Decoupling of melting domains in immobilized ribonuclease A

Ribonuclease A has been immobilized on silica beads through glutaraldeyde-mediated chemical coupling in order to improve the stability of the protein against thermal denaturation. The thermodynamic and binding properties of the immobilized enzyme have been studied and compared with those of the free enzyme. The parameters describing the binding of the inhibitor 3′ -CMP (K_a and ΔH) as monitored by spectrophotometry and calorimetry were not significantly affected after immobilization. Conversely both the stability and unfolding mechanism drastically changed. Thermodynamic analysis of the DSC data suggests that uncoupling of protein domains has occurred as a consequence of the immobilization. The two state approximation of the protein unfolding process is not longer valid for the immobilized RNase. Protein stability strongly depends on the hydrophobicity properties of the support surface as well as on the presence of the inhibitor and pH. For example, after immobilization on a highly hydrophobic surface, the enzyme is partially in the unfolded state. The binding of a ligand is able to reorganize the protein structure into a native-like conformation. The refolding rates are different for the two protein domains and vary as a function of pH and presence of the inhibitor 3′-CMP. © 1994 Wiley-Liss, Inc.     

Quantitative determination and regional distribution of pipecolic acid in rodent brain

A rapid and sensitive method for the quantitative determination of pipecolic acid (PA), one of the three cyclic secondary imino acids present in mammalian brain is described. The quantification and identification of PA are accomplished in rat and mouse brain using high performance liquid chromatography with electrochemical detection (LCEC) and nipecotic acid (NPA) as an internal standard. The cyclic imino acids are derivatized with 2,4-dinitrofluorobenzene (DNFB) to dinitrophenyl derivatives. The remaining time for LCEC analysis is less than 30 min and the limit of sensitivity is in the lower picomole range. The levels of PA found in rat and mouse brain are comparable to those reported using gas chromatography/mass spectrometry. The regional distribution of PA shows higher concentrations of PA in hypothalamus, pons-medulla oblongata and cerebellum. The present results demonstrate that LCEC is sensitive enough to determine endogenous levels of PA in mg amounts of rodent brain tissue. Due to its simplicity and rapidity, the technique represents an alternative to existing methods. This method can also be used for determination of PA in CSF, blood or urine of hyperipecolic patients.     

Substrate specificity and stereoselectivity of hydrolytic enzymes from Brevibacterium imperiale B222

Four different hysrolytic enzymes were isolated and partially purified from Brevibacterium imperiale B222 cells. The stereoselectivity of each enzyme was assayed by using the nitrile, amide and esters derivatives of 2-aryloxypropionic acid. Within the cellular pool of hydrolytic enzymes, a non-stereoselective nitrile hydratase, a stereoselective amidase and two partially stereoselective esterases of opposite enantiomeric preference were found. Correspondence to: D. Bianchi     

17-O-acetyl-19,20-dihydrovoachalotine,a new alkaloid from Voacanga chalotiana

The structure of 17-O-acetyl-19,20-dihydrovoachalotine, a new alkaloid from the root bark of Voacanga chalotiana, has been determined by spectroscopic analysis. The stereochemistry at C-20 has been deduced on the basis of ¹³C-NMR and comparison with other compounds containing the voachalotine skeleton.