Preparation and properties of HDPE/sugarcane bagasse cellulose composites obtained for thermokinetic mixer

The use of natural fibers as reinforcement for thermoplastics has generated much interest due to their low cost, possibility of environmental protection and use of locally available renewable resources. In this work the mechanical and morphological properties of high density polyethylene/pre-treated and modified residues from sugarcane bagasse cellulose composites were analyzed. Composites were produced by a thermokinetic mixer. The microstructural analyses of fracture surface from composites can be easily evaluated by microscopic techniques. Results showed that the modification of sugarcane bagasse cellulose with zirconium oxychloride was successfully accomplished and that this reinforcement material with high density polyethylene showed tensile strength higher than non-modified sugarcane bagasse cellulose. Modification in the sugarcane bagasse cellulose influenced directly in mechanical properties of the composite material. This can be observed by the fracture surface, which showed that modified cellulose sugarcane bagasse improved interfacial adhesion between fiber and matrix.     

The reduction of Calpain-10 expression is associated with risk polymorphisms in obese children

Excessive weight gain and obesity are major public health concerns. Childhood obesity is growing at an alarming rate. Polymorphisms in the Calpain-10 gene and the reduced expression of this gene in muscle cells and adipocytes have been associated with an increased risk of type 2 diabetes mellitus in several populations. In the present study, we explored the contribution of Calpain-10 in the development of metabolic impairment in childhood. We evaluated the presence of risk polymorphisms in the CAPN10 gene (SNP-44, SNP-43, InDel-19 and SNP-63) and the associated changes in the Calpain-10 mRNA levels in a pediatric population. A total of 161 Mexican children between 4 and 18 years old were included in this study. This population was classified into three groups according to international growth references: healthy weight (HW), overweight (OW) and obese (OB). Association studies of the anthropometric data, clinical values, genotyping and expression assays showed a decrease in the Calpain-10 mRNA and protein expression in the OW and OB groups with respect to the HW group. This decrease in the Calpain-10 mRNA expression was more evident in individuals homozygous for SNP-44 (T/T) and InDel-19 (3/3), alone (p < 0.001 and p = 0.015, respectively) or in combination (p = 0.017). These polymorphisms were also associated with elevated BMI, weight percentiles, z-scores, waist circumferences, fasting glucose levels and beta cell functions in the OW and OB groups (p < 0.05). Moreover, our results indicate a statistically significant decrease in the expression of the 75-kDa Calpain-10 isoform in the OW+OB group. The presence of polymorphisms and alterations in the expression of the CAPN10 gene at early ages might result in metabolic impairment in adulthood and should be further investigated.     

Solution structure of native and recombinant expressed toxin CssII from the venom of the scorpion Centruroides suffusus suffusus, and their effects on Nav1.5 Sodium channels

The three-dimensional structures of the long-chain mammalian scorpion β-toxin CssII from Centruroides suffusus suffusus and of its recombinant form, HisrCssII, were determined by NMR. The neurotoxin CssII (nCssII) is a 66 amino acid long peptide with four disulfide bridges; it is the most abundant and deadly toxin from the venom of this scorpion. Both native and recombinant CssII structures were determined by nuclear magnetic resonance using a total of 828 sequential distance constraints derived from the volume integration of the cross peaks observed in 2D NOESY spectra. Both nCssII and HisrCssII structures display a mixed α/β fold stabilized by four disulfide bridges formed between pairs of cysteines: C1-C8, C2-C5, C3-C6, and C4-C7 (the numbers indicate the relative positions of the cysteine residues in the primary structure), with a distortion induced by two cis-prolines in its C-terminal part. The native CssII electrostatic surface was compared to both the recombinant one and to the Cn2 toxin, from the scorpion Centruroides noxius, which is also toxic to mammals. Structural features such N- and C-terminal differences could influence toxin specificity and affinity towards isoforms of different sub-types of Na_v channels.     

Multiple murine double minute gene 2 (MDM2) proteins are induced by ultraviolet light

The mdm2 (murine double minute 2) oncogene encodes several proteins, the largest of which (p90) binds to and inactivates the p53 tumor suppressor protein. Multiple MDM2 proteins have been detected in tumors and in cell lines expressing high levels of mdm2 mRNAs. Here we show that one of these proteins (p76) is expressed, along with p90, in wild-type and p53-null mouse embryo fibroblasts, indicating that it may have an important physiological role in normal cells. Expression of this protein is induced, as is that of p90, by UV light in a p53-dependent manner. The p76 protein is synthesized via translational initiation at AUG codon 50 and thus lacks the N terminus of p90 and does not bind p53. In cells, p90 and p76 can be synthesized from mdm2 mRNAs transcribed from both the P1 (constitutive) and P2 (p53-responsive) promoters. Site-directed mutagenesis reveals that these RNAs give rise to p76 via internal initiation of translation. In addition, mdm2 mRNAs lacking exon 3 give rise to p76 exclusively, and such mRNAs are induced by p53 in response to UV light. These data indicate that p76 may be an important product of the mdm2 gene and a downstream effector of p53.     

Rheb is a direct target of the tuberous sclerosis tumour suppressor proteins

Mutations in the TSC1 or TSC2 genes cause tuberous sclerosis, a benign tumour syndrome in humans. Tsc2 possesses a domain that shares homology with the GTPase-activating protein (GAP) domain of Rap1-GAP, suggesting that a GTPase might be the physiological target of Tsc2. Here we show that the small GTPase Rheb (Ras homologue enriched in brain) is a direct target of Tsc2 GAP activity both in vivo and in vitro. Point mutations in the GAP domain of Tsc2 disrupted its ability to regulate Rheb without affecting the ability of Tsc2 to form a complex with Tsc1. Our studies identify Rheb as a molecular target of the TSC tumour suppressors.     

Engineering soya bean seeds as a scalable platform to produce cyanovirin‐N,a non‐ARV microbicide against HIV

There is an urgent need to provide effective anti‐HIV microbicides to resource‐poor areas worldwide. Some of the most promising microbicide candidates are biotherapeutics targeting viral entry. To provide biotherapeutics to poorer areas, it is vital to reduce the cost. Here, we report the production of biologically active recombinant cyanovirin‐N (rCV‐N), an antiviral protein, in genetically engineered soya bean seeds. Pure, biologically active rCV‐N was isolated with a yield of 350 μg/g of dry seed weight. The observed amino acid sequence of rCV‐N matched the expected sequence of native CV‐N, as did the mass of rCV‐N (11 009 Da). Purified rCV‐N from soya is active in anti‐HIV assays with an EC₅₀ of 0.82–2.7 nM (compared to 0.45–1.8 nM for E. coli‐produced CV‐N). Standard industrial processing of soya bean seeds to harvest soya bean oil does not diminish the antiviral activity of recovered rCV‐N, allowing the use of industrial soya bean processing to generate both soya bean oil and a recombinant protein for anti‐HIV microbicide development.