“The changes in the microstructure of tomato paste suspens


“The changes in the microstructure of tomato paste suspensions have been investigated during homogenisation and subsequent shearing in suspensions with similar composition, at three tomato paste concentrations 10, 30 and 40%. The suspensions were characterised by the particle size distribution

(PSD), volume fraction (empty set), and dynamic theological properties (G`, G ”). All suspensions exhibit a solid-like behaviour with G`> G ”. Micrographs indicate that the process of homogenisation creates a smooth network of finer particles, that is easily disrupted by prolonged shearing, giving rise to the formation of densely packed flocs that become clearly oriented in the direction of the shearing. At high concentrations, these changes in the microstructure on homogenisation and subsequent shearing were better check details reflected by differences in empty set than in G`. The rheological behaviour of the suspensions exhibits a power-law dependence on empty set, over a large range of PSD and for 0.05 < empty set < 0.55. Finally, an experimental equation, including empty set and the size of the coarse particles in the surface-weighted PSD, is found to accurately estimate G` (R(2)> 99.3%, p < 0.001). (c) 2011 Elsevier Ltd. All selleckchem rights reserved.”
“In this article, it is demonstrated that simultaneously strengthened

and toughened nanocomposites based on polypropylene/EPDM thermoplastic elastomer (TPO) matrix can be achieved through enhanced adhesion between MWNTs and polymer matrix by using PP grafted multiwalled carbon nanotubes (MWNTs). To improve the interface between filler MLN8237 nmr and matrix, MWNTs were treated with acid, or covalently linked to polypropylene. The chemical and morphological transformation of the modified MWNTs, and its effect on the morphology and mechanical properties of the composites are investigated. The strengthening and toughening mechanism is discussed regarding the structural property relationship. (C) 2011 Wiley Periodicals, Inc. J Appl Polym Sci 121: 2104-2112,

2011″
“Transcription is the first step connecting genetic information with an organism’s phenotype. While expression of annotated genes in the human brain has been characterized extensively, our knowledge about the scope and the conservation of transcripts located outside of the known genes’ boundaries is limited. Here, we use high-throughput transcriptome sequencing (RNA-Seq) to characterize the total non-ribosomal transcriptome of human, chimpanzee, and rhesus macaque brain. In all species, only 20-28% of non-ribosomal transcripts correspond to annotated exons and 20-23% to introns. By contrast, transcripts originating within intronic and intergenic repetitive sequences constitute 40-48% of the total brain transcriptome. Notably, some repeat families show elevated transcription. In non-repetitive intergenic regions, we identify and characterize 1,093 distinct regions highly expressed in the human brain.

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