Showing papers by "Arno G. Motulsky published in 1992"

Polymorphism in red photopigment underlies variation in colour matching

Abstract: GENETIC variation of human senses within the normal range probably exists but usually cannot be investigated in detail for lack of appropriate methods. The study of subtle perceptual differences in red–green colour vision is feasible since both photo-pigment genotypes and psychophysical phenotypes can be assessed by sophisticated techniques. Red–green colour vision in humans is mediated by two different visual pigments: red (long-wavelength sensitive) and green (middle-wavelength sensitive). The apoproteins of these highly homologous photopigments are encoded by genes on the X chromosome1. Colour matches of males with normal colour vision fall into two main groups that appear to be transmitted by X-linked inheritance2–6. This difference in colour matching is likely to reflect small variations in the absorption maxima of visual pigments7–11 suggesting the presence of two common variants of the red and/or green visual pigments that differ in spectral positioning5,6. We report that a common single amino-acid polymorphism (62% Ser, 38% Ala) at residue 180 of the X-linked red visual pigment explains the finding of two major groups in the distribution of colour matching among males with normal colour vision.

Glutathione S-Transferase and Epoxide Hydrolase Activity in Human Leukocytes in Relation to Risk of Lung Cancer and Other Smoking-Related Cancers

Abstract: Background There is considerable interindividual variation in the activity of enzymes which metabolize polycyclic aromatic hydrocarbon constituents of tobacco smoke. Low activity of enzymes which detoxify carcinogenic polycyclic aromatic hydrocarbon metabolites may be associated with increased susceptibility to cancers etiologically related to cigarette smoking. Purpose We conducted a population-based, case-control study to determine whether patients with cancers related to smoking had lower activity of detoxifying isoenzymes of glutathione S-transferase (GST) and epoxide hydrolase (EH) than control subjects. Methods Enzyme activities were measured in leukocytes from 113 King County (Washington) residents diagnosed during 1987 with one of three smoking-related cancers (lung, oropharynx/oral cavity, or bladder), 50 King County residents with cancers believed unrelated to smoking (prostate cancer or non-Hodgkin's lymphoma), and 120 persons selected at random from the King County population. Enzyme activity measurements were made for leukocyte cytosolic GST toward transstilbene oxide (TSO), 1-chloro-2,4-dinitrobenzene, and benzo[a]pyrene-4,5-oxide (BaPO), and for microsomal EH toward BaPO. Results Overall, the distribution of activity levels of GST toward TSO and BaPO did not differ in case patients with smoking-related cancer compared with control subjects. The activities of GST toward 1-chloro-2,4-dinitrobenzene and of EH toward BaPO were somewhat lower on average in case patients with smoking-related cancers than in control subjects, but these differences were well within the limits of chance. Among the heaviest smokers, there were proportionately fewer patients with smoking-related cancers than control subjects with intermediate or high GST activity toward TSO (odds ratio = 0.6), but this difference was also plausibly due to chance (95% confidence interval = 0.3-1.1). Conclusions While the findings of this study are compatible with a moderate protective effect of high or intermediate enzyme activity among persons heavily exposed to tobacco, as suggested by an earlier report, the data are by no means conclusive.

Selective expression of human X chromosome-linked green opsin genes.

Abstract: The human red and green photopigments are specified by genes on the long arm of the X chromosome (Xq28). In individuals with normal color vision, the locus was proposed to consist of a single red pigment gene upstream of one or more copies of green pigment genes. The presence of a single red pigment gene in the array was confirmed by demonstration of only one retinal mRNA transcript coding for the red opsin. In individuals with multiple green pigment genes, it is unknown whether all genes are expressed. We analyzed the sequence of red- and green-specific mRNA from retinas of individuals with multiple green pigment genes in comparison with the corresponding genomic DNA sequences. The data showed that only a single green pigment gene is expressed. We therefore suggest that a locus control-like element, already known to be located 3.8 kilobases upstream of the transcription initiation site of the red pigment gene, allows transcription of only a single copy of the green pigment genes, probably the most proximal copy. This finding provides an explanation for the not-infrequent presence of 5' green-red hybrid genes in individuals with normal color vision. Such hybrid genes are usually associated with defective color vision. We suggest that 5' green-red hybrid genes produce defective color vision only when their position in the gene array allows expression in the retinal cone cells.

Defective colour vision associated with a missense mutation in the human green visual pigment gene.

Abstract: All red/green colour vision defects described so far have been associated with gross rearrangements within the red/green opsin gene array (Xq28). We now describe a male with severe deuteranomaly without such a rearrangement. A substitution of a highly conserved cysteine by arginine at position 203 in the green opsins presumably accounted for his colour vision defect. Surprisingly, this mutation was fairly common (2%) in the population but apparently was not always expressed. In analogy with nonexpression of some 5'green-red hybrid genes in persons with normal colour vision, we suggest that failure of manifestation occurs when the mutant gene is located at a distal (3') position among several green opsin genes. This mutation might also predispose to certain X-linked retinal dystrophies.

Different patterns of X inactivation in MZ twins discordant for red-green color-vision deficiency.

Abstract: Two female identical twins who were clinically normal were obligatory heterozygotes for X-linked deuteranomaly associated with a green-red fusion gene derived from their deuteranomalous father. On anomaloscopy, one of the twins was phenotypically deuteranomalous while the other had normal color vision. The color vision-defective twin had two sons with normal color vision and one deuteranomalous son. X-inactivation analysis was done with the highly informative probe M27 beta. This probe detects a locus (DXS255) which contains a VNTR and which is somewhat differentially methylated on the active and inactive X chromosomes. In skin cells of the color vision-defective twin, almost all paternal X chromosomes with the abnormal color-vision genes were active, thereby explaining her color-vision defect. In contrast, a different pattern was observed in skin cells from the woman with normal color vision; her maternal X chromosome was mostly active. However, in blood lymphocytes, both twins showed identical patterns with mixtures of inactivated maternal and paternal X chromosomes. Deuteranomaly in one of the twins is explained by extremely skewed X inactivation, as shown in skin cells. Failure to find this skewed pattern in blood cells is explained by the sharing of fetal circulation and exchange of hematopoietic precursor cells between twins. These data give evidence for X inactivation of the color-vision locus and add another MZ twin pair with markedly different X-inactivation patterns for X-linked traits.

Association of apolipoprotein B gene variants with plasma apoB and low density lipoprotein (LDL) cholesterol levels.

Abstract: The contribution of the variants of the apolipoprotein (apo) B locus to the total variance in plasma apoB and cholesterol levels was examined in four independent populations, two that were composed of normal controls (n = 77 and 85) and two with coronary heart disease (n = 115 and 159). A correlation between genotype at the apoB-XbaI locus and apoB levels was observed. The effects of the (+; presence of restriction site) and (-) alleles were to increase or decrease the apoB and cholesterol levels by approximately 3.5 mg/dl, respectively. None of the 274 individuals in the coronary heart disease (CHD) groups was found to be a carrier of the apoB allele Arg3500→Gln, previously shown to be associated with an apoB protein defective in binding to the low density lipoprotein receptor (LDL-R). No DNA sequence variants were found in the region encoding amino acid residues 3129–3532 within the putative LDL-R binding domain among 35 individuals with apoB levels above the 94th percentile (141 mg/dl).

Molecular genetics and medicine. A call for papers.

Abstract: The year 1993 marks the 40th anniversary of the publication of the two short, seminal papers by Watson and Crick 1,2 on the double helix structure of DNA. During these 40 years a revolution in biology and genetics has occurred as the insights gained from this discovery have moved these fields to a new molecular level of understanding. During the past decade we have also witnessed the beginning of another revolution in medical knowledge and therapeutics as the insights and techniques of molecular biology, molecular genetics, and recombinant DNA technology have begun to effect changes in the practice of medicine. These advances in what is now being called molecular medicine are having an ever-increasing impact in many areas of medicine: (1) Molecular diagnostic techniques are moving diagnosis from the phenotypic to the genotypic level (eg, the sweat chloride test for cystic fibrosis vs the identification of a mutation in the