1.1.1.208	(+)-isomenthone + NADPH	low activity	Mentha x piperita	(+)-isomenthol + NADP+	-	?	382990	
1.1.1.208	(+)-neomenthol + NADP+	reaction proceeds via (-)-menthone	Artemisia annua	(-)-menthone + NADPH + H+	-	r	425099	
1.1.1.208	(-)-menthone + NADPH + H+	-	Arabidopsis thaliana	(+)-neomenthol + NADP+	-	r	230605	
1.1.1.208	(-)-menthone + NADPH + H+	-	Mentha x piperita	(+)-neomenthol + NADP+	-	r	230605	
1.1.1.208	(-)-menthone + NADPH + H+	-	Mentha arvensis	(+)-neomenthol + NADP+	-	r	230605	
1.1.1.208	(-)-menthone + NADPH + H+	-	Artemisia annua	(+)-neomenthol + NADP+	main product, plus some (-)-menthol	r	230605	
1.1.1.208	(-)-menthone + NADPH + H+	ir	Mentha x piperita	(+)-neomenthol + NADP+	-	?	230605	
1.1.1.208	(-)-menthone + NADPH + H+	?	Mentha x piperita	(+)-neomenthol + NADP+	-	?	230605	
1.1.1.208	(-)-menthone + NADPH + H+	menthone reduction is the physiological reaction of enzyme MNMR	Mentha x piperita	(+)-neomenthol + NADP+	-	r	230605	
1.1.1.208	(-)-menthone + NADPH + H+	-	Mentha x piperita	(3S)-neomenthol + NADP+	-	r	382993	
1.1.1.208	(-)-menthone + NADPH + H+	low activity in the reverse reaction	Mentha x piperita	(3S)-neomenthol + NADP+	(3S)-neomenthol is the main product, product determination by gas chromatography, overview	r	382993	
1.1.1.208	(-)-menthone + NADPH + H+	in vitro antimicrobial activities of menthone, neomenthol and menthol, overview	Capsicum annuum	(3S)-neomenthol + NADP+	-	r	382993	
1.1.1.208	(-)-menthone + NADPH + H+	CaMNR1 converts (-)-menthone to 93% (3S)-neomenthol and 7% (3R)-menthol at pH 7.5, and to 72% (3S)-neomenthol and 28% (3R)-menthol at pH 9.0 with NADPH as a cofactor	Capsicum annuum	(3S)-neomenthol + NADP+	-	r	382993	
1.1.1.208	(2R,5R)-isomenthone + NADPH + H+	-	Mentha x piperita	(+)-neomenthol + NADP+	-	r	438512	
1.1.1.208	(2S,5R)-menthone + NADPH + H+	-	Mentha x piperita	(+)-neomenthol + NADP+	-	r	438528	
1.1.1.208	d-isomenthone + NADPH	?	Mentha x piperita	d-isomenthol + NADP+	-	?	230606	
1.1.1.208	additional information	primary monoterpene biosynthesis pathway, overview	Mentha x piperita	?	-	?	89	
1.1.1.208	additional information	monoterpenol is a poor substrate	Mentha x piperita	?	-	?	89	
1.1.1.208	additional information	CaMNR1 gene plays a role in regulating the resistance of pepper plants at the mRNA and protein levels, the menthone reductase gene CaMNR1 positively regulates plant defenses against a broad spectrum of pathogens, overview	Capsicum annuum	?	-	?	89	
1.1.1.208	additional information	the menthone reductase gene CaMNR1 positively regulates plant defenses against a broad spectrum of pathogens, overview	Arabidopsis thaliana	?	-	?	89	
1.1.1.208	additional information	no substrates for reduction: carvone and isopiperitenone. No substrates in dehydrogenase reaction: (+)-borneol, (-)-borneol, (+)-menthol and (-)-neomenthol	Artemisia annua	?	-	?	89	
1.1.1.208	additional information	enzyme MNMR has a preference for menthone over isomenthone	Mentha x piperita	?	-	?	89