Geminin is a multifunctional protein which localizes in nucleus,it has complicated structural and functional domains.Geminin plays very important roles in cell proliferation,embryonic development,tumorigenesis and so on.Geminin affects cell proliferation through influence on the important events in cell cycle phases.There are many mechanisms by which Geminin can control DNA replication,inhibit centrosome over-duplication,promote G2/M phase progression,maintain proper cytokinesis.At different development stages,Geminin acts as an inhibitor or inducer in regulating embryonic development,especially in nervous system formation.Geminin also plays a regulative role in eye development and embryonic development through the interactions with homeobox genes or proteins Six3 and Hox,Geminin functions as a coordinator of cell proliferative and differentiative control.Recently,Geminin was found to have relationship with cancer,the study on the function of Geminin in cancer has been a meaningful aspect.Geminin can act as a marker to evaluate progression and prognosis in cancer.It may be a novel molecular target in therapy of cancer.The activity of Geminin is regulated by transcription level and post-transcription level,the post-transcriptional regulation of Geminin protein may take the main position.

Objective To investigate the correlation between phosphatidylinositol 3 kinase (PI3-kinase) and the pathogenesis of psoriasis. Methods By dot hybridization, in situ hybridization and immunohistochemistry, expression of PI3 kinase was observed in twelve psoriatic and five normal epidermis. Results In psoriatic epidermis, expression of PI3 kinase gene and protein was elevated obviously compared with that of normal skin. Conclusion PI3 kinase may be closely associated with hyperproliferation of psoriatic keratinocytes.

Objective To prepare a postbiotic using soybean fermentation product of Lactobacillus paracasei TK1501 and evaluate its inhibitory effect against Helicobacter pylori(Hp)infection in mice.Methods L.paracasei TK1501 was cultured for 32 h at 37℃in an anaerobic condition for solid substrate fermentation with a solid to water ratio of 1:1.5 in the substrate and an inoculation density of 5×107 CFU/mL.The postbiotic was isolated and purified using macroporous resin XAD-16N adsorption,cation exchange chromatography and HPLC,and its stability and antibacterial activity were assessed.The inhibitory effect of this postbiotic against Hp infection was evaluated in a mouse model with gastric mucosal Hp infection,which were treated with the postbiotic via gavage for 4 weeks at the dose of 0.02 or 0.1 mL.Serum levels of TNF-α and IL-1β of the mice were analyzed after the treatments,and gastric tissues of the mice were collected for HE staining.Results L.paracasei TK1501 postbiotic could be easily degraded by protease and had good thermal stability and tolerance to exposures to acid,base,and organic solvents.In the in vitro experiment,the postbiotic showed strong inhibitory effects in bacterial cultures of Staphylococcus aureus,Hp and other common pathogenic bacteria without obviously affecting the resident bacteria in the digestive tract.In the mouse models,treatment with the postbiotic at the dose of 0.1 mL significantly alleviated Hp infection and lowered the serum levels of TNF-α and IL-1β of the mice.Conclusion L.paracasei TK1501 postbiotic has strong inhibitory effects on Hp and Staphylococcus aureus but not on normal intestinal flora in mice.

Objective To prepare a postbiotic using soybean fermentation product of Lactobacillus paracasei TK1501 and evaluate its inhibitory effect against Helicobacter pylori(Hp)infection in mice.Methods L.paracasei TK1501 was cultured for 32 h at 37℃in an anaerobic condition for solid substrate fermentation with a solid to water ratio of 1:1.5 in the substrate and an inoculation density of 5×107 CFU/mL.The postbiotic was isolated and purified using macroporous resin XAD-16N adsorption,cation exchange chromatography and HPLC,and its stability and antibacterial activity were assessed.The inhibitory effect of this postbiotic against Hp infection was evaluated in a mouse model with gastric mucosal Hp infection,which were treated with the postbiotic via gavage for 4 weeks at the dose of 0.02 or 0.1 mL.Serum levels of TNF-α and IL-1β of the mice were analyzed after the treatments,and gastric tissues of the mice were collected for HE staining.Results L.paracasei TK1501 postbiotic could be easily degraded by protease and had good thermal stability and tolerance to exposures to acid,base,and organic solvents.In the in vitro experiment,the postbiotic showed strong inhibitory effects in bacterial cultures of Staphylococcus aureus,Hp and other common pathogenic bacteria without obviously affecting the resident bacteria in the digestive tract.In the mouse models,treatment with the postbiotic at the dose of 0.1 mL significantly alleviated Hp infection and lowered the serum levels of TNF-α and IL-1β of the mice.Conclusion L.paracasei TK1501 postbiotic has strong inhibitory effects on Hp and Staphylococcus aureus but not on normal intestinal flora in mice.

Based on the transcriptome analysis data of a Bacillus licheniformis, a novel bidirectional promoter was identified from the strain and its transcriptional strength was analyzed. The expression level of a Bacillus clausii derived alkaline protease gene driven by the bidirectional promoter was studied by using the known strong constitutive promoter pShuttle-09 as a control. Three recombinant expression vectors and the corresponding recombinant bacteria were constructed. Under the control of the new promoter pLA and its reverse promoter pLB, the alkaline protease expression level respectively reached 164 U/mL and 111 U/mL. The results indicated that the transcription strength of pLA was significantly higher than that of pShuttle-09 and pLB, and both the pLA and pLB promoters could initiate the expression of the alkaline protease. Thus, it provides a new expression element for the heterogenous genes in Bacillus sp. and a new idea for the co-expression of two genes in one prokaryotic strain.
Bacillus subtilis ; Promoter Regions, Genetic