Partial purification of tightly bound mitochondrial hexokinase from maize (Zea mays L) root membranes

In mammals, hexokinase (HK) is strategically located at the outer membrane of mitochondria bound to the porin protein. The mitochondrial HK is a crucial modulator of apoptosis and reactive oxygen species generation. In plants, these properties related to HK are unknown. In order to better understand the physiological role of non-cytosolic hexokinase (NC-HK) in plants, we developed a purification strategy here described. Crude extract of 400 g of maize roots (230 mg protein) contained a specific activity of 0.042 æmol G6P min-1 mg PTN-1. After solubilization with detergent two fractions were obtained by DEAE column chromatography, NC-HK 1 (specific activity = 3.6 æmol G6P min-1 mg PTN-1 and protein recovered = 0.7 mg) and NC-HK 2. A major purification (yield = 500-fold) was obtained after passage of NC-HK 1 through the hydrophobic phenyl-Sepharose column. The total amount of protein and activity recovered were 0.04 and 18 percent, respectively. The NC-HK 1 binds to the hydrophobic phenyl-Sepharose matrix, as observed for rat brain HK. Mild chymotrypsin digestion did not affect adsorption of NC-HK 1 to the hydrophobic column as it does for rat HK I. In contrast to mammal mitochondrial HK, glucose-6-phosphate, clotrimazole or thiopental did not dissociate NC-HK from maize (Zea mays) or rice (Oryza sativa) mitochondrial membranes. These data show that the interaction between maize or rice NC-HK to mitochondria differs from that reported in mammals, where the mitochondrial enzyme can be displaced by modulators or pharmacological agents known to interfere with the enzyme binding properties with the mitochondrial porin protein.

Purification, physicochemical characterization and N-terminal-amino acid sequence of a phospholipase A2 from Bothrops jararaca venom

Snake venoms usually contain multiple molecular forms of phospholipase A2 enzymes (phosphatide acyl hydrolase, E.C. 3.1.1.4; PLA2). Phospholipases A2 induce a wide range of pharmacological effects which may depend or not on the hydrolysis of phospholipids. In this study, a PLA2 from Bothrops jararaca venom was purified to homogeneity by gel filtration on a Sephacryl S-200 column, followed by FPLC reverse-phase chromatography on a Pep-RPC HR 5/5 column (yield 1.63 per cent of venom protein). The PLA2 activity of the fractions was determined by indirect hemolysis using hen's egg yolk lecithin as substrate. The enzyme is an acidic protein with PI 4.5 and an apparent molecular weight of 14,200, as estimated by gel filtration on a Superose 12 FPLC column. Similar properties have been described for PLA2 from other snake venoms. The N-terminal-sequence of the purified protein was NLMQFETMIMXXAGQ. These partial sequence data show a high degree of homology between the B. jararaca PLA2 and the enzymes from other snake venoms as well as bovine pancreatic PLA2