Specific Allele Combinations Research Articles

A new design without control population for identification of gastric cancer-related allele combinations based on interaction of genes

ObjectiveThe purpose of this study was to develop a novel approach without control population to examine the relationship between the presence of specific allele combinations at different loci with the onset of gastric cancer. MethodsDNA samples were collected from patients with gastric cancer. Alleles from short tandem repeat loci were determined using the STR Profiler Plus PCR amplification kit (15 STR loci). The observed and expected frequencies of specific allele combinations were calculated; statistically significant allele combinations were identified by comparing the observed frequency with the expected frequency. The age at disease onset of patients carrying a specific allele combination was further analysed; allele combinations related to the gastric cancer were effectively identified from the large number of possible allele combinations by cross-validation of the 2 sets of analytical results. ResultsA total of 2209 pairwise combinations were obtained by computer counting, of which 11 pairs of genes showed significant differences between the observed and expected frequencies (p<0.05). The p value for the cross-validation was also less than 0.05 for 2 pair of alleles (D8S1179-16 and D5S818-13; D2S1338-23 and D6S1043-11). ConclusionGastric cancer onset may be associated with these allele combinations. The new methodology without control group will enable additional discoveries pertaining to the relationship between specific allele combinations at different loci and the onset of complex diseases.

Fitness costs of rifampicin resistance in Mycobacterium tuberculosis are amplified under conditions of nutrient starvation and compensated by mutation in the β′ subunit of RNA polymerase

Rifampicin resistance, a defining attribute of multidrug-resistant tuberculosis, is conferred by mutations in the β subunit of RNA polymerase. Sequencing of rifampicin-resistant (RIF-R) clinical isolates of Mycobacterium tuberculosis revealed, in addition to RIF-R mutations, enrichment of potential compensatory mutations around the double-psi β-barrel domain of the β' subunit comprising the catalytic site and the exit tunnel for newly synthesized RNA. Sequential introduction of the resistance allele followed by the compensatory allele in isogenic Mycobacterium smegmatis showed that these mutations respectively caused and compensated a starvation enhanced growth defect by altering RNA polymerase activity. While specific combinations of resistance and compensatory alleles converged in divergent lineages, other combinations recurred among related isolates suggesting transmission of compensated RIF-R strains. These findings suggest nutrient poor growth conditions impose larger selective pressure on RIF-R organisms that results in the selection of compensatory mutations in a domain involved in catalysis and starvation control of RNA polymerase transcription.

Oil palm (Elaeis guineensis Jacq.) linkage map, and quantitative trait locus analysis for sex ratio and related traits

Sex ratio and shell-thickness type are among the main components determining yield in oil palm. An integrated linkage map of oil palm was constructed based on 208 offspring derived from a cross between two tenera palms differing in inherited sex ratio. The map consisted of 210 genomic simple sequence repeats (SSRs), 28 expressed sequence tag SSRs, 185 amplified fragment length polymorphism markers, and the Sh locus, which controls shell-thickness phenotype, distributed across 16 linkage groups covering 1,931 cM, with an average marker distance of 4.6 cM. Quantitative trait locus (QTL) analysis identified eight QTLs across six linkage groups associated with sex ratio and related traits. These QTLs explained 8.1–13.1 % of the total phenotypic variance. The QTL for sex ratio on linkage group 8 overlapped with a QTL for number of male inflorescences. In most cases a specific QTL allele combination was responsible for genotype class mean differences, suggesting that most QTLs in heterozygous oil palm are likely to be segregating for multiple alleles with different degrees of dominance. In addition, two new SSRs were shown to flank the major Sh locus controlling the fruit variety type in oil palm.

Fitness of acquired drug resistant Mycobacterium tuberculosis isolates from DOTS compliant patients

The increasing levels of multi drug resistant tuberculosis (MDRTB) in endemic regions are a cause of concern. When MDR strains exhibit higher fitness they threaten global tuberculosis control. Evaluation of factors other than the particular non-synonymous substitutions that contribute to the fitness of strains may have an important bearing on understanding the spread of the disease. The aim of the study was to determine the fitness of MDRTB strains from TB endemic region, acquiring drug resistance during the course of treatment. Paired isolates of different lineages (one that was drug resistant and one that was drug susceptible) from 5 patients, which acquired resistance during antibiotic treatment and bearing drug resistance mutations in the rpoβ and katG/inhA regions were mixed axenically. Fitness of Mycobacterium tuberculosis (M.tb) strains was evaluated using the difference in generation times of drug resistant and susceptible population obtained by enumeration of CFU. The drug resistant strains bore no significant fitness cost. The selection of specific allelic combinations in multiple drug resistance governing loci may attribute the enhanced/retained fitness of the drug resistant strains.

Prediction of Type 1 Diabetes

Type 1 diabetes (T1D) is a chronic autoimmune disorder in which the destruction of the insulin-producing cells and resulting clinical symptoms are preceded by the appearance of a number of islet-cell specific autoantibodies. Linkage (1) and association analyses have demonstrated that type 1 diabetes has a very strong genetic component, with specific alleles and haplotypes at the HLA class II genes, as well as HLA-A and -B alleles, conferring either susceptibility to or protection from T1D (2–6). The ability to identify individuals at high risk for type 1 diabetes using genetic and/or autoantibody markers (7–10) has been a long-standing goal of the diabetes research and clinical community and a critical element in T1D prevention strategies. The role of prediction in prevention is twofold: 1 ) Clinical trials to evaluate potential preventative interventions are more efficient if the recruited subjects are at high T1D risk, and 2 ) interventions are likely to be more effective if administered early in disease progression or during the prediabetic phase, a stage identified by autoantibody markers in individuals who carry genetic risk alleles. Although a large number of genetic variants associated with T1D have been identified by genome-wide association study analyses (11), the major genetic determinants remain specific alleles at the HLA class II and, to a lesser extent, class I loci. Because specific combinations of alleles at the HLA loci determine the genetic susceptibility, the risk for T1D is best captured by considering DR-DQ haplotypes and genotypes …

The genetic content of chromosomal inversions across a wide latitudinal gradient.

There is increasing evidence regarding the role of chromosomal inversions in relevant biological processes such as local adaptation and speciation. A classic example of the adaptive role of chromosomal polymorphisms is given by the clines of inversion frequencies in Drosophila subobscura, repeatable across continents. Nevertheless, not much is known about the molecular variation associated with these polymorphisms. We characterized the genetic content of ca. 600 individuals from nine European populations following a latitudinal gradient by analysing 19 microsatellite loci from two autosomes (J and U) and the sex chromosome (A), taking into account their chromosomal inversions. Our results clearly demonstrate the molecular genetic uniformity within a given chromosomal inversion across a large latitudinal gradient, particularly from Groningen (Netherlands) in the north to Málaga (Spain) in the south, experiencing highly diverse environmental conditions. This low genetic differentiation within the same gene arrangement across the nine European populations is consistent with the local adaptation hypothesis for th evolutionof chromosomal polymorphisms. We also show the effective role of chromosomal inversions in maintaining different genetic pools within these inverted genomic regions even in the presence of high gene flow. Inversions represent thus an important barrier to gene flux and can help maintain specific allelic combinations with positive effects on fitness. Consistent patterns of microsatellite allele-inversion linkage disequilibrium particularly in loci within inversions were also observed. Finally, we identified areas within inversions presenting clinal variation that might be under selection.

Male reproductive fitness and queen polyandry are linked to variation in the supergene Gp-9 in the fire ant Solenopsis invicta

Supergenes are clusters of tightly linked loci maintained in specific allelic combinations to facilitate co-segregation of genes governing adaptive phenotypes. In species where strong selection potentially operates at different levels (e.g. eusocial Hymenoptera), positive selection acting within a population to maintain specific allelic combinations in supergenes may have unexpected consequences for some individuals, including the preservation of disadvantageous traits. The nuclear gene Gp-9 in the invasive fire ant Solenopsis invicta is part of a non-recombining, polymorphic supergene region associated with polymorphism in social organization as well as traits affecting physiology, fecundity and behaviour. We show that both male reproductive success and facultative polyandry in queens have a simple genetic basis and are dependent on male Gp-9 genotype. Gp-9(b) males are unable to maintain exclusive reproductive control over their mates such that queens mated to Gp-9(b) males remain highly receptive to remating. Queens mated to multiple Gp-9(B) males are rare. This difference appears to be independent of mating plug production in fertile males of each Gp-9 genotype. However, Gp-9(b) males have significantly lower sperm counts than Gp-9(B) males, which could be a cue to females to seek additional mates. Despite the reduced fitness of Gp-9(b) males, polygyne worker-induced selective mortality of sexuals lacking b-like alleles coupled with the overall success of the polygyne social form act to maintain the Gp-9(b) allele within nature. Our findings highlight how strong worker-induced selection acting to maintain the Gp-9(b) allele in the polygyne social form may simultaneously result in reduced reproductive fitness for individual sexual offspring.

Water saving traits co-map with a major terminal drought tolerance quantitative trait locus in pearl millet [Pennisetum glaucum (L.) R. Br.

Low transpiration rates in pearl millet under fully irrigated conditions decrease plant water use at vegetative stage and then increase the water availability during grain filling and finally the terminal drought tolerance. Hundred and thirteen recombinant inbred lines developed from a cross between H77/833-2 and PRLT2/89-33 (terminal drought-sensitive × tolerant genotype) were evaluated to map transpiration rate (Tr, a proxy for canopy conductance), organ weights, leaf area and thickness and to study their interactions. Transpiration rate was increased by two H77/833-2 and two PRLT2/89-33 alleles on linkage group (LG) 2, whose importance depended on the vapor pressure deficit. The two H77/833-2 and one PRLT2/89-33 alleles co-mapped to a previously identified major terminal drought tolerance quantitative trait locus (QTL), although in a much smaller genetic interval. The other Tr allele from H77/833-2 also enhanced biomass dry weight and co-located with a formerly identified stover and tillering QTL. Leaf characteristics were linked to two loci on LG7. Plant water use was increased and decreased by different loci combinations for Tr, tillering and leaf characteristics, whose respective importance depended on the environmental conditions. Therefore, different alleles influence plant water use and have close interactions with one another and with the environment, so that different ideotypes for plant water use exist or could be designed from specific allele combinations conferring particular physiological characteristics for specific adaptation to a range of terminal drought conditions.

Association Tests of Striatal DAT Availability and SNPs That Impact a Novel Splice Variant in the DAT Gene

TO THE EDITOR: The level of striatal dopamine transporter (DAT) availability in the human brain has been associated with polymorphisms in the gene encoding for DAT ( SLC6A3 ) ([1][1]). We have shown that a specific allele combination for polymorphisms in the 5′ and 3′ ends of the gene affects

Bringing trees into the fuel line

Bringing trees into the fuel line

No evidence for biased co-transmission of speciation islands inAnopheles gambiae

Genome-scale scans have revealed highly heterogeneous levels of divergence between closely related taxa in many systems. Generally, a small number of regions show high differentiation, with the rest of the genome showing no or only low levels of divergence. These patterns have been interpreted as evidence for ongoing speciation-with-gene-flow, with introgression homogenizing the whole genome except loci involved in reproductive isolation. However, as the number of selected loci increases, the probability of introgression at unselected loci decreases unless there is a transmission ratio distortion causing an over-representation of specific combinations of alleles. Here we examine the transmission of three 'speciation islands' that contain fixed differences between the M and S forms of the mosquito, Anopheles gambiae. We made reciprocal crosses between M and S parents and genotyped over 2000 F(2) individuals, developing a hierarchical likelihood model to identify specific genotypes that are under- or over-represented among the recombinant offspring. Though our overall results did not match the expected number of F(2) genotypes, we found no biased co-transmission among M or S alleles in the three islands. Our likelihood model did identify transmission ratio distortion at two of the three islands, but this distortion was small (approx. 3%) and in opposite directions for the two islands. We discuss how our results impinge on hypotheses of current gene flow between M and S and ongoing speciation-with-gene-flow in this system.

Cheetahs Have 4 Serum Amyloid A Genes Evolved through Repeated Duplication Events

Amyloid A (AA) amyloidosis is a leading cause of mortality in captive cheetahs (Acinonyx jubatus). We performed genome walking and PCR cloning and revealed that cheetahs have 4 SAA genes (provisionally named SAA1A, SAA1B, SAA3A, and SAA3B). In addition, we identified multiple nucleotide polymorphisms in the 4 SAA genes by screening 51 cheetahs. The polymorphisms defined 4, 7, 6, and 4 alleles for SAA1A, SAA3A, SAA1B, and SAA3B, respectively. Pedigree analysis of the inheritance of genotypes for the SAA genes revealed that specific combinations of alleles for the 4 SAA genes cosegregated as a unit (haplotype) in pedigrees, indicating that the 4 genes were linked on the same chromosome. Notably, cheetah SAA1A and SAA1B were highly homologous in their nucleotide sequences. Likewise, SAA3A and SAA3B genes were homologous. These observations suggested a model for the evolution of the 4 SAA genes in cheetahs in which duplication of an ancestral SAA gene first gave rise to SAA1 and SAA3. Subsequently, each gene duplicated one more time, uniquely making 4 genes in the cheetah genome. The monomorphism of the cheetah SAA1A protein might be one of the factors responsible for the high incidence of AA amyloidosis in this species.

Association of MTHFR, MTR, MTRR, RFC1, and DHFR Gene Polymorphisms with Susceptibility to Sporadic Colon Cancer

Altered folate levels may play an important role in colon carcinogenesis. The aim of this study was to investigate the association of polymorphisms in key folate-metabolizing genes with susceptibility to sporadic colon cancer. Six common polymorphisms (two in MTHFR and one each in MTR, MTRR, RFC1, and DHFR genes) were genotyped in 300 healthy subjects and 300 colon cancer patients from Croatia. Obtained results indicate possible protective role of MTRR 66 AA in sporadic colon cancer (OR=0.655; 95% CI=0.441-0.973; p=0.04). Maximum-likelihood analysis of haplotypes revealed a linkage disequilibrium (LD) between the two investigated polymorphisms of the MTHFR gene (C677T and A1298C), both in the control and patient groups (p<0.01 for both). LD was also detected between MTRR A66G and MTHFR A1298C polymorphisms but only in a group of patients (p<0.01). A haplotype of A66G and A1298C polymorphisms, A/A, proved to be protective (OR=0.775; 95% CI=0.603-0.996; p=0.04), whereas haplotype A/G was a risk factor for colon cancer (OR=1.270; 95% CI=1.007-1.602; p=0.04). Contrary to some previous studies, single-locus analyses identified no polymorphisms associated with risk for colon cancer, but demonstrated a possible protective effect of MTRR 66 AA genotype. The detected significant LD between two loci (MTHFR A1298C and MTRR A66G) located on different chromosomes indicates a strong selective force as a mechanism for the maintenance of their linkage. Specific combinations of alleles of these two polymorphisms showed a protective but also a risk effect on colon cancer susceptibility.

Clinical Value of NPHS2 Analysis in Early- and Adult-Onset Steroid-Resistant Nephrotic Syndrome

To date, very few cases with adult-onset focal segmental glomerulosclerosis (FSGS) carrying NPHS2 variants have been described, all of them being compound heterozygous for the p.R229Q variant and one pathogenic mutation. Mutation analysis was performed in 148 unrelated Spanish patients, of whom 50 presented with FSGS after 18 years of age. Pathogenicity of amino acid substitutions was evaluated through an in silico scoring system. Haplotype analysis was carried out using NPHS2 single nucleotide polymorphism and microsatellite markers. Compound heterozygous or homozygous NPHS2 pathogenic mutations were identified in seven childhood-onset steroid-resistant nephrotic syndrome (SRNS) cases. Six additional cases with late childhood- and adult-onset SRNS were compound heterozygotes for p.R229Q and one pathogenic mutation, mostly p.A284V. p.R229Q was more frequent among SRNS cases relative to controls (odds ratio=2.65; P=0.02). Significantly higher age at onset of the disease and slower progression to ESRD were found in patients with one pathogenic mutation plus the p.R229Q variant in respect to patients with two NPHS2 pathogenic mutations. NPHS2 analysis has a clinical value in both childhood- and adult-onset SRNS patients. For adult-onset patients, the first step should be screening for p.R229Q and, if positive, for p.A284V. These alleles are present in conserved haplotypes, suggesting a common origin for these substitutions. Patients carrying this specific NPHS2 allele combination did not respond to corticoids or immunosuppressors and showed FSGS, average 8-year progression to ESRD, and low risk for recurrence of FSGS after kidney transplant.

Tau haplotypes and ApoE4 do not act in synergy on Alzheimer's disease

There are conflicting results regarding the role of tau (MAPT) haplotypes in neurodegenerative disorders. Recent reports suggest that ethnicity factors and gene–gene interactions may influence the risk of developing Alzheimer's disease (AD). The present study investigates possible synergism between MAPT haplotype and ApoE state in Hungarian Caucasian AD cases (n=91) and control (n=83) population. The difference in MAPT H1 allele frequency did not reach significant level in AD (78%), and control individuals (73.5%), however ApoE4 carriers were significantly overrepresented in AD (34.1% vs. 20%) compared to the control population. Though a specific combination of ApoE4 and H1 alleles were found to be associated to AD (14.5% vs. 30.8%), synergistic genetic interaction could not be inferred. Our findings support the notion that while ApoE4 might be involved in AD pathology the MAPT H1 allele neither associates nor interacts through an epistasis with ApoE4 in the development of the disease.

Gene expression regulation and lineage evolution: the North and South tale of the hybrid polyploidSqualius alburnoidescomplex

The evolution of hybrid polyploid vertebrates, their viability and their perpetuation over evolutionary time have always been questions of great interest. However, little is known about the impact of hybridization and polyploidization on the regulatory networks that guarantee the appropriate quantitative and qualitative gene expression programme. The Squalius alburnoides complex of hybrid fish is an attractive system to address these questions, as it includes a wide variety of diploid and polyploid forms, and intricate systems of genetic exchange. Through the study of genome-specific allele expression of seven housekeeping and tissue-specific genes, we found that a gene copy silencing mechanism of dosage compensation exists throughout the distribution range of the complex. Here we show that the allele-specific patterns of silencing vary within the complex, according to the geographical origin and the type of genome involved in the hybridization process. In southern populations, triploids of S. alburnoides show an overall tendency for silencing the allele from the minority genome, while northern population polyploids exhibit preferential biallelic gene expression patterns, irrespective of genomic composition. The present findings further suggest that gene copy silencing and variable expression of specific allele combinations may be important processes in vertebrate polyploid evolution.

Keep on growing under drought: genetic and developmental bases of the response of rosette area using a recombinant inbred line population

Variation in leaf development caused by water deficit was analysed in 120 recombinant inbred lines derived from two Arabidopsis thaliana accessions, Ler and An-1. Main effect quantitative trait loci (QTLs) and QTLs in epistatic interactions were mapped for the responses of rosette area, leaf number and leaf 6 area to water deficit. An epistatic interaction between two QTLs affected the response of whole rosette area and individual leaf area but only with effects in well-watered condition. A second epistatic interaction between two QTLs controlled the response of rosette area and leaf number with specific effects in the water deficit condition. These effects were validated by generating and phenotyping new appropriate lines. Accordingly, a low reduction of rosette area was observed for lines with a specific allelic combination at the two interacting QTLs. This low reduction was accompanied by an increase in leaf number with a lengthening of the vegetative phase and a low reduction in individual leaf area with low reductions in epidermal cell area and number. Statistical analyses suggested that responses of epidermal cell area and number to water deficit in individual leaves were partly caused by delay in flowering time and reduction in leaf emergence rate, respectively.

Polymorphisms in genes involved in autoimmune disease and the risk of FVIII inhibitor development in Italian patients with haemophilia A

One of the most severe and important complication in the treatment of patients with haemophilia A is the formation of neutralizing antibodies (FVIII inhibitors) that inhibit the clotting activity of substituted FVIII. Both genetic and environmental factors influence the susceptibility of patients to develop inhibitors. The objective of this study was to evaluate whether polymorphisms in different genes involved in the regulation of the immune system may confer susceptibility to inhibitor development in patients with HA. We analysed the distribution of polymorphisms in the CTLA4, PTPN22, IL10, TNFalpha, FOXP3 and IRF5 genes that have been reported to be associated with a number of autoimmune disease. In addition, we evaluated the distribution of IL10 haplotypes in haemophilic patients and healthy controls to assess whether specific polymorphisms in IL10 gene were associated to the risk of inhibitor development. We focused on a cohort of Italian unrelated haemophilic patients with and without a history of inhibitors. Genotyping was carried out with standard methods including RFLP, real time PCR and direct DNA sequencing. Our data show that, considering single nucleotide variations, genotype frequencies in patients with inhibitors were not significantly different from those observed in patients without inhibitors, suggesting a lack of association between these polymorphisms and the development of inhibitors. Moreover, no relationship was found between specific combinations of IL10 alleles and the antibody production. Previous contradictory association studies may depend on the different genetic background of the population examined. Further studies may contribute to a clearer understanding of this process.

Abstract 2852: Variation in centrosome-related genes and risk of breast cancer

Abstract INTRODUCTION: The centrosome is the primary microtubule organizing center of the cell. Numerical or functional defects of the centrosome can result in improper chromosome segregation, leading to aneuploidy and polyploidy. Because many cancer cells have aberrant numbers of chromosomes, many have suggested a link between centrosomes and cancer. We conducted an association study to determine whether common genetic variations in 100 genes involved in maintaining and regulating centrosome structure and function account in part for the contribution of the pathway to breast cancer risk. METHODS: Incident cases of BC were identified at the Mayo Clinic in Rochester, MN from 2001 through 2005. Controls (N=843) were frequency matched to cases (N=798) on age and region of residence. Seven hundred-eighty-two tagging and candidate functional SNPs were selected from 100 genes involved in the structure and/or function of the centrosome. Genotyping was performed on an Illumina BeadLab using the Illumina GoldenGate genotyping assay. Logistic regression was used to calculate odds ratios and 95% confidence intervals for BC. Women having two copies of the most common allele were defined as the referent category. Linear regression was used to estimate mean and 95% CI for PD for each additional copy of the variant allele. All models were adjusted for age, residence, and confounding factors. RESULTS: Forty-eight SNPs from 29 genes (out of 782 SNPs examined) showed evidence of significant associations with breast cancer risk in our population in the log-additive (1 degree of freedom (d.f.)) model (Ptrend&amp;lt; 0.05). One SNP, rs1374468 SNP in TACC3, displayed the most significant association with risk in the overall analyses (Ptrend = 0.001). Two SNPs from each of seven genes (AJUBA, CHUK, MCPH1, NEK7, PAK1, PIK3CB, and PINS) were significantly associated with risk of breast cancer (Ptrend &amp;lt; 0.05). Three genes, AXIN2, NIN, NUMA1, had four or more SNPs that were significantly associated with breast cancer risk (Ptrend &amp;lt; 0.05). All of the SNPs in these four genes were in strong linkage disequilibrium (r2&amp;gt;0.6). No single SNP association was significant after adjustment for multiple comparisons via permutation testing. Haplotype analyses showed 20 genes for which global haplotypes were significantly associated with breast cancer risk. Of these, haplotype blocks in six genes (14-3-3 Epsilon, CDC16, CD-TOG, KIF2, NEK9, NPM2) were significantly associated with risk (global P&amp;lt;0.05), although none of the individual SNPs in these six genes displayed significant associations. This suggests that the associations of these specific combinations of alleles with risk were not due to the effects of individual SNPs. CONCLUSION: These analyses provide some evidence to support an association between genetic variation in centrosomal genes and risk of breast cancer. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 2852.

Impact of Genetic Background on Allele Selection in a Highly Mutable Candida albicans Gene, PNG2

In many microbes rapid mutation of highly mutable contingency genes continually replenishes a pool of variant alleles from which the most suitable are selected, assisting in rapid adaptation and evasion of the immune response. In some contingency genes mutability is achieved through DNA repeats within the coding region. The fungal human pathogen Candida albicans has 2600 repeat-containing ORFs. For those investigated (ALS genes, HYR1, HYR2, CEK1, RLM1) many protein variants with differing amino acid repeat regions exist, as expected for contingency genes. However, specific alleles dominate in different clades, which is unexpected if allele variation is used for short-term adaptation. Generation of new alleles of repeat-containing C. albicans ORFs has never been observed directly. Here we present evidence for restrictions on the emergence of new alleles in a highly mutable C. albicans repeat-containing ORF, PNG2, encoding a putative secreted or cell surface glycoamidase. In laboratory cultures new PNG2 alleles arose at a rate of 2.8×10−5 (confidence interval 3.3×10−6−9. 9×10−5) per cell per division, comparable to rates measured for contingency genes. Among 80 clinical isolates 17 alleles of different length and 23 allele combinations were distinguishable; sequence differences between repeat regions of identical size suggest the existence of 36 protein variants. Specific allele combinations predominated in different genetic backgrounds, as defined by DNA fingerprinting and multilocus sequence typing. Given the PNG2 mutation rate, this is unexpected, unless in different genetic backgrounds selection favors different alleles. Specific alleles or allele combinations were not preferentially associated with C. albicans isolates from particular body sites or geographical regions. Our results suggest that the mutability of PNG2 is not used for short-term adaptation or evasion of the immune system. Nevertheless the large number of alleles observed indicates that mutability of PNG2 may assist C. albicans strains from different genetic backgrounds optimize their interaction with the host in the long term.