Super molecular structure light thermal stable light fast brilliant red BBC dye and its intercalation methoddoi:CN1294211 C本发明介绍了一种超分子结构光热稳定型耐晒艳红BBC颜料及其插层方法. The present invention describes a supramolecular structure of light and heat-stable pigments and Fast Red BBC ...
Upon the addition of Hg2+, it assumed a hairpin structure, which became an available substrate for Exo III. Exo III would then cut the folded ssDNA probe into pieces and the dye was then detached from GO, leading to a strong fluorescence signal. However, the absence of Hg2+ could not ...
In the current study an eco-friendly method is presented to demonstrate that an abundant industrial waste can be successfully used for elimination of CR dye from polluted water. The adsorption capacity of FA for Congo Red40dye removal from simulated textile wastewater was investigated. However, FA ...
The aim of the study was to assess the initial progression of interstitial fibrosis and tubular atrophy in kidney grafts from uDCD formerly classified as “Maastricht II” non heart beating donors, using a new image analysis method based on Sirius Red staining. In the first part of our work, ...
This increase in dye release as function of temperature can be explained on the basis of temperature-responsive nature of the gels (40–42). For this gel, the TVPT is at 59.7◦C (cf. Table 1). Below this temperature, the gel is in the swollen (expanded) state, and above this ...
Pigment Red 63:1 is a commercially used dye for bulk coloring of plastics and synthetic fibers, as well as for surface coatings including paints and inks. AliasD&C Red No. 34 Chemical Properties Molecular Weight460.47 FormulaC21H12CaN2O6S ...
brighter and have higher negative charge than dextrans available from other sources. Furthermore, we use rigorous methods for removing as much unconjugated dye as practical, and then assay our dextran conjugates by thin-layer chromatography to help ensure the absence of low molecular weight ...
was added to each well. after 5min of reaction in the dark, the plate was read at emission and excitation wavelengths of 520 and 480nm, respectively. the principle of this assay is based on the high affinity of picogreen dye with the dsdna molecules. when dsdna is broken into single ...
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2b). In contrast, RNase treatment had no effect on Hoechst staining patterns, as this dye stains DNA rather than RNA. These results further confirm that RTCDs have higher affinity for the RNA-rich nucleolus, with good selectivity for identifying the nucleolus from the nucleus. Similar results ...