Abstract. Purification of extracellular α-amylase from Bacillus subtilis KIBGE HAS was carried out by ultrafiltration, ammonium sulfate precipitation and gel filtration chromatography. The enzyme was purified to homogeneity with 96.3-fold purification with specific activity of 13011 U/mg. The molecular weight of purified α-amylase was found to be 56,000 Da by SDS-PAGE. Characteristics of extracellular α-amylase showed that the enzyme had a Km and V max value of 2.68 mg/ml and 1773 U/ml, respectively. The optimum activity was observed at pH 7.5 in 0.1 M phosphate buffer at 50°C. The amino acid composition of the enzyme showed that the enzyme is rich in neutral/non polar amino acids and less in acidic/polar and basic amino acids. The N-terminal protein sequence of 10 residues was found to be as Ser-Ser-Asn-Lys-Leu-Thr-Thr-Ser-Trp-Gly (S-S-N-K-L-T-T-S-W-G). Furthermore, the protein was not N-terminally blocked. The sequence of α-amylase from B. subtilis KIBGE HAS was a novel sequence and showed no homology to other reported α-amylases from Bacillus strain.
Salivary factors have been studied for their effects on the process of dental caries in patients of diabetes mellitus type 2. In this study, protective role of salivary pH, salivary flow rate, and salivary calcium is assessed in the patients of diabetes mellitus type 2 with dental caries. The samples of saliva were collected from 400 patients of diabetes mellitus type 2 and 300 age- and sex- matched controls after getting informed consent. All the subjects were classified into four groups according to age. The severity of dental caries was counted by decayed, missed, and filled teeth (DMFT) score. The salivary pH, flow rate, and calcium levels were found to be low in patients as compared to controls. The levels of fasting blood sugar, HbA1c, and DMFT score were found to be significantly high in patients than controls. The glycemic factors were significantly correlated with salivary factors indicating their influence on progression of caries in diabetes. On the basis of findings, it is concluded that the suitable salivary pH and flow rate may be regarded as main protective factors against dental caries in diabetes. Optimum level of salivary calcium may be responsible for continuous supply of calcium to arrest the demineralization and help reduce the occurrence of dental caries.
Nuclear factor kappaB (NF-κB) is a central transcription factor in the immune system and modulates cell survival in response to radiotherapy. Activation of NF-κB was shown to be an early step in the cellular response to ultraviolet A (UVA) and ionizing radiation exposure in human cells. NF-κB activation by the genotoxic stress-dependent sub-pathway after exposure to different radiation qualities had been evaluated to a very limited extent. In addition, the resulting gene expression profile, which shapes the cellular and tissue response, is unknown. Therefore, in this study the activation of NF-κB after exposure to low- and high-linear energy transfer (LET) radiation and the expression of its target genes were analyzed in human embryonic kidney (HEK) cells. The activation of NF-κB via canonical and genotoxic stress-induced pathways was visualized by the cell line HEK-pNF-κB-d2EGFP/Neo L2 carrying the destabilized enhanced green fluorescent protein (d2EGFP) as reporter. The NF-κB-dependent d2EGFP expression after irradiation with X rays and heavy ions was evaluated by flow cytometry. Because of differences in the extent of NF-κB activation after irradiation with X rays (significant NF-κB activation for doses >4 Gy) and heavy ions (significant NF-κB activation at doses as low as 1 Gy), it was expected that radiation quality (LET) played an important role in the cellular radiation response. In addition, the relative biological effectiveness (RBE) of NF-κB activation and reduction of cellular survival were compared for heavy ions having a broad LET range (∼0.3-9,674 keV/μm). Furthermore, the effect of LET on NF-κB target gene expression was analyzed by real-time reverse transcriptase quantitative PCR (RT-qPCR). The maximal RBE for NF-κB activation and cell killing occurred at an LET value of 80 and 175 keV/μm, respectively. There was a dose-dependent increase in expression of NF-κB target genes NF-κB1A and CXCL8. A qPCR array of 84 NF-κB target genes revealed that TNF and a set of CXCL genes (CXCL1, CXCL2, CXCL8, CXCL10), CCL2, VCAM1, CD83, NF-κB1, NF-κB2 and NF-κBIA were strongly upregulated after exposure to X rays and neon ions (LET 92 keV/μm). After heavy-ion irradiations, it was noted that the expression of NF-κB target genes such as chemokines and CD83 was highest at an LET value that coincided with the LET resulting in maximal NF-κB activation, whereas expression of the NF-κB inhibitory gene NFKBIA was induced transiently by all radiation qualities investigated. Taken together, these findings clearly demonstrate that NF-κB activation and NF-κB-dependent gene expression by heavy ions are highest in the LET range of ∼50-200 keV/μm. The upregulated chemokines and cytokines (CXCL1, CXCL2, CXCL10, CXCL8/IL-8 and TNF) could be important for cell-cell communication among hit as well as nonhit cells (bystander effect).
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