Ruei-Lan Tsai scite author profile

Ruei-Lan Tsai

3Publications

48Citation Statements Received

68Citation Statements Given

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National Taiwan University, Nutrition 21 (United States)

Publications

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Red Mold Rice Mitigates Oral Carcinogenesis in 7,12‐Dimethyl‐1,2‐Benz[a]anthracene‐Induced Oral Carcinogenesis in Hamster

Tsai¹,

Pan

2011

Evidence-Based Complementary and Alternative Medicine

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The prevalence of oral tumor has exponentially increased in recent years; however, the effective therapies or prevention strategies are not sufficient. Red mold rice is a traditional Chinese food, and several reports have demonstrated that red mold rice had an anti-tumor effect. However, the possible anti-tumor mechanisms of the red mold rice are unclear. In this study, we examined the anti-tumor effect of red mold rice on 7,12-dimethyl-1,2-benz[a]anthracene (DMBA)-induced oral tumor in hamster. The ethanol extract of red mold rice (RMRE) treatment significantly decreases the levels of DMBA-induced reactive oxygen species, nitro oxide and prostaglandin E2 than those of the lovastatin-treated group (P < .001). Moreover, RMRE decreases the formation of oral tumor induced by DMBA. Monacolin K, monascin, ankaflavin or other red mold rice metabolites had been reported to decrease inflammation and oxidative stress and exerted anti-tumor effects. Therefore, we evaluated the anti-inflammation and anti-oxidative stress effects of monacolin K, monascin, ankaflavin and citrinin in lipopolysaccharide-treated RAW264.7 cells. We found that RMRE reduced the LPS-induced nitrite levels in RAW264.7 cells better than monacolin K, monascin, ankaflavin or citrinin (P < .05).

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A Simple and Cost-Saving Approach To Optimize the Production of Subtilisin NAT by Submerged Cultivation of Bacillus subtilis Natto

Tsai

Pan

2008

J. Agric. Food Chem.

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Subtilisin NAT, formerly designated nattokinase or subtilisin BSP, is a potent cardiovascular drug because of its strong fibrinolytic activity and safety. In this study, one Bacillus subtilis natto strain with high fibrinolytic activity was isolated. We further studied the optimal conditions for subtilisin NAT production by submerged cultivation and three variables/three levels of response surface methodology (RSM) using various inoculum densities, glucose concentrations, and defatted soybean concentrations as the three variables. According to the RSM analysis, while culturing by 2.93% defatted soybean, 1.75% glucose, and 4.00% inoculum density, we obtained an activity of 13.78 SU/mL. Processing the batch fermentation with this optimal condition, the activity reached 13.69 SU/mL, which is equal to 99.3% of the predicted value.

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Dietary Cellulose, Zinc and Copper: Effects on Tissue Levels of Trace Minerals in the Rat

Tsai

Lei

1979

The Journal of Nutrition

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This study was designed to examine the effect of graded levels of cellulose, zinc and copper on tissue mineral levels. Tissue mineral levels were assayed by atomic absorption spectrophotometry in samples collected from a study which involved 12 treatments in a 3 X 2 X 2 factorial arrangement. This study involved three levels of cellulose (0, 8, and 16% of the diet), two levels of Cu (deficient and adequate; 2 and 18 mg/kg of diet, respectively), and two levels of Zn (marginal and abundant; 10 and 120 mg/kg of diet, respectively). Six weanling, male Sprague-Dawley rats were assigned to each treatment and after 9 weeks they were killed. Reductions of tissue Cu content were observed in the serum, liver, tibia and testis of the rats fed the Cu-deficient diets. The Fe content of the tibia and testis was reduced, but that of liver was elevated in the rats fed Cu-deficient diets. Reductions in tibial Zn levels were observed in the rats fed marginal-Zn as compared to those fed the abundant-Zn diets; and in the rats fed Cu-adequate as compared to those fed Cu-deficient diets. Increases in cellulose resulted in increased liver and testicular Cu content only in rats fed the Cu-deficient diets. Additions of cellulose appeared to have no adverse effect on the distribution of Zn, Cu and Fe in tissues which are sensitive to dietary deficiencies. With the exception of rats fed the copper-deficient, marginal zinc diets, the rats fed the other diets demonstrated a small reduction in serum zinc values as cellulose was increased.

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Ruei-Lan Tsai

Red Mold Rice Mitigates Oral Carcinogenesis in 7,12‐Dimethyl‐1,2‐Benz[a]anthracene‐Induced Oral Carcinogenesis in Hamster

A Simple and Cost-Saving Approach To Optimize the Production of Subtilisin NAT by Submerged Cultivation of Bacillus subtilis Natto

Dietary Cellulose, Zinc and Copper: Effects on Tissue Levels of Trace Minerals in the Rat

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