When the step edges are perpendicular to the incident beam azimuth, the atomic density is the primary origin and the
step density is a subsidiary one. When the step edges are parallel to the incident beam azimuth, the step density is the primary origin and the atomic density is a subsidiary one.”
“A disproportionately large number of young (<50 years) black patients present with colorectal cancer (CRC) in South Africa. Although a phenomenon previously described elsewhere in Africa, its specific molecular basis, whether sporadic or hereditary, has not been established. Molecular analysis of these tumours could link them CA3 ic50 to the features known to be associated with specific types of hereditary colorectal cancer, specifically through examination of levels of microsatellite instability, promoter methylation and the presence or absence of KRAS and BRAF mutations. The molecular features of cancer tissue samples from 44 CRC cases of black and
white patients in South Africa were accordingly retrospectively analysed without knowledge of family history. Compared with samples from older blacks (>50 years), those from young black patients presented more often with a low methylation phenotype (CIMP-L) and high levels of microsatellite instability Linsitinib cell line (MSI-H). Furthermore, as determined by real-time PCR using probe technology, the tissues from 35% of young blacks showed mutations within exon 1 of the KRAS gene. The BRAF-V600E mutation was only evident in the case of a single young black patient. Based on these results it seems likely that a proportion of CRC cases in young black patients from South Africa develop through the accumulation of mutations Cell Cycle inhibitor resulting in a mismatch repair deficiency linked to MSI-H and, possibly, germline mutations in the mismatch repair genes. The features in these patients are consistent with a diagnosis of the Hereditary Non-Polyposis Colorectal Cancer (HNPCC) syndrome. This finding has important Implications for patient management and suggests that family members may be at high risk for CRC.”
“Several polyacrylonitrile (PAN)/tea polyphenol (TP) blends were prepared with various mixing weight ratios (percentage). With a
commercial acrylonitrile-butadiene-styrene (ABS) as reference, the results show that the PAN/TP blends with 12.5 wt % TP had a better antiwear ability and similar hardness to those of ABS. All of the prepared PAN/TP blends showed a lower impact strength than the referenced ABS. However, some values were indeed higher than those reported for engineering materials in the literature, for example, polystyrenes and some ABS blends. Differential scanning calorimetry, differential thermogravimetry, and dynamic mechanical analysis indicated that the PAN/TP blends had enhanced the thermal stability compared to the pure PAN. Fourier transform infrared spectral analysis suggested that the H bonds increased in the PAN/TP blends. (c) 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci.