Linkage disequilibrium between the fragile X mutation and two closely linked CA repeats suggests that fragile X chromosomes are derived from a small number of founder chromosomes

In order to investigate the origin of mutations responsible for the fragile X syndrome, two polymorphic CA repeats, one at 10 kb (FRAXAC2) and the other at 150 kb (DXS548) from the mutation target, were analyzed in normal and fragile X chromosomes. Contrary to observations made in myotonic dystrophy, fragile X mutations were not strongly associated with a single allele at the marker loci. However, significant differences in allelic and haplotypic distributions were observed between normal and fragile X chromosomes, indicating that a limited number of primary events may have been at the origin of most present-day fragile X chromosomes in Caucasian populations. We propose a putative scheme with six founder chromosomes from which most of the observed fragile X–linked haplotypes can be derived directly or by a single event at one of the marker loci, either a change of one repeat unit or a recombination between DXS548 and the mutation target. Such founder chromosomes may have carried a number of CGG repeats in an upper-normal range, from which recurrent multistep expansion mutations have arisen.     

COVARIATION OF SELFING RATES WITH PARENTAL GENE FIXATION INDICES WITHIN POPULATIONS OF MIMULUS GUTTATUS

Wright's gene fixation index F and two single-locus effective selfing rates—the selfing rate at loci with fixed alleles, and the selfing rate at loci without fixed alleles—were estimated in five populations of Mimulus guttatus. These two effective selfing rates describe the inbreeding observed at a single locus when both uniparental and biparental inbreeding are practiced. Estimates were made using progeny arrays assayed for six allozyme loci and two morphological loci exhibiting dominance. The average of the two selfing rates computed for subpopulations (ca. 10 m diameter) ranged from 24% to 59%, with a mean of 37%. When computed for populations (ca. 1 km diameter), average selfing rates were about 10% higher. In four populations, the selfing rate at loci with fixed alleles was higher than the selfing rate at loci without fixed alleles. Thus, the covariance of selfing with parental gene fixation was positive. In one of the populations, estimates for individual plants sampled along a transect gave positive correlations for selfing rates and for gene-fixation indices between adjacent plants. A highly positive correlation between selfing rate and gene fixation of individual plants was also observed. In another population, the covariance of selfing with gene fixation was higher for a locus causing leaf spots than for allozyme loci. This covariance is partially caused by 1) variation in homozygosity among neighborhoods and 2) biparental inbreeding within neighborhoods. The consequences of this covariance are discussed.     

Mutations affecting the pattern of the larval cuticle inDrosophila melanogaster

Summary The present report describes the recovery and genetic characterization of mutant alleles at zygotic loci on the third chromosome ofDrosophila melanogaster which alter the morphology of the larval cuticle. We derived 12600 single lines from ethyl methane sulfonate (EMS)-treatedst e orrucuca chromosomes and assayed them for embryonic lethal mutations by estimating hatch rates of egg collections. About 7100 of these lines yielded at least a quarter of unhatched eggs and were then scored for embryonic phenotypes. Through microscopic examination of unhatched eggs 1772 lines corresponding to 24% of all lethal hits were classified as embryonic lethal. In 198 lines (2.7% of all lethal hits), mutant embryos showed distinct abnormalities of the larval cuticle. These embryonic visible mutants define 45 loci by complementation analysis. For 32 loci, more than one mutant allele was recovered, with an average of 5.8 alleles per locus. Complementation of all other mutants was shown by 13 mutants. The genes were localized on the genetic map by recombination analysis, as well as cytologically by complementation analysis with deficiencies. They appear to be randomly distributed along the chromosome. Allele frequencies and comparisons with deficiency phenotypes indicate that the 45 loci represent most, if not all, zygotic loci on the third chromosome, where lack of function recognizably affects the morphology of the larval cuticle.     

Ribosomal subunits affected by antibiotic resistance mutations at seven chloroplast loci in Chlamydomonas reinhardtii

Summary Mutations at seven recombinationally distinct chloroplast loci confer antibiotic resistance on chloroplast ribosomes of the green alga Chlamydomonas reinhardtii. Assays of polynucleotide-directed amino acid incorporation by ribosomes reconstituted from mutant and wild type subunits demonstrate that streptomycin, neamine/kanamycin and spectinomycin resistance mutations specifically affect the small ribosomal subunit, whereas mutations to erythromycin resistance affect the large subunit. Although in each case the subunit site of antibiotic resistance is the same as that observed in analogous mutations in Escherichia coli, the number of loci conferring resistance to a given antibiotic differs in the two organisms. We have previously shown that streptomycin resistance mutations in Chlamydomonas map at five discrete loci (one nuclear and four chloroplast), and that mutations to neamine/kanamycin and spectinomycin resistance appear to define a single chloroplast locus. Results presented here confirm our previous report that all chloroplast erythromycin resistance mutations isolated to date fall into two recombinationally distinct loci, and indicate that mutants at one of these loci may be further divided on the basis of their level of cross resistance to other macrolide antibiotics.     

Mutation analysis of 28 autosomal short tandem repeats in the Chinese Han population

Short tandem repeats (STRs) have been extensively used in forensic genetics. However, according to previous studies, the mutation rates of STRs are relatively high and are affected by many factors. Therefore, it is important to analyze STR mutations and determine the influence of underlying factors on STR mutation rates. Mutation rates of 28 autosomal STRs were determined from 8708 paternity testing cases in the Chinese Han population, and the relationships between STR mutation rates and population, sex, age, allele length and heterozygosity were investigated. A total of 279 mutations were observed at 27 loci in a total of 233,530 meiosis cases, including 273 (97.8%) one-step, 5 (1.8%) two-step and 1 (0.4%) three-step mutations. The overall average mutation rate was 1.19?×?10^–3 (95% CI 1.06?×?10^–3???1.34?×?10^–3) ranging from 0 (TPOX) to 2.79?×?10^–3 (D13S325). Mutation rate comparisons revealed statistically significant differences at several STRs among populations. Paternal mutations occurred more frequently than maternal mutations, at a ratio of 6.04:1, and the mutation rate tended to increase with paternal age. Moreover, our study revealed a bias towards contraction mutations for long alleles and expansion mutations for short alleles. No obvious bias was observed in the overall mutation direction. In addition, STR loci with higher expected heterozygosity (H_exp) tended to have higher mutation rates. This work revealed the relationships between STR mutation rates and several influencing factors, providing useful data and information for further research on STR mutations in forensic genetics.

     

Germline Mutations of Tetranucleotide DNA Repeats in Families with Normal Children and Reproductive Pathology

We have previously reported a high rate of tetranucleotide DNA repeat mutations, including mutations of both germline and somatic origin, in spontaneous human abortions. To analyze in more detail mutational microsatellite (MS) variability in meiosis and its possible association with disturbed embryonic development, we have conducted a comparative study of mutation rates of a panel of 15 autosomal tetranucleotide MSs in 55 families with healthy children and in 103 families that have had spontaneous abortions with normal karyotypes. In the families with miscarriage, the gametic MS mutation rate was higher than in the families with normal reproductive function (4.36 × 10⁻³ versus 2.32 × 10⁻³ per locus per gamete per generation), but this difference was statistically nonsignificant (P = 0.25). No association of MS mutations with familiar miscarriage was found. Mutations at the MS loci studied were recorded almost 3 times as often in spermatogenesis as in oogenesis, which is likely to result from a greater number of DNA replication cycles in male germline cell precursors than in female ones. Mutations increasing and reducing the MS sequence length appeared at virtually the same rate. Changes in MS DNA sequence length per one repeated element, i.e., single-step mutations (93% of cases) exceeded all other events of allele length change. The highest number of mutations (81.2%) was found in longer alleles. This distribution of mutations by size, direction, and parental origin corresponds to the multistep mutation model of their emergence via mechanism of DNA strand slippage during replication.__________Translated from Genetika, Vol. 41, No. 7, 2005, pp. 943–953.Original Russian Text Copyright © 2005 by Nikitina, Lebedev, Sukhanova, Nazarenko.     

Isolation of polymorphic microsatellite markers for Begonia sutherlandii Hook. f.

Seven polymorphic microsatellite loci have been characterized for investigating population structure in the patchily distributed herb Begonia sutherlandii. Two loci (BSU3 and BSU4) exhibited population specific null alleles; primer redesign and allele sequencing for one of these loci showed two transition mutations in the original primer site. Two loci exhibited imperfect repeat polymorphisms due to single base pair indels in the flanking region (locus BSU6) and in the microsatellite region itself (BSU7). Transversion mutations were also found in the microsatellite region of locus BSU7. The remaining three loci amplified in all individuals tested and appeared to conform to a simple stepwise mutation pattern.     

Genetic localization of diuron- and mucidin-resistant mutants relative to a group of loci of the mitochondrial DNA controlling coenzyme QH2-cytochrome c reductase in Saccharomyces cerevisiae.

Summary Diuron-resistance, DIU (Colson et al., 1977), antimycin-resistance, ANA (Michaelis, 1976; Burger et al., 1976), funiculosin-resistance, FUN (Pratje and Michaelis, 1977; Burger et al., 1977) and mucidin-resistance, MUC (Subik et al., 1977) are each coded by a pair of genetic loci on the mit DNA of S. cerevisiae. In the present paper, these respiratory-competent, drug-resistant loci are localized relative to respiratory-deficient BOX mutants deficient in coenzyme QH₂-cytochrome c reductase (Kotylak and Slonimski, 1976, 1977) using deletion and recombination mapping. Three drug-resistant loci possessing distinct mutated allelic forms are distinguished. DIU1 is allelic or closely linked to ANA2, FUN1 and BOX1; DIU2 is allelic or closely linked to ANA1, MUC1 and BOX4/5; MUC2 is allelic to BOX6. The high recombinant frequencies observed between the three loci (13% on the average for 33 various combinations analyzed) suggest the existence of either three genes coding for three distinct polypeptides or of a single gene coding for a single polypeptide but subdivided into three easily separable segments. The resistance of the respiratory-chain observed in vitro in the drug-resistant mutants and the allelism relationships between respiratory-competent, drug-resistant loci and coQH₂-cyt c reductase deficient, BOX, loci strongly suggest that each of the three drug-resistant loci codes for a structural gene-product which is essential for the normal coQH₂-cyt c reductase activity and is obviously a good candidate for a gene product of the drug-resistant loci mapped in this paper. Polypeptide length modifications of cytochrome b were observed in mutants deficient in the coQH₂-cyt c red and localized at the BOX1, BOX4 and BOX6 genetic loci (Claisse et al., 1977, 1978) which are precisely the loci allelic to drug resistant mutants as shown in the present work. Taken together these two sets of data provide a strong evidence in favor of the idea that there exist three non contiguous segments of the mitochondrial DNA sequence which code for a single polypeptide sequence of cytochrome b. In each segment mutations which modify the polypeptide sequence can occur leading to the loss (BOX mutants) or to a modification (drug resistant mutants) of the enzyme activity.Chercheur qualifié du Fonds National de la Recherche Scientifique     

Histocompatibility gene mutation rates in the mouse: a 25-year review

 Mutation rates of H2 and non-H2 histocompatibility genes in the mouse are examined over a 25-year period. Detected by skin graft rejections, the mutations were screened in inbred and hybrid mice from a continuously maintained and monitored colony and from a regularly supplied set of mice provided from the National Cancer Institute for monitoring of genetic integrity. Twenty-five H2 mutations were recovered, involving the K, D, L, and Ab loci, as well as over 80 mutations of non-H2 histocompatibility genes. Aside from a single allele at a single locus (H2-K ^b ), the spontaneous mutation rate of H2 class I genes appears to be equivalent to that found estimated for non-H2 histocompatibility genes, and comparable to rates reported for a variety of mouse genes. This is in contrast with previous suggestions that H2 genes mutate at orders of magnitude greater than do “average” mammalian genes. The discrepancy is attributed to the H2-K ^b gene which accounts for over half of all reported H2 mutations and which mutates spontaneously at a rate of 1–2×10^–4 per gene per generation. Furthermore, over half of the spontaneous H2-K ^b mutations result in a single mutant phenotype (the “bg” group) which involve similar changes at amino acid residues 116 and 121. Thus, the high spontaneous mutation rate for H2-K ^b appears to be the exception among major histocompatibility genes, rather than the rule. Received: 18 April 1997 / Revised: 22 May 1997     

Mutation rate in human microsatellites: influence of the structure and length of the tandem repeat.

In 10,844 parent/child allelic transfers at nine short-tandem-repeat (STR) loci, 23 isolated STR mismatches were observed. The parenthood in each of these cases was highly validated (probability >99.97%). The event was always repeat related, owing to either a single-step mutation (n=22) or a double-step mutation (n=1). The mutation rate was between 0 and 7 x 10(-3) per locus per gamete per generation. No mutations were observed in three of the nine loci. Mutation events in the male germ line were five to six times more frequent than in the female germ line. A positive exponential correlation between the geometric mean of the number of uninterrupted repeats and the mutation rate was observed. Our data demonstrate that mutation rates of different loci can differ by several orders of magnitude and that different alleles at one locus exhibit different mutation rates.     

GENETIC HITCHHIKING AND THE DYNAMIC BUILDUP OF GENOMIC DIVERGENCE DURING SPECIATION WITH GENE FLOW

A major issue in evolutionary biology is explaining patterns of differentiation observed in population genomic data, as divergence can be due to both direct selection on a locus and genetic hitchhiking. “Divergence hitchhiking” (DH) theory postulates that divergent selection on a locus reduces gene flow at physically linked sites, facilitating the formation of localized clusters of tightly linked, diverged loci. “Genome hitchhiking” (GH) theory emphasizes genome‐wide effects of divergent selection. Past theoretical investigations of DH and GH focused on static snapshots of divergence. Here, we used simulations assessing a variety of strengths of selection, migration rates, population sizes, and mutation rates to investigate the relative importance of direct selection, GH, and DH in facilitating the dynamic buildup of genomic divergence as speciation proceeds through time. When divergently selected mutations were limiting, GH promoted divergence, but DH had little measurable effect. When populations were small and divergently selected mutations were common, DH enhanced the accumulation of weakly selected mutations, but this contributed little to reproductive isolation. In general, GH promoted reproductive isolation by reducing effective migration rates below that due to direct selection alone, and was important for genome‐wide “congealing” or “coupling” of differentiation (F_ST) across loci as speciation progressed.     

Effect of repeat copy number on variable-number tandem repeat mutations in Escherichia coli O157:H7

Variable-number tandem repeat (VNTR) loci have shown a remarkable ability to discriminate among isolates of the recently emerged clonal pathogen Escherichia coli O157:H7, making them a very useful molecular epidemiological tool. However, little is known about the rates at which these sequences mutate, the factors that affect mutation rates, or the mechanisms by which mutations occur at these loci. Here, we measure mutation rates for 28 VNTR loci and investigate the effects of repeat copy number and mismatch repair on mutation rate using in vitro-generated populations for 10 E. coli O157:H7 strains. We find single-locus rates as high as 7.0 x 10(-4) mutations/generation and a combined 28-locus rate of 6.4 x 10(-4) mutations/generation. We observed single- and multirepeat mutations that were consistent with a slipped-strand mispairing mutation model, as well as a smaller number of large repeat copy number mutations that were consistent with recombination-mediated events. Repeat copy number within an array was strongly correlated with mutation rate both at the most mutable locus, O157-10 (r2= 0.565, P = 0.0196), and across all mutating loci. The combined locus model was significant whether locus O157-10 was included (r2= 0.833, P < 0.0001) or excluded (r2= 0.452, P < 0.0001) from the analysis. Deficient mismatch repair did not affect mutation rate at any of the 28 VNTRs with repeat unit sizes of >5 bp, although a poly(G) homomeric tract was destabilized in the mutS strain. Finally, we describe a general model for VNTR mutations that encompasses insertions and deletions, single- and multiple-repeat mutations, and their relative frequencies based upon our empirical mutation rate data.     

梯棱羊肚菌全基因组SNP/Indel分析及基于Indel标记的遗传连锁图谱构建

基于梯棱羊肚菌Morchella importuna两个子囊孢子培养物的全基因组测序数据,对全基因组范围内的变异位点进行分析。共鉴定到18 438个变异位点,平均每Mbp的变异位点数量为361个;变异位点以单核苷酸多态性SNP为主,共计17 104个,基因组中SNP的频率为335SNPs/Mbp;Indel多态性位点1 334个,以2-10bp的插入缺失为主;73.4% SNP/Indel位于基因间隔区域,外显子区域共检测到3 042个变异位点,占总数的16.50%;对基因功能产生确定影响的移码突变有1 088个,占5.90%,错义突变916个,占比4.97%;不同Scaffold上的SNP/Indel出现频率不同,SNP频率最大的为Scaffold80,平均每Mbp包含2 856个SNP,频率最低为Scaffold60和Scaffold75,分别为16SNPs/Mbp和30SNPs/Mbp;对≥11bp的Indel变异位点进行标记开发和多态性群体分析,成功开发出75对Indel标记。采用原生质体单细胞分离技术,获得了梯棱羊肚菌M04的两个可亲和的同核体菌株M04P01和M04P40,同时采用来自M04子囊果的58个单孢菌株作为作图群体,初步构建了包含75个Indel标记和1个交配型基因的梯棱羊肚菌遗传连锁图谱,共获得12个连锁群,连锁群总长度273.7cM。     

Instability of (GATA)<Subscript> n</Subscript> microsatellite loci in the parthenogenetic Caucasian rock lizard<Emphasis Type="Italic"> Darevskia unisexualis</Emphasis> (Lacertidae)

Mini- and microsatellites, comprising tandemly repeated short nucleotide sequences, are abundant dispersed repetitive elements that are ubiquitous in eukaryotic genomes. In humans and other bisexual species hypervariable mini- and microsatellite loci provide highly informative systems for monitoring of germline and somatic instability. However, little is known about the mechanisms by which these loci mutate in species that lack effective genetic recombination. Here, multilocus DNA fingerprinting was used to study M13 minisatellite and (GATA) _n microsatellite instability in the parthenogenetic Caucasian rock lizard Darevskia unisexualis (Lacertidae). DNA fingerprinting of 25 parthenogenetic families, from six isolated populations in Armenia (comprising a total of 84 siblings), using the oligonucleotide (GATA)₄ as a hybridization probe, revealed mutant fingerprinting phenotypes in 13 siblings that differed from their mothers in several restriction DNA fragments. In three families (8 siblings), the mutations were present in the germline. Moreover, the mutant fingerprint phenotypes detected in siblings were also present in population DNA samples. No intrafamily variations in DNA fingerprint patterns were observed with the M13 minisatellite probe. Estimates of the mutation rate for (GATA) _n microsatellite loci in D. unisexualis showed that it was as high as that seen in some bisexual species, reaching 15% per sibling or 0.95% per microsatellite band. Furthermore, in one case, a somatic (GATA) _n microsatellite mutation was observed in an adult lizard. These findings directly demonstrate that mutations in (GATA) _n microsatellite loci comprise an important source of genetic variation in parthenogenetic populations of D. unisexualis.Communicated by G. P. Georgiev     

Rates of forward and reverse mutation inDrosophila after exposure to mustard gas and X-rays

After treatment with mustard gas, reversions of the mutantforked ³ⁿ were observed with a frequency of 1 in 7,500. In the absence of indications for either suppressors or chromosome-rearrangements, these data provide evidence that a chemical mutagen can produce back mutations inDrosophila. Half the number of reversions was characterized by mosaic manifestation. This shows that delayed appearance after chemical treatment also holds for true gene mutations. One partial reversion to nearly normal type was not due to back mutation, but to a rearrangement, presumably involving a duplication of theforked containing region.The study on reversion off ³ⁿ was combined with tests for recessive visibles at 15 selected loci of the X-chromosome. Mutations at theruby locus were most frequently induced by mustard gas (1 in 1,700). About one quarter of the forward mutations were fractionals. After exposure to 5,000 r X-irradiation both reversions off ³ⁿ and forward mutations at the loci under study were observed with frequencies comparable to those induced by mustard gas. Thus, no indication for mutagenspecific differences in mutational response have been obtained. After treatment with mustard gas a higher ratio of visibles to lethals was observed than after exposure to X-irradiation. It is pointed out that comparisons of the mutagenic effect of a chemical mutagen with that of X-radiation, even if restricted to visible mutations, inevitably involve an underestimate for the chemical, due to delayed effects of the latter.The experiments were carried out mainly at the Department of Genetics, State University of Utrecht (Director: Prof. Dr.C. L. Rümke). A. J. M. van Hedel, G. J. O. Jansen, V. Labordus andS. C. M. Schouten collaborated on parts of this project.     

Intracolonial genetic variation in the scleractinian coral Seriatopora hystrix

In recent years, increasing numbers of studies revealed intraorganismal genetic variation, primarily in modular organisms like plants or colonial marine invertebrates. Two underlying mechanisms are distinguished: Mosaicism is caused by somatic mutation, whereas chimerism originates from allogeneic fusion. We investigated the occurrence of intracolonial genetic variation at microsatellite loci in five natural populations of the scleractinian coral Seriatopora hystrix on the Great Barrier Reef. This coral is a widely distributed, brooding species that is at present a target of intensive population genetic research on reproduction and dispersal patterns. From each of 155 S. hystrix colonies, either two or three samples were genotyped at five or six loci. Twenty-seven (~17%) genetically heterogeneous colonies were found. Statistical analyses indicated the occurrence of both mosaicism and chimerism. In most cases, intracolonial variation was found only at a single allele. Our analyses suggest that somatic mutations present a major source of genetic heterogeneity within a single colony. Moreover, we observed large, apparently stable chimeric colonies that harbored clearly distinct genotypes and contrast these findings with the patterns typically observed in laboratory-based experiments. We discuss the error that mosaicism and chimerism introduce into population genetic analyses.     

X-ray induction of microsatellite instability at autosomal loci in human lymphoblastoid WTK1 cells

Many models of carcinogenesis posit that multiple genetic events are required for a normal cell to become cancerous. As the mutation rate of a single gene is in the range of 10(-8) to 10(-5) per cell division, a central question remains, how does a single cell acquire multiple mutations? One hypothesis, originally articulated by Loeb [10], proposed that some mutations may not be isolated events, but are associated with a mutator phenotype that leads to the occurrence of additional mutations elsewhere in the cellular genome. To test this hypothesis, we utilized a human lymphoblastoid cell line (WTK1) that is known to be hypermutable at the autosomal thymidine kinase (TK) locus. We isolated 139 independent clones which were selected for new TK mutations that arose either spontaneously or as the result of a single X-ray exposure of 1.5Gy. These clones were examined for second-site alterations in several microsatellite loci scattered throughout the genome using polymerase chain reaction (PCR) amplification followed by both denaturing gel electrophoresis and single-stranded conformational polymorphism (SSCP) analysis. Of these clones, 21 exhibited second-site mutations primarily involving loss of heterozygosity, 17 arose from irradiated cells whereas the remaining four arose from non-irradiated cells. We further examined the 17 clones which exhibited alterations specifically at the D16S265 locus; alterations at this site were associated with an enhanced frequency of mutations at other loci in the same region of chromosome 16q, but were not associated with additional mutations at other sites in the genome. Furthermore, new mutations arose in loci on 16q when these clones were propagated for 6 months in culture. Overall, these results support the hypothesis that radiation can induce a type of genetic instability which may facilitate the occurrence of multiple mutations throughout the genome in a small population of exposed cells. Furthermore, some cells may possess localized regions in the genome which are highly sensitive to the induction of instability.     

Genetic variation at storage protein-coding loci of common wheat (cv ‘Chinese Spring’) induced by nitrosoethylurea and by the cultivation of immature embryos in vitro

Electrophoretic patterns of seed storage proteins, the high-molecular-weight glutenins and gliadins, were studied in 468 plants of the common wheat cultivar Chinese Spring regenerated from callus culture of immature embryos, in 115 plants grown from seeds treated with nitrosoethylurea and in 260 control plants. From 5 to 21 single grains were analysed from each plant. In these three groups, the frequency of inherited mutations causing the loss of all proteins controlled by a locus (null-mutations, probably caused by a chromosomal deficiency) was 0.69%, 2.07%, and 0.05% per locus (the differences were statistically significant), respectively, while that of mutations causing the loss of a single protein band was 0.11%, 0.33%, and 0.05%, respectively. The loss of all of the gliadins controlled by Gli-B1 or GH-B2 (mutations were probably caused by a deletion of satellites of the corresponding chromosomes), was significantly higher than the loss of gliadins controlled by genomes A and D. Gene mutations altering the electrophoretic mobility of a single protein band in the pattern were found only in the second group of plants (0.44%). Therefore, chemical mutagenesis which produced not only more mutations than cultivation of immature wheat embryos in vitro, but also a higher ratio of mutations that altered DNA sequences, can be considered as an easier and comparatively more promising way for obtaining new improved variants of loci controlling biochemical characteristics in wheat. Somaclonal variation, on the other hand, was probably mainly caused by chromosomal abnormalities and could therefore hardly be considered as a useful tool in wheat breeding.     

Mutant frequencies and mutation spectra of dimethylnitrosamine (DMN) at the lacI and cII loci in the livers of Big Blue transgenic mice

The lacI gene in Big Blue transgenic rodents has traditionally been used as a surrogate gene for in vivo mutations. Recently, a more efficient and less expensive assay involving direct selection in the smaller lambda cII gene has been developed. Little is known, however, about the comparative sensitivity of the two loci or their influence on the recovered mutation spectrum following mutagen treatment. We have compared the mutation frequency (MF) and mutational spectrum (MS) of lacI and cII from the same DNA samples isolated from the liver of control and dimethylnitrosamine (DMN)-treated mice. A three-fold (p<0.01) increase in the MF was observed at both loci in the DMN-treated group compared to the corresponding control groups. While the DMN-induced mutation spectrum at lacI was significantly different from its corresponding spontaneous mutation spectrum (p<0.001), the mutation spectrum at cII (p>0.28) was not. The mutation spectra at the two loci from the DMN-treated mice resembled each other but the 4, 2.5 and 12-fold increase in the mutation frequency of A:T>T:A transversions, single base deletions and deletions of more than four base pairs, respectively, at lacI, altered the spectra significantly (p<0.007). The number of mutations of these classes at cII was also increased, but the fractions were lower than at lacI. The spontaneous mutation spectra at the cII and lacI loci resembled each other except for the seven-fold increase in G:C相似文献   

Analysis of the mitochondrial haplogroups of farm and wild-living raccoon dogs in Poland

Raccoon dogs' mitochondrial DNA genes (MT-CYTB, MT-CO1 and MT-CO2) containing a total of 1.5?kbp exhibited 11 synonymous substitutions in the polymorphism described, with almost 73% found in the gene MT-CO2. The polymorphism was observed in 27.3% of the loci in wild-living animals, and in over 90% of the loci in farm raccoon dogs. Seven mitochondrial haplogroups have been determined, among which three (Np1, Np2 and Np4) were found in the wild-living raccoon dogs and the other four (Np3, Np5, Np6 and Np7) in the farm animals. The occurrence of new haplogroups in the farm animals indicates the appearance of adaptive mutations. Differences were observed between the sequence under study and the reference sequence in MT-CYTB; they involved two non-synonymous substitutions (T304I and F332L). Analyses carried out to determine the deleterious effect of mutations indicated an almost 50% probability that a single amino acid substitution (T304I) in the protein has a negative impact on its function.