Objective To comprehensively understand the map of transcripts during mitosis and their regulatory mechanisms of HAP 1 cells by conducting transcriptome sequencing analysis after being released by mitotic synchro-nization arrest.Methods HAP1 cells were subjected to mitotic synchronous arrest with nocodazole and samples were collected after 0,20,80 min release,and RNA sequencing(RNA-seq)were performed.The transcriptome data was cleaned and the differentially expressed genes,expression trend clustering and functional enrichment com-bined with the protein interaction network were analyzed to explore the changes of signaling pathways in HAP 1 cells during mitosis.Results The transcriptome of HAP1 cells after synchronous release from mitosis underwent significant changes in time series,and differential gene cluster analysis revealed four gene clusters were enriched in important biological processes such as p53 signaling and cytoplasmic translation.Conclusions The transcriptome time-dependent dynamic changes during mitosis in HAP1 cells are coordinated regulation of key signaling pathways including cellular stress response,translational control and chromatin remodeling,ensuring a balance between growth and stress response upon mitotic exit.

Aim By establishing mouse acute myocardial infarction model,to observe the protection of isoflavones on ischemic myocardium and research the mechanism.Methods Mouse acute myocardial infarction model was established by ligating the left anterior descending(LAD)coronary artery.Danshen was used as the positive control.The effect of isoflavones on myocardial infarct area,serum myocardium creatase and serum levels of SOD and MDA was observed.By Real Time PCR,it was found that isoflavones could affect the expression of β-adrenergic receptor kinase(β-ARK_1).Results Isflovones could obviously reduce the myocardial infarct area and lower the levels of serum myocardial creatase and MDA.It could downregulate the expression of β-ARK_1 as the doses are increased.Conclusions Isoflavones can protect the myocardium of acute myocardial infarction mouse.The mechanism is related to the reduction of the oxidative damage,and the downregulation of the expression of β-ARK_1.

Aim To prepare and characterize a monoclonal antibody against recombinant glutathione S-transferase(GST) for purifying GST fusion protein. Methods The GST-follistatin fusion protein was expressed by using a pGEX4T-1 expression vector in Escherichia coli BL21 and purified by glutathione-resin affinity column chromatography. Then female Balb/c mice were immunized with the GST-FS, The immunized splenocytes were fused with NS-1 hybridoma cells. Dreparation of the mAb was used by conventional hybridoma techniqal. The mAb purified by protein A, was culpled with Sepharose4B to purify further GST fusion protein by affinity chromatography. Results The SDS-PAGE showed that the GST fusion protein could be purified effctively by specific mAb affinity chromatography as same as by glutathione-resin affinity chromatography. Conclusion mAb affinity chromatography will be a ecnomical and useful method and it can be used for secondary purification of GST fusion protein following glutathione-resin affinity chromatography.