3.1.2.6	auxin	enhances activity of both gly I and II	692050	
3.1.2.6	additional information	coldnesse enhances gly II transcript expression	692050	
3.1.2.6	additional information	drought enhances gly II transcript expression	692050	
3.1.2.6	additional information	no dependance on ionic strength	652537	
3.1.2.6	additional information	rosmarinic acid administration to fructose-fed mice brings the activity of glyoxalase II to near normal. Normalization of the glyoxalase system can be attributed to reduction in the formation of oxoaldehydes	708780	
3.1.2.6	additional information	salt enhances gly II transcript expression	692050	
3.1.2.6	additional information	the Fe(III)Zn(II) complex [(2-{[bis(2-pyridylmethyl)amino]methyl}-6-[{[2-hydroxyphenyl)methyl]-(2-pyridylmethyl)amino}methyl]-4-methylphenolFe(III)Zn(II)(micro-O2C2H3)2]ClO4 promotes thioester hydrolysis	708727	
3.1.2.6	additional information	the mononuclear zinc complex [(bpta)Zn](ClO4)2 x 0.5 H2O promotes the hydrolysis of thioester when dissolved in CH3CN:H2O (50:50 buffered at pH 9.0). This reaction results in the formation of a mixture of CD3SH and a zinc thiolate complex, the latter of which can be protonated to generate additional CD3SH	708728	
3.1.2.6	additional information	zinc stress enhances gly II transcript expression	692050	
3.1.2.6	Zn2+	2fold activation	664268