Notes

Anti-cancer Results of Epigenetics Medications Scriptaid and Zebularine within Individual Chest Adenocarcinoma Cellular material.
The deletions and duplications, with a high recurrence rate, were mainly observed in three mtDNA regions, m.534-4429, m.6330-13993 and m.8636-16072, where some were flanked by repetitive sequences. The mtDNA copy number in IBM muscle was reduced to 42% of controls. Immunohistochemical and western blot analyses of IBM muscle revealed combined complex I and complex IV deficiency affecting the COX-deficient fibers. In conclusion, deep sequencing and quantification of mtDNA variants revealed that IBM muscles had markedly increased levels of large deletions and duplications, and there were also indications of increased somatic single nucleotide variants and reduced mtDNA copy numbers compared to age-matched controls. The distribution and type of variants were similar in IBM muscle and controls indicating an accelerated aging process in IBM muscle, possibly associated with chronic inflammation.
Korean mugwort has been used as a traditional medicine. Specifically, air-dried Artemisia princeps Pamp. cv. ssajuari (ssajuari-ssuk; Korean mugwort) has been used as moxa in moxibustion therapy. Thus, the evaluation of high quality ssajuari-ssuk containing herbal volatiles is of great interest in clinical therapy and the food industry.

The aim of this study is to determine whether fast gas chromatography with uncoated surface acoustic wave (fast GC/SAW) sensor can be a useful technique for performing quality control using herbal volatiles of ssajuari-ssuk air-dried for different times.

Fast GC/SAW sensor, called "Electronic zNose", is also a headspace sampling method and is an effective simple analytical method with a second unit analysis providing on-line measurements without the need for pretreatment of the sample. Headspace solid-phase microextraction gas chromatography-mass spectrometry (HS-SPME-GC-MS) was employed to confirm the identification of the volatiles and compared to fast GC/SAW sensor.

Artemisia princeps Pamp. cv. ssajuari air-dried for 2 years and 4 months (the third year), containing the highest total amount of herbal volatiles, was superior to the others (the first year, the second year, the fourth year) in quality. Moreover, fast GC/SAW sensor shows a high repeatability (relative standard deviation 0.77% ∼ 6.23%), excellent sensitivity (limit of detection value of 0.47 pg/mL), and good linearity (correlation coefficient r
= 0.997) over the range of nanogram for α-thujone.

Therefore, the fast GC/SAW sensor can be a useful analytical method for the discrimination and quality control of volatiles of herbal and medicinal plants according to air-drying time, as it provides a simple and second unit analysis.
Therefore, the fast GC/SAW sensor can be a useful analytical method for the discrimination and quality control of volatiles of herbal and medicinal plants according to air-drying time, as it provides a simple and second unit analysis.Dental caries is one of the most common disorders in dentistry. Typically, it is caused by the dissolution of the tooth mineral due to cariogenic organisms. Bioapatite is vulnerable to acid-etching ascribed to a variety of substitutions. This study applied Pb2+ cations to probe the dissolution of synthetic carbonated hydroxylapatite (CHAp) in the acidic environment induced by Enterobacter sp. It indicated a decreasing tendency of crystallite size (from ∼400 nm to 10-20 nm) during gradual incorporation of carbonate (from 2.5 to 13.8 wt %). Meanwhile, the shape of CHAp crystals was transformed from elongated to plate-like. Addition of Enterobacter sp. α-Conotoxin GI enhanced P release from CHAp (especially for the CHAp with ∼8 wt % CO3 ) around 10 times. Moreover, the bacterium provided a moderately acidic environment to cause more formation of stable pyromorphite over other Pb-minerals, for example, Pb3 (PO4 )2 , and PbCO3 . Then, transmission electron microscopy-energy dispersive X-Ray spectroscopy mapping successfully confirmed the Pb labeling on the newly formed phosphate mineral as Pb (with high-atomic weight) has strong signal under electron microscopy. This study therefore elucidated that Pb labeling has a bright future to explore the degradation of tooth mineral by microorganisms, as well as to evaluate the resistance of calcium phosphate dental restorative materials.
Precise and accurate analysis of trace sulfur in environmental samples is essential to understand its biogeochemical cycle. Yet it remains a challenging analytical task for single-quadrupole inductively coupled plasma mass spectrometry (ICP-MS) instrumentation because of the presence of significant isobaric interferences.

We evaluated the effect that different instrumental parameters have on the formation of SO
species, and show that, under our instrumental configuration, it is not possible to fully remove all spectral interferences. Consequently, our instrumental optimization is focused on minimizing their contribution while obtaining the best possible sensitivity. We assessed the performance of the interference standard (IFS) method, where the signal corresponding to the SO
ions formed in the ICP is normalized to that of
Ar
.

We found that, by pressurizing the cell with O
, there is a significant improvement in sensitivity and detection limits, associated with a more effective production and focalization of SO
ions. Moreover, by applying the systematics of the IFS with pure O
injected into the cell (IFS-O
) we observed a significant improvement in accuracy and detection limits, making this the method of choice for the quantification of trace sulfur in environmental samples by ICP-MS.

The method described here represents an effective and affordable alternative for the accurate and precise determination of sulfur using single-quadrupole ICP-MS in environmental samples, with LODs and LOQs comparable with those obtained with more expensive instrumentation.
The method described here represents an effective and affordable alternative for the accurate and precise determination of sulfur using single-quadrupole ICP-MS in environmental samples, with LODs and LOQs comparable with those obtained with more expensive instrumentation.
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