Construction and expression of nonsense suppressor tRNAs which function in plant cells

An Arabidopsis thaliana L. DNA containing the tRNA(TrpUGG) gene was isolated and altered to encode the amber suppressor tRNA(TrpUAG) or the ochre suppressor tRNA(TrpUAA). These DNAs were electroporated into carrot protoplasts and tRNA expression was demonstrated by the translational suppression of amber and ochre nonsense mutations in the chloramphenicol acetyltransferase (CAT) reporter gene. DNAs encoding tRNA(TrpUAG) and tRNA(TrpUAA) nonsense suppressor tRNAs caused suppression of their cognate nonsense codons in CAT mRNAs, with the tRNA(TrpUAG) gene exhibiting the greater suppression under optimal conditions for expression of CAT. The development of these translational suppressors which function in plant cells facilitates the study of plant tRNA gene expression and will make possible the manipulation of plant protein structure and function.     

Kinetic and spectroscopic studies of transhydrogenase activity and nucleotide site of lipoamide dehydrogenase

The kinetic behavior and spectroscopic characteristics of the nucleotide site(s) of lipoamide dehydrogenase have been investigated. Both subunits of the dimeric enzyme interact with NAD+. The binding of NAD+ is associated with a negative trough around 420-450 nm and a positive peak at 507 nm of the difference spectrum. The transhydrogenation between NADH and thionicotinamide nucleotide or acetylpyridine nucleotide is shown to proceed via a Ping Pong or an ordered Bi Bi mechanism, respectively, at pH above 7.0. Lowering pH or acetamidation lose the spectral characteristic of the positive peak of the enzyme-NAD+ complex with a concurrent change in the kinetic mechanism in the NADH+-acetylpyridine nucleotide transhydrogenation.