Remize Fabienne, Gaudin Aurélie, Kong Yu, Guzzo Jean, Alexandre Hervé, Krieger Sibylle, Guilloux-Benatier Michèle
Laboratoire de Microbiologie UMR uB/INRA 1232, Université de Bourgogne, 1 Esplanade Erasme, 21000, Dijon, France.
Arch Microbiol. 2006 Jun;185(6):459-69. doi: 10.1007/s00203-006-0116-6. Epub 2006 May 20.
Optimization of malolactic fermentation in wine depends mainly on better understanding of nitrogen nutritional requirements of Oenococcus oeni. Four widely used starter strains and the reference ATCC BAA-1163 strain were grown in media containing different N sources: free amino acids, oligopeptides (0.5-10 kDa) or polypeptides (> 10 kDa). Amino acid auxotrophies were determined by the single omission technique. The tested strains were indifferent to only two to four amino acids and two of the starter strains appeared to be particularly demanding. Nitrogen consumption was investigated and a significant level of nitrogen was consumed by O. oeni only in the free amino acid medium. In media containing complex nitrogen sources, a global balance above 5 mg N l(-1) was enough to ensure biomass formation of all tested strains. Moreover, for all strains, bacterial growth yield was higher in the presence of nitrogen from peptides than that from free amino acids. However, no direct relationship between the bacterial growth level and the amount of nitrogen metabolized could be established. These findings were discussed in relation to the physiology of wine malolactic bacteria.
葡萄酒中苹果酸-乳酸发酵的优化主要取决于对酒酒球菌氮营养需求的更好理解。四种广泛使用的起始菌株和参考菌株ATCC BAA-1163在含有不同氮源的培养基中生长:游离氨基酸、寡肽(0.5 - 10 kDa)或多肽(> 10 kDa)。通过单缺技术测定氨基酸营养缺陷型。测试菌株仅对两到四种氨基酸不敏感,且其中两种起始菌株似乎对营养需求特别高。研究了氮消耗情况,酒酒球菌仅在游离氨基酸培养基中消耗了显著水平的氮。在含有复合氮源的培养基中,高于5 mg N l(-1)的总体平衡足以确保所有测试菌株的生物量形成。此外,对于所有菌株,在存在来自肽的氮时细菌生长产量高于来自游离氨基酸的氮。然而,无法建立细菌生长水平与代谢氮量之间的直接关系。结合葡萄酒苹果酸-乳酸细菌的生理学对这些发现进行了讨论。
