Letisse F, Chevallereau P, Simon J L, Lindley N D
Laboratoire de Biotechnologie-Bioprocédés, UMR INSA/CNRS and UMR INRA, Centre de Bioingénierie Gilbert Durand, DGBA-INSA, Toulouse, France.
Appl Microbiol Biotechnol. 2001 May;55(4):417-22. doi: 10.1007/s002530000580.
A batch fermentation strategy using Xanthomonas campestris ATCC 13951 for xanthan gum production has been established in which all essential medium components are supplied at the onset. This has been achieved using sucrose as sole sugar feedstock. Sequential consumption of nitrogen sources (soybean hydrolysates, ammonium and nitrate salts) was observed to facilitate the further optimisation of the medium. Biomass accumulation was limited by phosphate availability. Xanthan yields of more than 60% (grams of xanthan per gram of sugar) have been obtained with constant acetyl content. However, pyruvyl substitution decreased as the growth rate declined, due to the metabolic constraints specific to phosphate depletion. High rates of carbon conversion into xanthan were observed throughout the culture and the ATP/ADP ratio was not affected by the decline in the specific growth rate.
已建立一种使用野油菜黄单胞菌ATCC 13951生产黄原胶的分批发酵策略,其中所有必需的培养基成分在发酵开始时就已提供。这是通过使用蔗糖作为唯一的糖原料实现的。观察到氮源(大豆水解物、铵盐和硝酸盐)的顺序消耗有助于进一步优化培养基。生物量积累受到磷酸盐可用性的限制。在乙酰含量恒定的情况下,黄原胶产量超过60%(每克糖产生的黄原胶克数)。然而,由于磷酸盐耗尽所特有的代谢限制,随着生长速率下降,丙酮酸取代率降低。在整个培养过程中都观察到高碳转化率,且ATP/ADP比值不受比生长速率下降的影响。