Bioactive components of Gynura divaricata and its potential use in health, food and medicine：a mini-review

Background: G. divaricata (L.) DC belongs to genus the Gynura Cass which is a kind of perennial herb that has good health protection efficacy and is especially used widely in medicine and functional food. It is one of the most famous traditional Chinese medicinal herbs and is usually used to cure bronchitis, pulmonary tuberculosis, kink cough, rheumatism, diabetes, and so on. It has a long history for the treatment of diabetes mellitus in the folk medicine. This review is aimed at gathering all information relating to G. divaricata and obtaining new insights for further studies on G. divaricata.Materials and Methods: PubMed, Springer Link, Web of Science, Science Direct and Research Gate were used for the literature search. The key search terms included G. divaricata isolation and identification, flavonoids and theircombinations without language restriction. The period for the search is from year 1979 to 2016.Results: The main chemical components were listed, and the folk application, the extraction and separation methods of main chemical components, pharmacological effects of G. divaricata were discussed, which further demonstrated the plant’s value as health food and medicine.Conclusion: The present review is of great significance to the development of new medicinal resources and health food of G. divaricata.Keywords: G. divaricata, diabetes mellitus; chemical components; folk application; pharmacological effect

The Υ(1S)\Upsilon(1S) leptonic decay using the principle of maximum conformality

In the paper, we study the $\Upsilon(1S)$ leptonic decay width $\Gamma(\Upsilon(1S)\to \ell^+\ell^-)$ by using the principle of maximum conformality (PMC) scale-setting approach. The PMC adopts the renormalization group equation to set the correct momentum flow of the process, whose value is independent to the choice of the renormalization scale and its prediction thus avoids the conventional renormalization scale ambiguities. Using the known next-to-next-to-next-to-leading order perturbative series together with the PMC single scale-setting approach, we do obtain a renormalization scale independent decay width, $\Gamma_{\Upsilon(1S) \to e^+ e^-} = 1.262^{+0.195}_{-0.175}$ keV, where the error is squared average of those from $\alpha_s(M_{Z})=0.1181\pm0.0011$, $m_b=4.93\pm0.03$ GeV and the choices of factorization scales within $\pm 10\%$ of their central values. To compare with the result under conventional scale-setting approach, this decay width agrees with the experimental value within errors, indicating the importance of a proper scale-setting approach.Comment: 6 pages, 4 figure

BIOACTIVE COMPONENTS OF GYNURA DIVARICATA AND ITS POTENTIAL USE IN HEALTH, FOOD AND MEDICINE:A MINI-REVIEW

Background: G. divaricata (L.) DC belongs to genus the Gynura Cass which is a kind of perennial herb that has good health protection efficacy and is especially used widely in medicine and functional food. It is one of the most famous traditional Chinese medicinal herbs and is usually used to cure bronchitis, pulmonary tuberculosis, kink cough, rheumatism, diabetes, and so on. It has a long history for the treatment of diabetes mellitus in the folk medicine. This review is aimed at gathering all information relating to G. divaricata and obtaining new insights for further studies on G. divaricata Materials and Methods: PubMed, Springer Link, Web of Science, Science Direct and Research Gate were used for the literature search. The key search terms included G. divaricata isolation and identification, flavonoids and their combinations without language restriction. The period for the search is from year 1979 to 2016. Results: The main chemical components were listed, and the folk application, the extraction and separation methods of main chemical components, pharmacological effects of G. divaricata were discussed, which further demonstrated the plant’s value as health food and medicine. Conclusion: The present review is of great significance to the development of new medicinal resources and health food of G. divaricat

(E)-2-{3-[4-(Diphenyl­amino)styr­yl]-5,5-dimethyl­cyclo­hex-2-enyl­idene}­malono­nitrile

In the title compound, C31H27N3, the cyclo­hexene ring has an envelope configuration. In the crystal structure, there is an 34 Å3 void around the inversion center, but the low electron density (0.13 e Å−3) in the difference Fourier map suggests no solvent mol­ecule occupying this void. No hydrogen bonding is found in the crystal structure

3′,6′-Bis(ethyl­amino)-2′,7′-dimethyl-2-{2-(E)-[(thio­phen-2-yl)methyl­idene­amino]­eth­yl}spiro­[isoindoline-1,9′-xanthen]-3-one methanol monosolvate

The title compound, C33H34N4O2S·CH3OH, was prepared as a spiro­lactam ring formation of rhodamine 6 G dye for comparison with a ring-opened form. The xanthene and spiro­lactam rings are approximately planar [r.m.s. deviations from planarity = 0.122 (3) and 0.072 (6) Å, respectively]. The dihedral angles formed by the spiro­lactam and thio­phene rings with the xanthene ring system are 89.7 (6) and 86.5 (2)°, respectively. The crystal structure features N—H⋯O and C—H⋯O hydrogen bonds