1.Pulmonary Infection among Brain Damage Patients in ICU
Chinese Journal of Nosocomiology 2006;0(07):-
OBJECTIVE To analyze the incidence of pulmonary infection,the type of infection,the factors of bacterial colony change and so on among brain damage patients and to discuss the countermea sures.METHODS Totally 117 brain damage patients in ICU were investigated about hospital infection.RESULTS From them 31 cases were with pulmonary infection,the infection rate was 26.5%.From their sputa were isolated bacteriologically 112 strains of pathogens,the Gram-negative bacilli were dominant.The sensitive antibiotics were imipenem/cilastatin,cefoperazone/sulbactum and amikacin.The resistant to imipenem/cilastatin Gram-positive cocci were sensitive to vancomycin and sulfamethoxazole/trimethoprim.The fungal infection tended to grow,its resistance rate to fluconazole was increased upto 50.0%.CONCLUSIONS In the hospital infection multi-antibiotic resistance,and multiple infection are its characteristic,it should reasonably use the antibiotic,and establish the strict protection and isolation measures.
2.Inhibitory effect of pioglitazone on TGF-?1 gene expression in renal cortex of diabetic rats
Hong LI ; Fenping ZHENG ; Yu RUAN ; Chengjiang LI
Chinese Journal of Endocrinology and Metabolism 1986;0(03):-
Diabetic model of SD rats was induced by streptozotocin injected intraperitoneally. Transforming growth factor (TCF)-?1 mRNA level was significantly decreased in renal cortex of diabetic rats by treatment of Pioglitazone. The result suggests that the protection of Pioglitazone against diabetic nephropathy seems to be related to the decrease of TGF-?1 gene expression in renal cortex.
3.Expression profiling of genes involved in Taxuyunnanine C biosynthesis in cell suspension cultures of Taxus chinensis by repeated elicitation with a newly synthesized jasmonate and sucrose feeding.
Mingbo GAO ; Wei ZHANG ; Xingtai LI ; Chengjiang RUAN ; Shengdi FAN
Chinese Journal of Biotechnology 2011;27(1):101-107
Taxus suspension cell culture has the potential to provide a sustainable source of anticancer drug paclitaxel (Taxol) and other taxoids. In the cell culture of Taxus chinensis, Taxuyunnanine C (Tc) is the primary taxoid. To design a rational strategy for redirecting the precursor fluxes from other taxoids into paclitaxel production, we employed Real-time Quantitative PCR (RQ-PCR) to understand the dynamic profiling of key biosynthetic pathway genes of palcitaxel and taxoids during the culture process. Six genes (TASY, TDAT, T5alphaH, TalphaH, T10betaH and T14betaH) were quantified under the process condition of double elicitation by 2,3-dihydroxylpropanyl jasmonate (DHPJA) (100 micromol/L on day 7 and day 12), and sucrose feeding (20 g/L) on day 7. This process treatment led to a high accumulation of Tc at (554.46 +/- 21.28) mg/L 8 days after the first elicitation. Then 9 days after the second elicitation, Tc production was as high as (997.72 +/- 1.51) mg/L. The early pathway genes TASY and TDAT were significantly up-regulated by 182-fold and 98-fold, respectively for the first DHPJA elicitation and by 208-fold and 131-fold, respectively for the second elicitation. The induction occurred after each elicitation lasted for about 24 h before their abundances decreased. Things are somewhat different in the case of the other four genes T5alphaH, TalphaH, T10betaH and T14betaH. For gene TalphaH, it was highly up-regulated by 3061-fold for the first DHPJA elicitation and by 1016-fold for the second elicitation. For the other three genes T5alphaH, T10betaH, T14betaH, they were up-regulated by 13-fold, 38-fold and 20-fold, respectively for the first DHPJA elicitation and by 7-fold, 16-fold and 6-fold, respectively for the second elicitation. The RQ-PCR results showed that there is tight correlation between gene expression and Tc accumulation. Gene expression was in accordance with Tc yield. Elicitation could improve expression of six genes. While along with culture course, high expression of the genes weakened. Elicitation for the second time would promote high expression of the genes again.
Cell Culture Techniques
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Culture Media
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Cyclopentanes
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pharmacology
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Gene Expression Regulation, Plant
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Oxylipins
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pharmacology
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Plant Growth Regulators
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pharmacology
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Sucrose
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pharmacology
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Taxoids
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metabolism
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Taxus
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genetics
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metabolism
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Transcriptome