(−)-Menthone is the predominant monoterpene produced in the essential oil of maturing peppermint (Mentha x piperita) leaves during the filling of epidermal oil glands. This early biosynthetic process is followed by a second, later oil maturation program (approximately coincident with flower initiation) in which the C3-carbonyl of menthone is reduced to yield (−)-(3R)-menthol and (+)-(3S)-neomenthol by two distinct NADPH-dependent ketoreductases. An activity-based in situ screen, by expression in Escherichia coli of 23 putative redox enzymes from an immature peppermint oil gland expressed sequence tag library, was used to isolate a cDNA encoding the latter menthone:(+)-(3S)-neomenthol reductase. Reverse transcription-PCR amplification and RACE were used to acquire the former menthone:(−)-(3R)-menthol reductase directly from mRNA isolated from the oil gland secretory cells of mature leaves. The deduced amino acid sequences of these two reductases share 73% identity, provide no apparent subcellular targeting information, and predict inclusion in the short-chain dehydrogenase/reductase family of enzymes. The menthone:(+)-(3S)-neomenthol reductase cDNA encodes a 35,722-D protein, and the recombinant enzyme yields 94% (+)-(3S)-neomenthol and 6% (−)-(3R)-menthol from (−)-menthone as substrate, and 86% (+)-(3S)-isomenthol and 14% (+)-(3R)-neoisomenthol from (+)-isomenthone as substrate, has a pH optimum of 9.3, and Km values of 674 μm, > 1 mm, and 10 μm for menthone, isomenthone, and NADPH, respectively, with a kcat of 0.06 s−1. The recombinant menthone:(−)-(3R)-menthol reductase has a deduced size of 34,070 D and converts (−)-menthone to 95% (−)-(3R)-menthol and 5% (+)-(3S)-neomenthol, and (+)-isomenthone to 87% (+)-(3R)-neoisomenthol and 13% (+)-(3S)-isomenthol, displays optimum activity at neutral pH, and has Km values of 3.0 μm, 41 μm, and 0.12 μm for menthone, isomenthone, and NADPH, respectively, with a kcat of 0.6 s−1. The respective activities of these menthone reductases account for all of the menthol isomers found in the essential oil of peppermint. Biotechnological exploitation of these genes could lead to improved production yields of (−)-menthol, the principal and characteristic flavor component of peppermint.
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机译:(-)-薄荷酮是成熟的薄荷(Mentha x piperita)叶片在表皮油腺填充过程中产生的主要单萜。在此早期的生物合成过程之后,进行了第二个较晚的油类成熟程序(大约与花的萌发同时发生),其中薄荷酮的C3-羰基还原生成(-)-(3R)-薄荷醇和(+)-(3S) -新薄荷醇通过两种不同的NADPH依赖性酮还原酶。基于活性的原位筛选,通过在大肠杆菌中表达来自未成熟薄荷油腺表达序列标签文库的23种假定的氧化还原酶,用于分离编码后者薄荷酮的cDNA:(+)-(3S)-新薄荷醇还原酶。逆转录-PCR扩增和RACE用于直接从成熟叶油腺分泌细胞分离的mRNA中获得前薄荷酮:(-)-(3R)-薄荷醇还原酶。推导的这两种还原酶的氨基酸序列具有73%的同一性,没有提供明显的亚细胞靶向信息,并预测其是否包含在短链脱氢酶/还原酶家族中。薄荷酮:(+)-(3S)-新薄荷醇还原酶cDNA编码35,722-D蛋白,重组酶从中得到94%(+)-(3S)-新薄荷醇和6%(-)-(3R)-薄荷醇。以(-)-薄荷酮为底物,来自(+)-异薄荷酮的86%(+)-(3S)-异薄荷醇和14%(+)-(3R)-新异薄荷醇的最适pH为9.3,Km薄荷酮,异薄荷酮和NADPH的值分别为674μm,> 1 mm和10μm,kcat为0.06 s -1 。重组薄荷酮:(-)-(3R)-薄荷醇还原酶的推定大小为34,070 D,并将(-)-薄荷酮转化为95%(-)-(3 R )-薄荷醇和5 (+)-(3 S )-新薄荷醇和(+)-异薄荷酮的比例为87%(+)-(3 R )-新异薄荷醇和13%(+ )-(3 S )-异薄荷醇,在中性pH值下显示最佳活性, K m值为3.0 μ m,41 μ m和0.12 μ m, k 猫为0.6 s −1 。这些薄荷酮还原酶的各自活性解释了薄荷精油中发现的所有薄荷醇异构体。这些基因的生物技术开发可提高薄荷薄荷的主要和特色风味成分(-)-薄荷醇的产量。
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