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Bioaccumulation of Arsenic in Recombinant Escherichia coli Expressing Human Metallothionein
Yu-Jie Su,Jian-Qun Lin,Jian-Qiang Lin,Dong-Hui Hao 한국생물공학회 2009 Biotechnology and Bioprocess Engineering Vol.14 No.5
The recombinant Escherichia coli(E.coli) expressing human hepatic metallothionein_IA (hMT_IA) was constructed for bioaccumulation of Arsenic (As). The gene sequence of hMT_IA was modified for codon preference of E.coli and synthesized using chemical method. The vector of pGEX_4T_1 was used=and hMT_IA was expressed as the fusion protein with glutathione S-transferase (GST) tag. The bioaccumulation capability of arsenite compounds As(III) of the recombinant E.coli increased more than 3-fold from 76.3 to 319.6 μg/g dry cells compared with the control. The conditions of 50 μM of As(III) and low pHs were optimal for As(III) bioaccumulation. The heavy metals of Cd, Hg, and Zn inhibited As(III) bioaccumulation. The bioaccumulation reached 70% of the saturated value within 1 h. The recombinant E.coli will be useful in bioremediation of arsenic or other kinds of heavy metal contaminated water. The recombinant Escherichia coli(E.coli) expressing human hepatic metallothionein_IA (hMT_IA) was constructed for bioaccumulation of Arsenic (As). The gene sequence of hMT_IA was modified for codon preference of E.coli and synthesized using chemical method. The vector of pGEX_4T_1 was used=and hMT_IA was expressed as the fusion protein with glutathione S-transferase (GST) tag. The bioaccumulation capability of arsenite compounds As(III) of the recombinant E.coli increased more than 3-fold from 76.3 to 319.6 μg/g dry cells compared with the control. The conditions of 50 μM of As(III) and low pHs were optimal for As(III) bioaccumulation. The heavy metals of Cd, Hg, and Zn inhibited As(III) bioaccumulation. The bioaccumulation reached 70% of the saturated value within 1 h. The recombinant E.coli will be useful in bioremediation of arsenic or other kinds of heavy metal contaminated water.
Bacillus ferrooxidans sp. nov., an iron(II)-oxidizing bacterium isolated from paddy soil
Guo-Wei Zhou,Xiao-Ru Yang,Jian-Qiang Su,Bang-Xiao Zheng,Yong-Guan Zhu 한국미생물학회 2018 The journal of microbiology Vol.56 No.7
An endospore-forming bacterium, designated YT-3T, was isolated from a paddy soil in Yingtan, Jiangxi, China. Cells of strain YT-3T were Gram-positive, rod-shaped, facultative anaerobic, catalase, and oxidase positive. The optimum growth temperature and pH were 30°C (ranged from 15 to 50°C) and 6.5–7.0 (ranged from 3 to 11), respectively. Analysis of the 16S rRNA gene sequence showed that strain YT-3T was affiliated to the genus Bacillus and displayed the highest similarity to that of Bacillus drentensis JCM 21707T (98.3%), followed by B. ginsengisoli JCM 17335T (97.8%) and B. fumarioli JCM 21708T (97.0%). The similarity of rpoB gene sequence between strain YT-3T and B. drentensis JCM 21707T, B. ginsengisoli JCM 17335T and B. fumarioli JCM 21708T was 80.4%, 81.5%, and 82.1%, respectively. The genomic DNA G + C content was 44.9 mol%. The predominant respiratory quinone was Menaquinone-7, and meso-diaminopimelic acid was present in the peptidoglycan layer of cell wall. The major fatty acids were C15:0 anteiso (36.2%), C14:0 iso (19.6%), C15:0 iso (17.4%), and C16:0 iso (9.8%). The polar lipid profile consisted of diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylglycerol, phospholipids, and ammoniac phospholipids. The DNA-DNA hybridization values between isolate YT-3T and B. drentensis (JCM 21707T), B. ginsengisoli (JCM 17335T), and B. fumarioli (JCM 21708T) were 36.3%, 30.3%, and 25.3%, respectively. On the basis of physiological, genetic and biochemical data, strain YT-3T represented a novel species of the genus Bacillus, for which the name Bacillus ferrooxidans sp. nov was proposed. The type strain is YT-3T (= KCTC 33875T = CCTCC AB 2017049T).
Yu, Jing-Ping,Lu, Wen-Bin,Wang, Jian-Lin,Ni, Xin-Chu,Wang, Jian,Sun, Zhi-Qiang,Sun, Su-Ping Asian Pacific Journal of Cancer Prevention 2015 Asian Pacific journal of cancer prevention Vol.16 No.3
Background: To investigate the relationship between pathologic tumor response to concurrent chemoradiotherapy and variation of serum VEGF in patients with esophageal cancer. Materials and Methods: Forty six patients with esophageal cancer who were treated with concurrent chemo-radiotherapy were enrolled. Endoscopic and pathologic examination was conducted before and four weeks afterwards. Serum level of VEGF was documented before, four weeks later and after chemo-radiotherapy. The relationship between pathologic response and the variation of serum level of VEGF and its influence on the prognosis were investigated. Results: Serum level of VEGF decreased remarkably during and after chemo-radiotherapy in patients whose pathologic response was severe (F=5.393, 4.587, P(0.05). There were no statistical differences of serum VEGF level before, during and after chemo-radiotherapy for patients whose pathologic response was moderate or mild. There were 18 (85.7%), 7 (53.8%) and 6 patients (50.0%) whose serum VEGF level dropped in the severe, moderate and mild group, respectively, with significant differences among these groups (p=0.046). Two year survival rates of patients with severe, moderate and mild pathologic response were 61.9%, 53.8% and 33.3% respectively, and no statistically difference between severe and mild group regarding OS (p=0.245) was tested. Conclusions: Tumor pathologic response during chemo-radiotherapy and the changes of serum VEGF lever could predict curative effects of chemo-radiotherapy in patients with esophageal cancer.
Dong-Hui Hao,Xin Song,Jian-Qiang Lin,Yu-Jie Su,Yin-Bo Qu,Jian-Qun Lin 한국생물공학회 2008 Biotechnology and Bioprocess Engineering Vol.13 No.1
In this study, we describe the isolation and identification of a novel long-chain n-alkane degrading strain, Gordonia amicalis LH3. Under aerobic conditions, it utilized approximately 18.0% of paraffin (2% w/v) after 10 day of incubation, and the paraffin compositions of C18C24 alkalines were utilized preferentially. Under anaerobic conditions, paraffin utilization was approximately 1/8 that seen under aerobic conditions, and the compositions of C34 and C36 alkalines were utilized preferentially. The effects of salinity, temperature, and biosurfactants on paraffin degradation were also evaluated. The strain was also demonstrated to grow on oil, and decreased oil viscosity by 44.7% and degraded oil by 10.4% under aerobic conditions. Our results indicated that G. amicalis LH3 has potential applications in paraffin control, microbial enhanced oil recovery (MEOR), and the bioremediation of hydrocarbon-polluted environments.