in peanut products including peanut butters, roasted peanuts, and boiled peanuts. Although, smaller and immature peanuts contain higher levels of resveratrol than mature peanuts, resveratrol in peanuts can also be preserved by cooking or manufacturing processes. Moreover, the amount of resveratrol in peanut plants and peanuts has been found to increase by external stimuli including microbial infection, wounding, UV light irradiation, ultrasonication, yeast extract treatment and by plant stress hormones. In addition, molecular level analysis has confirmed that four resveratrol synthase (RS) genes (RS1, RS2, RS3 and RS4) which catalyze synthesis of resveratrol have been identified in peanuts, and up-regulation of the genes is positively correlated to the increased contents of resveratrol. In this review, we summarize the natural biosynthesis of resveratrol in peanuts and peanut plants, as well as the occurrence of this natural phytoalexin in various peanut products. A brief knowledge on the biosynthetic pathway of resveratrol synthesis has been described. This review also deals on highlighting the effect of various external stimuli (biotic and abiotic stresses) in order to achieve the maximum induction and/or elicitation of resveratrol in peanuts and peanut plants.     

Geographical distribution and genetic diversity of Plasmodium vivax reticulocyte binding protein 1a correlates with patient antigenicity

Plasmodium vivax is the most widespread cause of human malaria. Recent reports of drug resistant vivax malaria and the challenge of eradicating the dormant liver forms increase the importance of vaccine development against this relapsing disease. P. vivax reticulocyte binding protein 1a (PvRBP1a) is a potential vaccine candidate, which is involved in red cell tropism, a crucial step in the merozoite invasion of host reticulocytes. As part of the initial evaluation of the PvRBP1a vaccine candidate, we investigated its genetic diversity and antigenicity using geographically diverse clinical isolates. We analysed pvrbp1a genetic polymorphisms using 202 vivax clinical isolates from six countries. Pvrbp1a was separated into six regions based on specific domain features, sequence conserved/polymorphic regions, and the reticulocyte binding like (RBL) domains. In the fragmented gene sequence analysis, PvRBP1a region II (RII) and RIII (head and tail structure homolog, 152–625 aa.) showed extensive polymorphism caused by random point mutations. The haplotype network of these polymorphic regions was classified into three clusters that converged to independent populations. Antigenicity screening was performed using recombinant proteins PvRBP1a-N (157–560 aa.) and PvRBP1a-C (606–962 aa.), which contained head and tail structure region and sequence conserved region, respectively. Sensitivity against PvRBP1a-N (46.7%) was higher than PvRBP1a-C (17.8%). PvRBP1a-N was reported as a reticulocyte binding domain and this study identified a linear epitope with moderate antigenicity, thus an attractive domain for merozoite invasion-blocking vaccine development. However, our study highlights that a global PvRBP1a-based vaccine design needs to overcome several difficulties due to three distinct genotypes and low antigenicity levels.     

Functional analysis of desVIII homologues involved in glycosylation of macrolide antibiotics by interspecies complementation

The DesVIII is an auxiliary protein which enhances the transfer of TDP-d-desosamine catalyzed by DesVII glycosyltransferase in the biosynthesis of macrolide antibiotics, neomethymycin, methymycin and pikromycin, in Streptomyces venezuelae ATCC 15439. Homologues of the desVIII gene are present in a number of aminosugar-containing antibiotic biosynthetic gene clusters including eryCII from the erythromycin producer Saccharopolyspora erythraea, oleP1 from the oleandomycin producer Streptomyces antibioticus, dnrQ from the doxorubicin producer Streptomyces peucetius, and tylMIII from the tylosin producer Streptomyces fradiae. In order to gain further insight into the function of these DesVIII homologues, interspecies complementation experiments were carried out by expressing each gene in a desVIII deletion mutant strain of S. venezuelae. Complementation by expressing EryCII, OleP1, and DnrQ in this mutant strain restored the production of glycosylated macrolides to an approximate level of 66%, 26% and 26%, respectively, compared to self-complementation by DesVIII. However, expression of TylMIII did not restore the antibiotic production. These results suggest that the DesVIII homologues (except for TylMIII) can functionally replace the native DesVIII for glycosylation to proceed in vivo and their functions are similar in acting as glycosyltransferase auxiliary proteins. The requirement of glycosyltransferase auxiliary protein seems to be more widespread in polyketide biosynthetic pathways than previously known.     

西北旱区1961-2011年参考作物蒸散量的时空分异

全球变化背景下分析参考作物蒸散量的变化特征,对于农业生产和水资源管理等有重要指导意义。根据西北旱区152个气象站点1961—2011年气象资料计算参考作物蒸散量(ET0),分析了其空间分布及时间变化趋势,并探讨了其变化原因。1961—2011年西北旱区年均ET0为1100.4 mm/a,但存在空间变异,低值出现在黄土高原南部区域,高值出现在西北部沿东南-西北方向的条带上。ET0整体呈不显著的上升趋势,但64和36个站点分别呈显著的上升和下降趋势;西北旱区ET0发生突变的年份东部较西部晚。ET0的时空变异是气象因子时空变化的组合效应,ET0对相对湿度和最高温度的变化最敏感,但过去50a ET0变化中风速和最高温度的贡献率最大。西北旱区ET0的变化发生了重要改变,由2000年以前的下降趋势转变为目前的上升趋势,可能加剧该区的水资源短缺状况,需引起足够的重视。     

Structural characteristics and biological performance of silk fibroin nanofiber containing microalgae spirulina extract

Silk fibroin (SF) nanofiber scaffold containing microalgae Spirulina extract were prepared by electrospinning and the performance and functionality of the scaffold were evaluated. The viscosity and conductivity of the dope solution of Spirulina containing SF were examined for electrospinability and we found that the morphological structure of SF nanofiber is affected by the concentration of Spirulina extract added. The platelet adhesion and coagulation time test confirmed that the Spirulina containing SF nanofiber scaffold had excellent ability to prevent blood clotting or antithrombogenicity that is comparable to heparin. Low cytotoxicity and excellent cell adhesion and proliferation were also observed for Sprulina containing SF nanofiber scaffold by methylthiazolyldiphenyl‐tetrazolium bromide assay and confocal fluorescence microscope using fibroblast and human umbilical vein endothelial cells. Based on these results, we believe SF nanofiber scaffold containing Spirulina extract has the potential to be used as tissue engineering scaffold that requires high hemocompatibility. © 2013 Wiley Periodicals, Inc. Biopolymers 101: 307–318, 2014.     

CACTA and MITE transposon distributions on a genetic map of rice using F15 RILs derived from Milyang 23 and Gihobyeo hybrids

Up to 35% of the rice genome consists of various kinds of transposons, and CACTA and MITE are two of the major class 2 DNA transposons in the genome. We have employed the consensus sequences of Rim2/Hipa CACTA, Stowaway MITE Pangrangja, and Tourist MITE Ditto for transposon display (TD) analysis to locate them on a genetic map, with 58 SSR markers used to anchor them. The TD analysis produced a high profile of the polymorphisms between the parental lines, Oryza sativa var. Gihobyeo/O. sativa var. Milyang, in intraspecific F15 RIL lines, locating 368 markers of Rim2/Hipa CACTA, 78 markers of Tourist MITE Ditto, and 22 markers of Stowaway MITE Pangrangja. In the segregation analysis, non-parental segregating bands and segregation distortion bands were observed. The recombinant genetic map spans 3023.9 cM, with 5.7 cM the average distance between markers. The TD markers were distributed unequally on the chromosomes because many TD markers were located in pericentric chromosomal regions except in the cases of chromosomes 2, 3, 6 and 9. Although the number of transposon markers was not sufficient to include all rice class 2 transposons, the current map of CACTA and MITE transposons should provide new insight into the genome organization of rice since no previous DNA transposon map is available.     

Crystal structure of filamentous aggregates of human DJ-1 formed in an inorganic phosphate-dependent manner

Mutations in the DJ-1 gene have been implicated in the autosomal recessive early onset parkinsonism. DJ-1 is a soluble dimeric protein with critical roles in response to oxidative stress and in neuronal maintenance. However, several lines of evidence suggest the existence of a nonfunctional aggregated form of DJ-1 in the brain of patients with some neurodegenerative diseases. Here, we show that inorganic phosphate, an important anion that exhibits elevated levels in patients with Parkinson disease, transforms DJ-1 into filamentous aggregates. According to the 2.4-A crystal structure, DJ-1 dimers are linearly stacked through P(i)-mediated interactions to form protofilaments, which are then bundled into a filamentous assembly.