Patchy fur, a mouse coat mutation associated with X-Y nondisjunction, maps to the pseudoautosomal boundary region

Patchy fur is a semidominant X-linked mutation in the mouse, resulting in a sparse coat. The Paf mutation also alters the normal segregation of the X and the Y chromosomes during male meiosis by causing nondisjunction at anaphase I. Analysis of 1139 female meioses from an intersubspecific backcross using 15 PCR-based markers localizes Paf to an approximately 0.2-cM interval that includes the pseudoautosomal boundary. The meiotic nondisjunction phenotype may result from a chromosomal rearrangement that includes pseudoautosomal sequences and affects XY pairing.

Mitochondrial DNA deletions are rare in the free radical-rich retinal environment

We measured the levels of a somatic, 4977 bp deletion of mitochondrial DNA (mtDNA4977) in paired neural retinal and optic nerve tissues from 14 adults and 1 infant using a quantitative PCR assay. MtDNA is prone to free radical damage, and areas in the brain that are exposed to high levels of free radicals are observed to accumulate higher levels of the mtDNA4977 deletion. The levels of mtDNA deletions also increase with age in many tissues. Despite the presence of a free radical rich environment, mtDNA from the neural retina possessed extremely low mtDNA4977 levels (0.0001-0.001%). Deletion levels were always lower than those in the optic nerve from the same eye and do not appear to increase with age. Our results suggest that antioxidant defenses in the neural retina are effective in protecting mtDNA against oxidative damage.

The mutation properties of spinal and bulbar muscular atrophy disease alleles

We studied the gene for the trinucleotide repeat disorder X-linked spinal and bulbar muscular atrophy (SBMA) to quantify the spectrum of mutations and gain insight into genetic anticipation. This analysis was performed using single sperm typing from an affected individual. This method allows the quantification of large numbers of meioses and therefore provides accurate information about genetic instability of the CAG repeat expansions which cause SBMA. Among 198 X chromosome-containing sperm cells, 20% had a CAG repeat number equal to the donor's somatic DNA of 49 CAG repeats, 56% were expansions, and 24% contractions. Most of the expansions (84%) and contractions (94%) were between 1 and 3 CAG repeats. These results are consistent with those obtained from one previously studied SBMA patient and reveal greater CAG repeat instability in sperm than in somatic tissue. Our results indicate that in SBMA, in contrast to sperm typing analysis of Huntington's disease, there is relative stability of the CAG repeat number during paternal transmissions and that the spectrum of mutations is narrow. These results are in agreement with the limited available clinical data and suggest that anticipation may not be a significant feature of this disease.

Cloning and identification of the pig ribosomal gene promoter

Pig ribosomal RNA-encoding gene (rDNA) clones were obtained by screening a pig genomic DNA library. A 742-bp segment containing the promoter was sequenced. Using total pig RNA, the tsp (transcription start point) was defined by primer extension. A promoter-like region was found immediately upstream from the active promoter. Promoter function was studied by transfection of pig tissue culture cells and assayed by a highly sensitive RT-PCR method. Alignment of five mammalian rDNA promoter sequences, human, mouse, rat, rabbit and pig, showed five conserved subregions which may be important in transcriptional regulation. An unusual feature of the pig rDNA promoter is that instead of a G at -16, which is conserved in eukaryotes, there is a C.

Direct estimation of the recombination frequency between the RB1 gene and two closely linked microsatellites using sperm typing

In this study, single sperm typing has been used for high-resolution recombination analysis between the retinoblastoma gene and two closely linked extragenic microsatellites (D13S284 and D13S1307). The analysis of 1198 single sperm from three donors allowed the determination of recombination fractions between RB1.20 and D13S284 and RB1.20 and D13S1307 of 0.022 and 0.033, respectively. These results show that RB1 gene and the two microsatellites are closely linked, which validates their potential use in indirect genetic diagnosis of retinoblastoma.

Preparation of specific antisera to Drosophila acid phosphatase without rigorous protein purification

Extracts from an acid phosphatase CRM- null mutant of Drosophila melanogaster were used to eliminate contaminating antibodies in a nonspecific preparation of anti-acid phosphatase serum. This method of producing specific antisera makes unnecessary the rigorous purification of an antigen prior to immunization attempts in those cases where CRM- null mutants of the antigen are available. Antisera so prepared could be used for a wide variety of purposes.

Fine-structure genetic mapping of human chromosomes using the polymerase chain reaction on single sperm: experimental design considerations

The polymerase chain reaction (PCR) makes it possible to rapidly generate a very large number of copies of a specific region of DNA. Application of PCR to individual human sperm cells permits the typing of a large number of independent male meiotic events. If the donor male is heterozygous at three loci, sperm typing using PCR will permit ordering of loci in a manner analogous to classical methods of experimental genetics. Sequential analysis of trios of loci by sperm typing will provide a very accurate means of ordering any number of tightly linked loci. Here, we describe experimental design and sample-size issues raised by the application of sperm typing by PCR for mapping human chromosomes, and we demonstrate that sperm typing will be an efficient method for generating fine-structure human genetic maps.

Detection of c-K-ras mutations in fine needle aspirates from human pancreatic adenocarcinomas

Formalin-fixed paraffin-embedded tissue specimens obtained by fine needle aspiration of pancreatic masses from 47 patients were examined retrospectively for cytology and the presence of mutant c-K-ras oncogenes. Point mutations of c-K-ras in codon 12 were detected by RNA-DNA RNAse A mismatch cleavage after in vitro DNA amplification of the cellular c-K-ras sequences by the polymerase chain reaction. Of the 36 patients with pancreatic adenocarcinoma, mutant c-K-ras oncogenes were detected in 18 of 25 (72%) with malignant cytologies, 2 of 8 (25%) with atypical cytologies, and 0 of 3 with benign aspiration cytologies. The remaining 11 patients without pancreatic adenocarcinomas did not have mutant c-K-ras genes detectable by the assay. The diagnosis of pancreatic adenocarcinoma was based upon clinical follow-up. The presence of mutant c-K-ras oncogenes did not significantly affect survival in the patients studied. Mutant c-K-ras genes were found at the time of initial clinical presentation in the majority of pancreatic adenocarcinomas, suggesting an important role of the mutation in oncogenesis. In conjunction with cytology, our approach represents an application for cancer diagnosis at the molecular genetic level.

A multiple-tubes approach for accurate genotyping of very small DNA samples by using PCR: statistical considerations

A multiple-tubes procedure is described for using PCR to determine the genotype of a very small DNA sample. The procedure involves dividing the sample among several tubes, then amplifying and typing the contents of each tube separately. The results are analyzed by a statistical procedure which determines whether a genotype can be conclusively assigned to the DNA sample. Simulation studies show that this procedure usually gives correct results even when the number of double-stranded fragments in the sample is as small as 30. The procedure remains effective even in the presence of small amounts of laboratory contamination. We find that the multiple-tubes procedure is superior to the standard one-tube procedure, either when the sample is small or when laboratory contamination is a potential problem; and we recommend its use in these situations. Because the procedure is statistical, it allows the degree of certainty in the result to be quantified and may be useful in other PCR applications as well.

Detection of human papillomavirus in normal and dysplastic tissue by the polymerase chain reaction

Detection of human papilloma virus (HPV) types 16 and 18 in formalin-fixed, paraffin-embedded tissue by a new in vitro DNA amplification method, the polymerase chain reaction, was compared with detection with genomic DNA probes using in situ hybridization. The polymerase chain reaction replicates exponentially HPV DNA sequences present in a single 5- to 10-micron paraffin-embedded tissue section. The amplified sequences are detected with a DNA hybridization probe in a dot blot assay. The HPV polymerase chain reaction was able to detect on the average less than one HPV genome/cell as determined by tests of paraffin sections of cell pellets with known HPV genomic content. Cervical sections from 21 patients with HPV types 16, 18, or 31 as determined by in situ DNA hybridization were analyzed by the polymerase chain reaction. No disagreements between the two methods were detected. The sections comprising normal and dysplastic epithelium were further analyzed by the HPV polymerase chain reaction. The presence of virus correlated with the presence of dysplasia in the sections, though 3 of 10 normal sections contained HPV, and 1 of 21 sections with dysplasia lacked HPV 16 or 18. The polymerase chain reaction can specifically detect HPV 16 or 18 with high sensitivity from paraffin-embedded tissues.

Analysis of DNA sequences in forty-year-old paraffin-embedded thin-tissue sections: a bridge between molecular biology and classical histology

DNA sequences from human tissues paraffin embedded 40 yr ago were studied using the in vitro gene amplification technique known as the polymerase chain reaction. Although significant DNA degradation was observed, single copy genomic sequences and viral segments were readily detected from single 5- to 10-microns tissue sections. This demonstrates that the world-wide collection of archival paraffin-embedded tissues may be used to study the association of biological agents (viral, bacterial, or parasitic) or endogenous DNA lesions with disease over time and to carry out retrospective studies on material where the clinical outcome has already been established. This will be especially valuable in studying rare cancers and other rare diseases.

Detection of activated Mr 21,000 protein, the product of ras oncogenes, using antibodies with specificity for amino acid 12

Antisera raised to a set of chemically synthesized peptides spanning position 12 of ras Mr 21,000 protein (p21) (residues 5 to 17) were able to distinguish between different forms of p21 according to the amino acid at the twelfth codon. The peptide immunogens differed in one amino acid corresponding to position 12 of the protein; the substitutions were valine, serine, arginine, aspartate, alanine, or cysteine at this position. Normal p21 contains glycine at position 12; the other amino acid substitutions are those which would result from a single base change in codon 12 and may therefore be the activating mutations most likely to occur in human tumors. The peptide antisera were evaluated by the Western immunoblot procedure for reactivity with v-ki-ras p21 expressed in Escherichia coli containing the corresponding position 12 mutations. Five of the antisera reacted with p21, and of these, anti-serine, -valine, -arginine, and -aspartate peptide antibodies were specific for their cognate protein. Similar analysis using mammalian cells as sources of position 12 variant forms of p21 demonstrated the ability of these antisera to distinguish among their oncogenic forms of p21 differing by single amino acid substitutions.

Multipoint mapping calculations for sperm-typing data

This paper explains how multipoint likelihoods can be computed for sperm-typing data. Experimental errors such as multiple sperm per tube, inadequate amplification, and contamination by exogenous DNA are explicitly taken into account. By limiting the number of sperm theoretically possible per tube to a predetermined maximum and by assuming no chiasma interference, maximum-likelihood estimation can be carried out rapidly using the theory of hidden Markov chains.

Base mispair extension kinetics. Binding of avian myeloblastosis reverse transcriptase to matched and mismatched base pair termini

We investigate the enzymatic basis for the inefficient extension of single base mismatches by DNA polymerase compared with the extension of correct base pairs. Inefficient mismatch extension could result from either a reduced binding of the enzyme to mispaired versus correctly paired DNA template-primer termini, or from a lowered intrinsic rate of extension of mispairs by a bound enzyme, or from a combination of both factors. Avian myeloblastosis reverse transcriptase is used to measure the affinities (equilibrium dissociation constants) for the four matched and twelve mismatched base pair configurations situated at a primer 3'-terminus. The binding affinities are analyzed by two different assays employing polyacrylamide gels. The first assay uses steady-state kinetics to measure the efficiency of elongating correct and incorrect base pairs and to evaluate the enzyme's dissociation constants for matched and mismatched termini. The estimated KD values obtained in the steady-state analysis fall within a range of approximately 0.1-20 nM. The efficiencies of extending two of the mispairs, G.G and C.C, are too low to allow a determination of KD by the kinetics method. The second assay uses equilibrium binding to measure the ratio of polymerase bound to matched compared with mismatched termini, KDright/KDwrong. The affinity ratios, including values for G.G and C.C mispairs, are in the range of about 0.4-4.2. While around 1 order of magnitude difference is observed in the relative binding affinities of the polymerase for matched and mismatched primer termini, the relative extension efficiencies vary over more than 5 orders of magnitude. Therefore, it appears that inefficient mismatch extension is caused primarily by a kinetic block inhibiting elongation from mispaired primer 3'-termini rather than to a difference in binding.

Individual variation in recombination among human males

Studies of recombination between the markers D6S291 and D6S109 in individuals by sperm typing provide direct evidence for significant variation in recombination among humans. A statistically significant difference in the recombination fraction (range 5.1%-11.2%) was detected among five donors. This variation could reflect polymorphisms in genes affecting recombination or in chromosome structure. Ignoring this variability in studies designed to examine the relationship between physical and genetic distances could lead to incorrect inferences. Individual variation in recombination makes it difficult to predict the recombination fraction for an interval in any particular individual. This could be important in certain genetic counseling situations.