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Study on the Anti-hypertension mechanism of Prunella Vulgaris based on entity grammar systems
Li Du,Man-man Li,Bai-Xia Zhang,Shuai-Bing He,Ya-Nam Hu,Yun Wang 셀메드 세포교정의약학회 2015 셀메드 (CellMed) Vol.5 No.4
Literatures and experimental studies have shown that Prunella has an effect on anti-hypertension, however, its components are complicated, so that it is still difficult to clear the specific roles of its various components in blood pressure regulation in. So we decide to systematically study the anti-hypertension mechanism of Prunella. We integrated multiple databases and constructed molecular interaction network between the chemical constituents of Prunella Vulgaris and hypertension based on entity grammar systems model. The network has 262 nodes and 802 edges. Then we infer the interactions between chemical compositions and disease targets to clarify the anti-hypertension mechanism. Finally, we found Prunella could influence hypertension by regulating apoptosis, cell proliferation, blood vessel development and vasoconstriction, etc. Thus this study provides reference for drug development and compatibility, and also gives guidance for health care at a certain extent.
OsCML4 improves drought tolerance through scavenging of reactive oxygen species in rice
Xu Ming Yin,Li Fanng Huang,Xin Zhang,Man Ling Wang,Guo Yun Xu,Xin Jie Xia 한국식물학회 2015 Journal of Plant Biology Vol.58 No.1
Calmodulin-like (CML) genes function in regulating plant responses to different abiotic stresses, such as high salt and drought. Using japonica type rice seedlings (‘Nipponbare’), we induced the expression of OsCML4 (Accession No. NM_001057768), which encodes a rice CML protein. Under drought conditions, transgenic plants over-expressing that gene exhibited obviously improved growth performance and higher survival rates than the wild type (WT). Activity by reactive oxygen species (ROS)- scavenging enzymes superoxide dismutase (SOD) and catalase (CAT), as well as proline concentrations, were significantly increased in transgenic plants. Expression by ROS scavenging-related genes APXI and Cat-B and the stress-related gene OsP5CS1 was also enhanced in the transgenics under drought conditions. However, the sensitivity to abscisic acid (ABA) was similar between over-expressing and WT plants. These results suggest that OsCML4 confers drought tolerance partially through ROS-scavenging and also by inducing other stress-related genes in an ABAindependent manner.