Fredrick J. Kull

The ribonuclease inhibitors from porcine thyroid and liver are slow, tight-binding inhibitors of bovine pancreatic ribonuclease A

Ribonuclease inhibitors were purified from the latent ribonuclease fractions of porcine thyroid and liver and used to test the hypothesis that their inhibition of bovine pancreatic ribonuclease A is correctly described by tight-binding rather than Michaelis-Menton kinetics. Both proteins were found to act as slow, tight-binding inhibitors of the enzyme. These steady-state velocities also showed that both the thyroid and liver inhibitors were competitive inhibitors of bovine pancreatic ribonuclease A with Kis of 0.1 and 0.4 nM, respectively. In contrast to interpretations based on Michaelis-Menton assumptions that show non-competitive inhibition, these results suggest that an enzyme:inhibitor:substrate complex does not exist.

Uptake of selenium-75 by PHA-stimulated lymphocytes : Effect on glutathione peroxidase.

To determine which of a variety of inorganic and organic selenium compounds could best stimulate glutathione peroxidase, human lymphocytes were cultured with a number of selenium sources. The phytohemagglutinin-transformed lymphocytes were cultured in the presence of75Se bound to serum proteins (25% v/v) or 10−7M concentrations of [75Se]-selenite, [75Se]-selenate, [75Se]-selenocystine, and [75Se]-selenomethionine. Organic forms of selenium were taken up in preference to inorganic forms. Control cultures, from which exogenous selenium had been omitted, showed a decreased level of glutathione peroxidase activity at the end of a 4 d culture period. Of the Se sources tested, [75Se]-selenocystine and [75Se]-labeled fetal calf serum proteins increased enzyme activity significantly, 79 and 47%, respectively, but selenite increased activity only by 7%. These results indicate that selenium from the two organic sources is most readily available for glutathione peroxidase synthesis.

Purification of cytosolic, latent endoribonuclease from porcine thyroid

Abstract An alkaline endoribonuclease was purified 1800-fold from the cytosolic, latent ribonuclease fraction of porcine thyroids by gentle procedures specifically designed to exclude both heating and acidification steps. Polyacrylamide gel electrophoresis revealed a broad peak of enzyme activity that was coincident with the stained protein band. As estimated by gel filtration chromatography the major form of the enzyme (59%) had a molecular weight of 51,000; the remainder of the activity was distributed among six minor forms. Carboxymethyl-cellulose chromatography showed that the enzyme had at least three interconvertible forms. The latent alkaline ribonuclease had a pH optimum of 8.1 in both Tris and 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid buffers and was stimulated by a number of monovalent chloride and potassium salts at ionic strengths between 10 and 70 m m ; above 100 m m the salts were all inhibitory with the exception of ammonium chloride. At 1 m m both MgCl 2 and CaCl 2 were stimulatory, whereas CuCl 2 ZnCl 2 and EDTA were inhibitors. Both native and denatured DNA were slightly stimulatory. The porcine thyroid latent alkaline ribonuclease was specific for pyrimidine homopolymers and yielded a mixture of cyclic mononucleotides and oligonucleotides when incubated with poly(C). It did not hydrolyze 2′(3′)-cyclic CMP, purine homopolymers, native or denatured DNA or poly(A) · poly(U). Its activity toward rRNA was greater than toward tRNA and it cleaved the former to a mixture of mononucleotides and oligonucleotides. The properties of the intracellular, cytosolic, latent, alkaline ribonuclease distinguish it from pancreatic ribonuclease A and other nonsecretory ribonucleases.

A procedure for the rapid preparation of 14C-aminoacyl-transfer RNA and its use in the assay of class I ribonucleases and ribonuclease inhibitor.

The presence of ribonuclease inhibitor and/or the activity of class I ribonucleases can conveniently be measured, at all stages of purification, by a highly sensitive assay based on the loss of radioactivity during the concomitant hydrolysis of tRNA and small amounts of 14C-labeled aminoacyl-tRNA. The rapid, economical assay, which is readily adaptable to homologous tRNA substrates, eliminates the necessity of filtration, centrifugation and ultraviolet spectroscopy measurements required by most other assays and is particularly suitable for multiple samples and kinetic measurements.

Comparison of porcine liver tRNA preparations: Purification of tRNA and its separation from RNA-peptidyl complexes

Abstract Six fractions of soluble RNA were obtained from phenol extracts of porcine liver and were tested for their acceptance of 14 amino acids under aminoacylation conditions and for their effects on the aminoacylation of tRNA. Two of the fractions contained appreciable amounts of tRNA, and three of the fractions affected the aminoacylation of tRNA. Based on these observations a revised method of tRNA preparation was developed that includes essentially all the tRNA in one fraction but that excludes the RNA-peptidyl complexes. The revised method is rapid and convenient and provides better quality tRNA than three alternate methods to which it is compared.

Evidence for the biosynthesis of selenobiotin

Chemically synthesized selenobiotin is, like sulfur biotin, able to bind to avidin. This observation was used to help identify biologically synthesized selenobiotin as an excretion product of Phycomyces blakesleeanus. The identification of [75Se]selenobiotin was based on the highly specific binding of biotin to avidin used as an affinity ligand to Sepharose, on its release from the complex by proteolytic treatment, and its chromatographic behavior relative to [14C]biotin standards. These results represent the first evidence of a biological synthesis of a heterocyclic ring that contains selenium in place of sulfur.

Porcine thyroid cytosolic, latent alkaline ribonuclease: resistance to protein denaturants.

1. A ribonuclease isolated from porcine thyroid cytosol using phenol: sodium dodecylsulfate treatment was associated with RNA and identical to latent alkaline ribonuclease. 2. Distribution of activity between aqueous and phenolic phases depended on pH, RNA, and ribonuclease inhibitor. 3. The ribonuclease was totally resistant to urea, guanidinium: HCl, chloroform:isoamyl alcohol, ethanol, heating at 100 degrees C for 10 min or at 80 degrees C plus 100 mM NaCl. It was highly resistant to hydrolysis by proteinase K except in the presence of detergent. 4. The extreme stability and other properties of latent alkaline ribonuclease could be the result of its association with RNA.

Porcine thyroid cytosolic, latent, alkaline, ribonuclease: Does an acidification step during purification alter the enzyme's properties?

The effect of an acidic step in the purification of porcine thyroid, latent, alkaline ribonuclease was studied using highly purified acid-treated and non-acid-treated enzymes. The enzymes differed by affinity and CM-cellulose chromatography, specific activity, in distribution among multiple forms, in response to some mono- and divalent salts, in degree of inhibition by p-chloromercuriphenylsulfonate and ribonuclease inhibitor, in activity toward poly (U). The acid-treated enzyme was very heterogeneous as shown by chromatography on affinity and ion-exchange columns and electrophoresis. The enzymes had similar molecular weights, pH optima, ionic strength effects, general specificity and products.