Integrated Expression of the Oenococcus oeni mleA Gene in Saccharomyces cerevisiae

Malolactic enzyme is the function enzyme which catalyses the reaction for L-malate converting to L-lactic during malolactic fermentation （MLF）. In this paper, researches concerning the malolactic enzyme gene mleA cloned from a patent strain Oenococcus oeni SD-2a screened in Chinese wine and integrated expressing in Saccharomyces cerevisiae were performed in order to carry out both alcoholic fermentation （AF） and malolactic fermentation （MLF） during winemaking, with a view to achieving a better control of MLF in enology. To construct the expression plasmid named pYILmleA, cloned mleA gene, PGK1 promoter, and ADH1 terminator were ligated and inserted into integrating vector YIp5. Yeast transformants were screened on SD/-Ura and identified by auxotrophic test, mating type test, and colony PCR. Target protein was detected by SDS-PAGE and the targeted gene integrated to the chromosome was detected by dot bloting hybridization. After the transformant was cultured in SD/-Ura adding glucose （10%） and L-malate （5 648 mg L-1） for 4 d, the culture supernatant was collected and L-malate and L-lactic acid contents were detected by HPLC. 1 278-1 312 mg L-1 L-lactic acids were detected, while the comparative drop rates of L-malate were 20.18-20.85%. L-malate and L-lactic contents of the transformants showed extra significant difference and significant difference with the control ones by t-test respectively. The result indicated that the functional expression was achieved in recombinants S. cerevisiae.

Oenococcusoeni苹果酸-乳酸酶基因克隆及其在酿酒酵母中的表达

苹果酸-乳酸酶是苹果酸-乳酸发酵过程中负责苹果酸转化为乳酸的功能酶。在进行酒酒球菌SD2a的苹果酸-乳酸酶基因(mleA)克隆测序基础上,以PGK1强启动子和ADH1终止子为调控元件,以大肠杆菌-酵母菌穿梭质粒YEp352为载体,构建了重组表达质粒并转化酿酒酵母YS58。酵母转化子用SD/Ura平板筛选鉴定。斑点杂交检测表明目的基因mleA转化到受体菌中,SDSPAGE检测表明获得的转化子表达了约60kDa的目标蛋白。获得的转化子在添加了L苹果酸的培养基中培养4d;取培养液上清用HPLC检测L苹果酸及L乳酸含量,采用t检验进行差异显著性分析,结果表明mleA基因进行了功能性的表达,将L苹果酸转化成L乳酸,L苹果酸和L乳酸含量分别与对照差异极显著和显著,苹果酸的相对降低率平均为20.95%。在有选择压力条件下,重组质粒相对稳定,而在无选择压力条件下,传代培养10d后大约有65%的重组质粒丢失。

酒类酒球菌mleP基因的克隆及其在酿酒酵母中的表达

苹果酸通透酶具有协助苹果酸 乳酸发酵 (MLF)的重要功能。以酒类酒球菌 (Oenococcusoeni)优良菌系Oenococcus Lee SD 2a的总DNA为模板 ,用PCR方法克隆到苹果酸通透酶基因mleP ,构建了重组质粒pBMmleP。序列分析表明克隆到的基因序列与已报道的序列同源性为 99%。为使目的基因在酿酒酵母中表达 ,以大肠杆菌 酿酒酵母穿梭质粒YEp35 2为载体 ,以PGK1强启动子和ADH1终止子为调控元件 ,构建了重组表达质粒YEpmleP ,并转化酿酒酵母 (Saccharomycescerevisiae)YS5 8。酵母转化子用含有亮氨酸、组氨酸和色氨酸的YNB平板筛选鉴定。获得的转化子在添加了L 苹果酸 (5g L)的培养基中培养 4d ;取培养液上清用HPLC检测 ,结果显示重组转化子YSP的培养液中L 苹果酸剩余含量均低于空载体转化子YS35 2 。

mleA基因在酿酒酵母中的整合型表达

【目的】进行中国自行筛选的专利菌种酒酒球菌SD-2a(Oenococcus oeni SD-2a)的苹果酸-乳酸酶基因在酿酒酵母中的整合型表达,使葡萄酒生产过程中的酒精发酵和苹果酸-乳酸发酵(malolactic fermentation,MLF)同时进行。【方法】克隆Oenococcus oeni SD-2a的苹果酸-乳酸酶基因mleA,以PGK1强启动子和ADH1终止子为调控元件,以酵母整合型质粒YIp5为载体,构建重组表达质粒pYILmleA,并转化酿酒酵母(Saccharomyces cerevisiae)YS59,经筛选鉴定获得酵母转化子YS59/pYILmleA。进行转化子的营养缺陷型和交配型鉴定、菌落PCR鉴定、SDS-PAGE检测及斑点杂交检测,并对酵母转化子培养上清液进行L-苹果酸及L-乳酸含量的HPLC分析,检测目的基因的功能性表达。【结果】转化子的营养缺陷型和交配型鉴定、菌落PCR鉴定表明获得了阳性转化子;SDS-PAGE检测表明获得的转化子表达了目标蛋白,斑点杂交检测表明目的基因整合到受体菌中。模拟发酵表明mleA基因整合到受体菌中后进行了功能性表达,将培养基中的L-苹果酸转化成L-乳酸,使得培养液中的L-苹果酸含量极显著降低。转化子YS59/pYILmleA在添加5648mg·L-1L-苹果酸和10%葡萄糖的SD/-Ura培养基中培养4d,培养液上清中L-苹果酸的剩余含量与空载体转化子YS59/YIp5(对照)差异极显著,苹果酸的相对降低率为20.18%～20.85%。供试的转化子L-乳酸生成量为1278～1312mg·L-1,对照未检出乳酸的生成。【结论】中国自主筛选的专利菌种O.oeni SD-2a的mleA基因的整合型表达质粒构建成功并在酿酒酵母中进行了功能性表达。