Research Progress of β-Klotho in Energy Metabolism and Tumor Development / 中国生物化学与分子生物学报

β-Klotho (KLB) is a member of the Klotho protein family, which is mainly distributed in organs and tissues such as the liver, fat, pancreas, and brain. KLB is a single-pass transmembrane protein whose structural characteristics determine that KLB acts as a co-receptor for fibroblast growth factor (FGF) 19/21 targeting the activation of fibroblast growth factor receptor (FGFRs). KLB is involved in the regulation of blood glucose, lipids, body weight, bile acid circulation, and hepatocyte proliferation in the FGF21/19-KLB-FGFRs pathway. This paperwill review the structural characteristics and distribution of KLB, as well as the regulatory mechanism of material energy and its role in tumor formation in the FGF19/21-KLB-FGFRs pathways.

Identification of Notopterygium seeds using DNA barcoding method / 中国中药杂志

In order to guarantee the species correction of Notopterygium seeds, a molecular identification method with ITS2 as DNA barcode has been verified. In this study, 27 samples of Notopterygium seeds were collected from the main producing area of Notopterygium. The morphological characteristics of the Notopterygium seeds were firstly surveyed. Then the DNA extraction, PCR amplification, DNA sequencing and DNA assembly were carried out. The species identification for a Notopterygium seed was implemented through distance method, NJ-tree method and the DNA barcoding system for traditional Chinese medicine (www.tcmbarcode.cn). The results showed that the seeds of N. incisum and N. franchetii had similar morphological characteristics and were difficult to distinguish clearly based on morphological descriptions. With the results of molecular identification, 24 samples were genuine including 13 N. incisum seeds samples and 11 N. franchetii genuine seeds samples. In conclusion, DNA barcode technology can accurately and efficiently identify the species of Notopterygium seeds. Furthermore, this study will provide a new method for germplasm resources identification of medicinal materials and supplies some guidelines for establishing Chinese herbal seeds and seedlings quality standards.

Molecular identification of hippocampus and its adulterants based on COI barcode / 中国药学杂志

OBJECTIVE: To establish an accurate identification method of genuine Hippocampus based on COI sequences as DNA barcodes and analyze the relationship between the genuine and adulterants of Hippocampus. METHODS: Two hundred and e-leven pieces of COI sequences were collected from 21 Hippocampus species in this study. After PCR amplification and sequencing of the DNAs, the DNA barcoding gap and phylogenetic cluster analysis were carried out. RESULTS: The COI sequences of the five authentic species all had obvious DNA barcoding gap. For phylogenetic cluster analysis, all of the samples were monophyletic and every species could be discriminated clearly. CONCLUSION: COI is an effective DNA barcode for the identification of the genuine Hippocampus and its adulterants, and have important significance for clinical medication safety.