Inhibition of T-2 toxin production on high-moisture corn kernels by modified atmospheres.

N Paster; M Menasherov

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Inhibition of T-2 toxin production on high-moisture corn kernels by modified atmospheres.

机译：通过改性大气压抑制T-2毒素在高湿玉米核上产生的。

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The fungus Fusarium sporotrichioides, capable of producing T-2 toxin (T-2), was grown on irradiated corn kernels remoistened to 22% and kept in atmospheres of different CO2-O2 combinations. The production of T-2 was totally inhibited under 60% CO2-20% O2, whereas only trace amounts were detected when the gas combination was 40% CO2-5% O2. Under all other combinations tested, the amount of T-2 produced was reduced by 25 to 50% as compared with the control. Fungal growth was not inhibited by any of the gas mixtures examined, and the growth rate (measured by direct plating, dilution method, and CO2 production) was almost identical to that in grains kept under air. It is concluded that although F. sporotrichioides is tolerant to high CO2 levels, T-2 formation on corn can be inhibited by CO2 concentrations less than that required to inhibit fungal growth.

机译：能够产生T-2毒素（T-2）的真菌镰刀菌孢子素苷酸在被辐射的玉米核上生长至22％并保持在不同CO 2-O2组合的大气中。在60％CO 2 -20％O 2下完全抑制T-2的产生，而当气体组合为40％CO 2 -5％O 2时，仅检测到痕量量。在测试的所有其他组合下，与对照相比，产生的T-2的量减少了25％至50％。通过检查的任何气体混合物不抑制真菌生长，而且通过直接电镀，稀释方法和二氧化碳生产测量的生长速率几乎与保持在空气下的颗粒相同。结论是，尽管孢子素硫噻嗪耐受高二氧化碳水平，但可以通过小于抑制真菌生长所需的CO 2浓度抑制玉米的T-2形成。

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《Applied and Environmental Microbiology》 |1988年第2期|共4页
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N Paster; M Menasherov;
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5. Safety studies with proteolytic Clostridium botulinum in high-moisture bakery products packaged under modified atmospheres. [D] . Phillips, Daphne. 2003

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6. Inhibition of T-2 toxin production on high-moisture corn kernels by modified atmospheres. [O] . N Paster, M Menasherov 1988

机译：改良的气氛抑制高水分玉米粒上T-2毒素的产生。
7. Inhibition of T-2 toxin production on high-moisture corn kernels by modified atmospheres [O] . N Paster, M Menasherov 1988

机译：通过改进的环境对高湿玉米粒细胞抑制T-2毒素生产

Inhibition of T-2 toxin production on high-moisture corn kernels by modified atmospheres.

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