Margaret Crisp

Family with Pelizaeus-Merzbacher disease/X-linked spastic paraplegia and a nonsense mutation in exon 6 of the proteolipid protein gene

We report on a C-to-T transition in exon 6 of the PLP gene in a male with Pelizaeus-Merzbacher disease/X-linked spastic paraplegia. The transition changes a glutamine at amino acid residue 233 to a termination codon. This premature stop codon probably results in a truncated protein that is not functional. Six other relatives were analyzed for the mutation and two female carriers were identified. Autopsy data on one male are presented.

Electrophoresis of acid phosphohydrolase isozymes on cellogel

Abstract Methods are presented for the electrophoresis and detection of various acid phosphohydrolases on Cellogel. Isozymes of acid DNase, RNase, 3′-phosphodiesterase, and nonspecific phosphodiesterase are readily detectable with these techniques. The enzymes studied were extracted from vertebrate spleens and leukocytes.

A positive zymogram method for ribonuclease.

Abstract We have developed a rapid, sensitive, and specific zymogram for detecting ribonuclease (RNase). The method makes use of an agarose gel containing the small substrate UpA [uridylyl (3′ → 5′)-adenosine]. UpA is hydrolyzed by RNase to adenosine, which is deaminated by adenosine deaminase. The inosine so formed is linked by a series of enzymatic reactions (nucleoside phosphorylase, xanthine oxidase) to formation of a blue tetrazolium salt. This method is superior in that it entails a staining reaction only at sites of RNase activity (positive zymogram) rather than clearing of a background of RNA (negative zymogram), a process which is often mimicked by protein devoid of RNase activity.

Sialic acid residues contribute to the heterogeneity of human serum ribonuclease: demonstration by isoelectric focusing and neuraminidase treatment of serum

Ribonuclease (RNase) activity from human serum appears as multiple zones of activity following isoelectric focusing in thin layer polyacrylamide gel. At least one but not all of these zones is cross reactive with rabbit antibovine pancreatic RNase A antiserum. Treatment of serum or partially purified serum RNase with neuraminidase reduces the complexity of the serum RNase banding pattern to a major band which focuses at a pH of 9.5 or greater and a minor zone of activity which focuses at about pH 6.0-6.2. Trypsin does not affect the pattern. Thus, sialic acid residues account for a large portion of the heterogeneity of human serum RNase. Neuraminidase treatment is requisite for evaluating RNase from serum and certain other sources.

Tissue specificity of human phosphodiesterase. II. Intestinal mucosa

Extracts of human intestinal mucosa were examined for their ability to hydrolyze various phosphodiester, phosphomonoester and phenylphosphonate ester linkages. Enzymes carrying out these reactions were partially purified by butanol extraction, ammonium sulfate precipitation and DEAE-cellulose chromatography, and examined for polymorphism on polyacrylamide gels. Two species of alkaline phosphatase and at least five species of PDE I were identified. Antibodies to purified bovine intestinal phosphatase and phosphodiesterase were found specific for the respective human enzymes.

The Radiation Leukemia Protection (RLP) Activity of Some Cohn Fractions of Serum

Several of the Cohn fractions obtained from sheep serum were partially resolved on DEAE-cellulose columns. The fractions obtained from the columns were tested for their ability to prevent leukemia in