Based on the characteristics of salt.alkalinized soil in northeastem China,twenty-five kinds of salt alkaline conditions with different salinities and pH were simulated by mixing NaCl,NaHCO3,Na2SO4,and Na2CO3,in various proportions and applied to sunflower (Helianthus annuus L.) seedlings to investigate the coordinative effects of salt and alkali stresses on its antioxidant enzyme system.The soil was conditioned with a salt concentration range between 50 to 250 mmol/L and pH values from 7.12 to 10.46.Several physiological indexes of stressed seedlings were measured,including the activities of superoxide dismutase (SOD),catalase (CAT),and pemxidase (POD),as well as the content of malondialdehyde (MDA).The results showed that the responses of the antioxidant enzyme system in sunflowers were influenced by salinity and alkalinity,which all three antioxidant enzymes exhibited a rise-drop pattern as salinity increased,whereas their responses to alkalinity appeared to be diverse:decreased for SOD and CAT,and increase for POD along when increasing alkalinity.A two-way analysis of variance (ANOVA) showed that the effects of salinity and alkalinity on the activities of the three enzymes were significant (P＜0.001).The effect of salinity on POD and SOD was greater than that of alkalinity,whereas the effect of alkalinity on CAT was greater than that of salinity.The interrelation of salinity and alkalinity on each antioxidant enzyme was significant (P＜0.001) except for SOD.The correlation and stepwise regression analyses between the activity of the antioxidant enzyme system and the MDA content were significant to difierent extend,SOD was a dominant factor,and POD was neglectable.

With the range of application of computational biology and systems biology gradually expanding, the complexity of the bioprocess models is also increased. To address this difficult problem, it is required to introduce positive alternative analysis method to cope with it. Taking the dynamic model of the epidemic control process as research object, we established an evaluation model in our laboratory. Firstly, the model was solved with nonlinear programming method. The results were shown to be good. Based on biochemical systems theory, the ODE dynamic model was transformed into S-system. The eigen values of the model showed that the system was stable and contained oscillation phenomenon. Next the sensitivities of rate constant and logarithmic gains of the three key parameters were analyzed, as well as the robust of the system. The result indicated that the biochemical systems theory could be applied in different fields more widely.
Computational Biology ; Epidemics ; Humans ; Models, Biological ; Nonlinear Dynamics ; Systems Biology ; Systems Theory

OBJECTIVETo study the effects of Lactobacillus acidophilus (L. acidophilus) on the proliferation and cell cycle distribution of human tongue cancer cells (Tca8113 cells).

METHODSIn vitro cultivated human Tca8113 cells were treated by L. acidophilus supernatant, inactivated bacilli, cell free extracts and normal culture medium respectively, which were 1, 4, 16-fold(s) dilutelly, to investigate the proliferous effects of Tca8113 cells using of inverted microscope, cell counting, sulforhodamine B (SRB) and flow cytometry. The free radicals and Ca2+ in Tca8113 cells were also studied by confocal laser scanning microscope (CLSM).

RESULTSAt the 48th hour after adding different L. acidophilus components, the Tca8113 cells changed in shape from the diamond-like, polygonal and slabs into the elongated form. In the condition of different times and different culture concentrations, the proliferation of Tca8113 cells was significantly inhibited by L. acidophilus components, which enhanced as the time prolonged and the concentrations of each L. acidophilus components increased according to the cell counting and the SRB experimental analysis. The cell proliferation index (CPI) was significantly reduced (P<0.01). The free radicals and Ca2+ in Tca8113 cells under the effect of each L. acidophilus components for 48 h indicated an obviously rising (P<0.01).

CONCLUSIONL. acidophilus restrains the proliferation of Tca8113 cells, which might be due to the increase in quantity of free radicals and Ca2+ in Tca8113 cells, and might be resulted from the release of metabolic products of L. acidophilus.

Carcinoma, Squamous Cell ; Cell Proliferation ; Humans ; Lactobacillus acidophilus ; Tongue Neoplasms

Objective To evaluate the effect of conversion from mycophenolic acid (MPA) to mizoribine (MZR) in renal transplant recipients with gastrointestinal tract (GI) symptoms.Methods A total of 355 renal transplant recipients with GI symptoms caused by MPA administration were enrolled from April 2015 to March 2017 in 25 different renal transplant centers in China.The symptomatic improvement of GI before (baseline) and after conversion to MZR (1,2,4 weeks) was assessed by each item of GI symptoms indication.In addition,the efficacy and safety of the conversion therapy during 12 months were determined.Results Patients showed improvement in GI symptoms including diarrhea,abdominal pain,abdominal distention and stomachache after conversion to MZR 1,2,4 weeks (P＜0.05).In patients with different severity of diarrhea,conversion to MZR therapy significantly improved diarrhea (P＜0.05).During 12 months,no patient experienced clinical immune rejection.We did not observe any infections,leucopenia and other serious side effects.Conclusion MZR could markedly improve GI symptoms caused by MPA administration in renal transplant recipients.