Mutant allele frequencies in cats of Minneapolis-St. Paul

Coat color phenotype frequencies were determined in the cat population of Minneapolis and St. Paul. Mutant allele frequencies are estimated to be p (O) = 0.287, q(a) = 0.742, q(d) = 0.635, q(l) = 0.507, p(S) = 0.288. q(tb) = 0.472, p(W) = 0.016, and q(cs) = 0.214. A substantial number of cats displaying the Siamese coat pattern were found. These cats have a long history in the population.     

Mutant allele frequencies in domestic cat populations in Arkansas and Tennessee

We conducted surveys of mutant allele frequencies of four cat populations in Arkansas and Tennessee during 2002. Our calculations and analyses support that Southwestern cat populations were relatively more genetically similar to each other than compared to cat populations in other areas of North America. However, the cat population of Fort Smith is slightly different from the other cat populations studied in the Southwestern United States. Although there is a clear significant spatial geographic pattern for many mutant coat allele frequencies in the United States and Canada cat populations (d, l, S, and W), our results revealed that there is not a significant isolation-by-distance model affecting these cat populations. Our data also support the historical migration hypothesis because our calculated allele frequencies were genetically similar to cat populations located in ancestral areas of Europe. Different phenograms, including new European cat genetic profiles, showed that the Southwestern cat populations studied are of a clear British origin. Therefore, migration routes of early Arkansas and Tennessee settlers help explain the similarities of allele frequencies among domestic cat populations.     

Distribution of AB0 and RH blood group alleles in different populations of southern Punjab, Pakistan.

The analysis of a sample of 1632 individuals from patients of the Nishtar Teaching Hospital, Multan, suggests that different ethnic groups (Araeen, Mughals, Syed, Jat, Rajputs, Baloch and Pathan) are not significantly different from another with regard to the distribution of RH blood group alleles (RH*d around 0.30). The distributions of the AB0 blood group alleles suggest that different ethnic groups are not significantly different from the average alele frequencies (AB0*A = 0.23, AB0*B = 0.33, AB0*0 = 0.47) except for the Pathan ethnic group (AB0*A = 0.35, AB0*B = 0.47, AB0*0 = 0.27). The populations of different geographic areas are not significantly different from the average allele frequencies, except for the southern district of Rahim Yar Khan (AB0*A = 0.12) and the northern district of Sahiwal (AB0*A = 0.19). The populations of Sahiwal (RH*d = 0.35) and Muzaffargarh (RH*d = 0.36) yield significantly different allele frequencies at the RH locus. The interpopulation differences can be explained by the geographic distance. There is a significant difference in the frequencies of the AB0 alleles between rural and urban populations, suggesting that rural populations maintain their isolation from urban populations. Rural and urban populations are not significantly different from one another concerning the allele frequencies at the RH locus.     

Mutant allele frequencies in the cat population of Omaha, Nebraska

The phenotypes of 256 cats seen in Omaha, Nebraska, during the summer of 1983 were recorded and compared to those of other midcontinental USA cat populations. When cats that were "pure-bred," or derived from pure breeds, were excluded, random breeding at the O locus was confirmed and mutant allele frequencies were: O = 0.352, a = 0.813, tb = 0.354, d = 0.525, I = 0.369, S = 0.197, and W = 0.039. Siamese and Himalayan cats constituted 10.9 percent of the total sample (cs = 0.342), but analysis suggests that they are not randomly mating with the general population. Mutant allele frequencies of Omaha cats are more similar to those of cats in Champaign, Illinois, than to those of St. Louis, suggesting that an overland route was more important than a river route in founding the Omaha cat population.     

Mutant allele frequencies in domestic cat populations in the Netherlands

Surveys of gene frequencies in domestic cat (Felis catus) populations were carried out in four cities in the Netherlands. The principal variants recorded included seven mutant alleles affecting coat colour and hair length. Significant differences in frequencies were found between cities at some of the loci considered. The results of these surveys help to clarify certain trends in the distribution of mutant alleles in cat populations across Europe. Some insight is offered into the importance of trade routes in determining these patterns of distribution. In addition, comparisons between owned pets and unwanted cats indicate that human preferences have little effect on mutant allele frequencies.     

Analysis of the spectra of mutations and polymorphic loci of cystic fibrosis transmembrane conductance regulator in the population of Bashkortostan

The spectra of mutations and polymorphic loci of the gene of cystic fibrosis transmembrane conductance regulator (CFTR) was studied in 60 cystic fibrosis (CF) families from Bashkortostan. Mutations delF508, 394delTT, CFTRdele2,3(21 kb), R334W, and S1196X (33.3, 3.3, 1.7, 0.8, and 0.8%, respectively) were identified. The frequencies of tandem tetranucleotide repeat (TTR) alleles were determined for locus IVS6a-GATT of intron 6 of the CFTR gene and two extragenic loci flanking the CFTR gene, D7S23 and MET (probes CS.7 and MetH) in mutant and normal chromosomes. Allelic and haplotypic associations of these loci with the mutations found were estimated. An absolute linkage between the 6TTR allele of locus IVS6a-GATT and the delF508 mutation was ascertained. A considerable linkage disequilibrium between the delF508 mutation and the C2 allele of locus D7S23 and between this mutation and the A1 allele of locus MET was found. Most of the other mutant chromosomes carried marker alleles 7TTR, C1, and A2. It was demonstrated that 67% of CF chromosomes carrying delF508 had haplotype 6-2-1 for loci IVS6a-GATT/D7S23/MET, respectively. The frequency distribution of haplotypes in CF chromosomes without delF508 had a high variance and did not differ significantly from the distribution in normal chromosomes (chi 2 = 9.415; p > 0.05).     

Gene frequencies in the domestic cats (Felis catus) of urban and rural Bordeaux

A survey was carried out of mutant allele frequencies at seven loci in the domestic cats of Bordeaux and rural areas between 50 and 140 km distant. The results support the suggestion of Pontier (1983) that urban rural clines are apparent at the orange locus, but not for non-agouti or blotched tabby. A triple centroid curve smoothing technique was carried out on all the French populations surveyed so far. This is an attempt to reduce genetic and statistical noise and take account of standard errors of gene frequency estimates. The cline maps of Todd (1977), which included only ten French populations are thereby substantially supported by subsequently obtained data. There appears to be a striking affinity between the cats of Bordeaux and those of St. Pierre et Miquelon. This is the first demonstration of a connection between the cats of French Canada and those of mainland France. The origin of the cat populations of the main areas of French settlement in the St. Lawrence River valley remains unexplained.     

Gene frequencies in the cat population of Buenos Aires, Argentina, and the possible origin of this population.

The phenotypes of 295 stray cats seen in the capital area of Buenos Aires, Argentina, between March and December of 1989 were recorded. The corresponding mutant allele frequencies were as follows: O = 0.28, a = 0.83, Ta = 0.01; tb = 0.31; d = 0.45; I = 0.40; S = 0.28; W = 0.02. The allele frequencies calculated at the O locus were consistent with those expected for a randomly breeding population according to the formula for the Hardy-Weinberg equilibrium. The analysis of the genetic distances between Buenos Aires and several European cat populations revealed that the Spanish and, especially, those with a proven more ancestral genetic constitution, are the most closely related. When a similar analysis was carried out, including other Latin American cat populations, those of Spanish origin were found to show the highest degree of relatedness. These findings suggest that the Buenos Aires cat population was not genetically structured following the "two-stepping-stone" model and support the hypothesis that differential gene flows play a transcendental role in understanding the genetic composition of domestic cat populations.     

Haemochromatosis gene mutations in Finns, Swedes and Swedish Saamis

Frequencies of three different mutant haemochromatosis (HFE) alleles (282Tyr, 63Asp and 65Cys) were studied in three northern European populations, i.e. Finns, Swedes and Swedish Saamis. In Finns and Swedes the allele frequencies were within the range found in other populations from northern and western Europe. The Saamis differed from the Swedes with respect to all mutant alleles. Lower frequencies compared to Swedes were found for the 282Tyr (p = 0.0046) and 63Asp (p = 0.034) alleles, whereas the frequency of the 65Cys allele was higher (p = 0.046) in the Saamis. The total distribution of HFE alleles in Saamis showed a highly significant difference from that in Swedes (chi2 = 16.7, 3 d.f., p = 0.0008). These results further underline the genetic uniqueness of the Saamis.     

Coat color mutation frequencies in domestic cat populations of Primorskii krai, Russia

The frequencies of mutant coat color genes have been estimated in the cat populations of five settlements in Primorskii krai, Russia: two cities (Partizansk and Spassk-Dal'nii), a town (Khorol'), and two villages (Dmitrievka and Brovnichi). The genetic profiles of these populations have been found to be relatively homogenous and to correspond of the cat population of the city of Vladivostok studied earlier. No considerable differences in gene frequencies have been found between urban and rural cat populations. The data suggest a common origin of all domestic cat populations of Primorskii krai.     

Brief communication: Molecular characterization of O alleles at the ABO locus in Chilean Aymara and Huilliche Indians

A molecular characterization of alleles O1, O1variant (O1v), and the mutation G542A of the ABO blood group was performed in two Amerindian populations of Chile, the Aymara (n = 84) and the Huilliche (n = 75). In addition, a sample of 82 individuals of Santiago belonging to the mixed Chilean population was typed for comparative purposes. The polymorphisms which allow for molecular differentiation of different alleles of the O blood group were studied in genomic DNA. The mutations G188, G261-, G542A, T646A, and C771T, described for alleles O1, O1v, and G542A, were determined using the PCR-RFLP (polymerase chain reaction-restriction fragment length polymorphism) technique. All individuals studied were group O homozygotes for the deletion G261-, which defines the O1 alleles. Results obtained indicate that allele O1v exhibits frequencies of 0.65, 0.81, and 0.60 in Aymara, Huilliche, and Santiago populations, respectively. The frequencies of allele O1(G542A) were 0.119, 0.113, and 0.079 in the same populations. Frequencies for alleles O1 and O1v obtained in the Chilean populations studied concur with the results obtained by other authors, respecting the greater frequency of allele O1v as well as with its heterogeneous distribution in aboriginal South American populations. In Chilean populations, Allele G542A exhibits lower frequencies than those described for indigenous populations from Brazil and may be used as an Amerind admixture marker.     

Haptoglobin gene subtypes in three Brazilian population groups of different ethnicities

Haptoglobin is a plasma hemoglobin-binding protein that limits iron loss during normal erythrocyte turnover and hemolysis, thereby preventing oxidative damage mediated by iron excess in the circulation. Haptoglobin polymorphism in humans, characterized by the Hp(*1) and Hp (*2) alleles, results in distinct phenotypes known as Hp1-1, Hp2-1 and Hp2-2, whose frequencies vary according to the ethnic origin of the population. The Hp(*1) allele has two subtypes, Hp (*1F) and Hp (*1S) , that also vary in their frequencies among populations worldwide. In this work, we examined the distribution frequencies of haptoglobin subtypes in three Brazilian population groups of different ethnicities. The haptoglobin genotypes of Kayabi Amerindians (n = 56), Kalunga Afro-descendants (n = 70) and an urban population (n = 132) were determined by allele-specific PCR. The Hp(*1F) allele frequency was highest in Kalunga (29.3%) and lowest in Kayabi (2.6%). The Hp(*1F)/Hp(*1S) allele frequency ratios were 0.6, 1.0 and 0.26 for the Kayabi, Kalunga and urban populations, respectively. This variation was attributable largely to the Hp(*1F) allele. However, despite the large variation in Hp(*1F) frequencies, results of F (ST) (0.0291) indicated slight genetic differentiation among subpopulations of the general Brazilian population studied here. This is the first Brazilian report of variations in the Hp(*1F) and Hp(*1S) frequencies among non-Amerindian Brazilians.     

Linkage disequilibrium between the FES, D15S127, and BLM loci in Ashkenazi Jews with Bloom syndrome.

Bloom syndrome (BS) is more common in the Ashkenazi Jewish than in any other population. Approximately 1 in 110 Ashkenazi Jews carries blm, the BS mutation. The locus mutated in BS, BLM, maps to chromosome subband 15q26.1, tightly linked to the proto-oncogene FES. We have investigated the basis for the increased frequency of blm in the Ashkenazim by genotyping polymorphic microsatellite loci tightly linked to BLM in affected and unaffected individuals from Ashkenazi Jewish and non-Ashkenazi populations. A striking association of the C3 allele at FES with blm (delta = .422; p = 5.52 x 10(-7)) and of the 145-bp and 147-bp alleles at D15S127 with blm (delta = .392 and delta = .483, respectively; p = 2.8 x 10(-5) and p = 5.4 x 10(-7), respectively) was detected in Ashkenazi Jews with BS. This linkage disequilibrium constitutes strong support for a founder-effect hypothesis: the chromosome in the hypothetical founder who carried blm also carried the C3 allele at FES and either the 145-bp or the 147-bp allele at D15S127.     

Population genetic structure of Nantucket pine tip moth

Summary Variation at polymorphic isozyme loci was analyzed in Nantucket pine tip moth (NPTM) populations from 5 geographic locations. At the North Carolina location, populations representing 3 generations at 3 local sites were also studied. Four of the loci investigated (LAP, MDH, -GPDH and AK), although variable, had few alleles per locus (3–5) and few differences among populations in allele frequencies. At each locus, all populations had the same allele at a high frequency.At the PGM locus, fifteen alleles were identified and allelic frequencies varied among populations. At least eight alleles were present within a population and, in most populations, two or more alleles had high frequencies that differed among populations. An excess of homozygotes over Hardy-Weinberg expectations was found for 7 out of the 10 populations studied, indicating the probable existence of some form of inbreeding structure or populational subdivision within sampled stands.Joint consideration of the results observed for PGM and the other four loci is counterindicative of neutrality at all loci and strongly indicative of genetic differentiation among locally disjunct populations.Published as Paper No. 6751 of the Journal Series of the North Carolina Agricultural Research Service     

Linkage and the Limits to Natural Selection

The probability of fixation of a favorable mutation is reduced if selection at other loci causes inherited variation in fitness. A general method for calculating the fixation probability of an allele that can find itself in a variety of genetic backgrounds is applied to find the effect of substitutions, fluctuating polymorphisms, and deleterious mutations in a large population. With loose linkage, r, the effects depend on the additive genetic variance in relative fitness, var (W), and act by reducing effective population size by (N/N(e)) = 1 + var (W)/2r(2). However, tightly linked loci can have a substantial effect not predictable from N(e). Linked deleterious mutations reduce the fixation probability of weakly favored alleles by exp(-2U/R), where U is the total mutation rate and R is the map length in Morgans. Substitutions can cause a greater reduction: an allele with advantage s < s(crit) = (π(2)/6) log(e) (S/s)[var(W)/R] is very unlikely to be fixed. (S is the advantage of the substitution impeding fixation.) Fluctuating polymorphisms at many (n) linked loci can also have a substantial effect, reducing fixation probability by exp [ &2Kn var(W)/R] [K = -1/E((u - u)(2)/uv) depending on the frequencies (u,v) at the selected polymorphisms]. Hitchhiking due to all three kinds of selection may substantially impede adaptation that depends on weakly favored alleles.     

Genetic structure of an endangered plant, Antirrhinum microphyllum (Scrophulariaceae): allozyme and RAPD analysis

Thirteen allozyme loci and 68 random amplified polymorphic DNA (RAPD) markers were analyzed to assess the genetic diversity and population structure of threatened Antirrhinum microphyllum (Scrophulariaceae), a narrow endemic of central Spain known from only four populations. According to allozyme data, species genetic diversity (p = 46.15%, A = 2.61, and H(e) = 0.218), as well as within-population genetic diversity (p = 44.23%, A = 2.10, and H(e) = 0.204), were high when compared to average estimates for other narrowly distributed plant species. Ninety-four percent of species genetic diversity corresponded to within-population genetic diversity. Nevertheless, significant differences were found among populations in allele frequencies of four of the six polymorphic loci, and three private alleles were detected. Inbreeding coefficients (F(IS)) suggest that populations are structured in genetic neighborhoods. The RAPDs also showed high levels of genetic diversity (p = 89.71% and H(e) = 0.188 at the species level, and p = 67.65% and H(e) = 0.171 at the population level). Nei's genetic distances estimated both from allozymes and RAPDs indicated low differentiation among populations. In spite of this, the low frequencies of certain alleles and the presence of private alleles indicate that efforts should be made to conserve all four remaining populations.     

Variation in coat colour gene frequencies and selection in the cats of Scotland

Estimates of Felis catus coat colour gene frequencies were obtained from samples in 27 Scottish localities. These areas ranged from island samples in Shetland, Orkney and the Outer Hebrides to remote highland areas on the Scottish mainland. Animals from several towns and cities were also sampled. The results reveal considerable heterogeneity in the frequencies of the O, a, t ^b, l, S and W alleles. The frequencies of d were relatively homogeneous throughout Scotland. There were indications that island and mainland cat populations may have been derived from separate ancestral gene pools. Much of the observed gene frequency heterogeneity in rural areas could be attributed to differential migration or lack of penetrance. Geographical isolation and possible hybridization with F. sylvestris may explain the high frequency of wild-type alleles in mainland rural areas. A correlation between cat population coefficient of darkness and human population was observed. Such an observation supports the concept of cumulative urban pressure and indicates that a process analogous to industrial melanism is occurring in urban cat populations. The darkening of phenotype appears to be acting through the t, a and O loci and may be the result of pleiotropic effects of alleles at these loci.     

Population genetic structure of wild Phaseolus lunatus (Fabaceae), with special reference to population sizes

To set up an in situ conservation strategy for Phaseolus lunatus, we analyzed the genetic structure of 29 populations in the Central Valley of Costa Rica. Using 22 enzyme loci, we quantified the proportion of polymorphic loci (P(p)), the mean number of alleles per locus (A), and the mean effective number of alleles per locus (A(e)), which equaled to 10.32%, 1.10, and 1.05, respectively. The total heterozygosity (H(T)), the intrapopulation genetic diversity (H(S)), and the interpopulation genetic diversity (D(ST)) were 0.193, 0.082, and 0.111, respectively. The genotypic composition of the analyzed populations showed a deviation from the Hardy-Weinberg proportions (F(IT) = 0.932). This disequilibrium was due to either genetic differentiation between populations (F(ST) = 0.497) or nonrandom mating within populations (F(IS) = 0.866). From the level of genetic differentiation between populations and the private alleles frequencies estimates, gene flow was calculated: Nm(W) = 0.398 and Nm(S) = 0.023, respectively. The results suggested that wild Lima bean maintains most of its isozyme variation among populations. Significant positive correlation was observed between population size and P(p), A, and H(o) (observed heterozygosity), whereas no correlation was observed with the average fixation index of population (F). The loss of genetic variability in populations was attributed to inbreeding and the bottleneck effects that characterized the target populations. In situ conservation and management procedures for wild Lima bean are discussed.     

Frequencies of mutant genes in two populations of domestic cats in southern Sakhalin

Analyses of mutant gene frequencies have been completed for the domestic cat populations of cities Kholmsk and Juzhno-Sakhalinsk (Sakhalin isles). Mutant allele frequencies reported here differ from these of other Soviet Union populations of the tb and d loci. It is suggested that Sakhalin populations were influenced by domestic cat populations from East Asia. The genetic profile of the domestic cat of Sakhalin shows the close relationship with China populations. Furthermore, the results of the present study are very similar to those previously reported for Vladivostok and Khabarovsk. These similarity, perhaps, may be depend on their settlement history.     

Correlation between polymorphic variants of the genes for transferrin and angiotensin-converting enzyme and antioxidant activity of blood plasma

In 75 male and 46 female subjects of an urban population (93% Russians) and in 38 males and 40 females of a rural population (87% Russians), the antioxidant activity (AOA) of blood plasma was determined from the plasma ability to reduce the yield of products interacting with thiobarbituric acid in the model lecithin-Fe2+ ion system. In the urban population, the loci TF (AvaI in exon5) and ACE (I/D polymorphism of the Alu repeat in intron16) were studied in 130 and 141 subjects, respectively. Of them, 102 and 111 subjects, respectively, were examined for AOA. In the rural population, the corresponding sample sizes were 75 and 76 (73 and 74 subjects were examined for AOA). The polymorphic loci of the urban and rural populations did not differ in the allele frequencies. In both populations Hardy--Weinberg and gametic equilibria were observed. The contributions of the TF and ACE genes to AOA variation in the combined sample from the urban and rural populations were 0.6 and 0.5%, respectively.