Spectrum of genetic changes in patients with non-syndromic hearing impairment and extremely high carrier frequency of 35delG GJB2 mutation in Belarus

The genetic nature of sensorineural hearing loss (SNHL) has so far been studied for many ethnic groups in various parts of the world. The single-nucleotide guanine deletion (35delG) of the GJB2 gene coding for connexin 26 was shown to be the main genetic cause of autosomal recessive deafness among Europeans. Here we present the results of the first study of GJB2 and three mitochondrial mutations among two groups of Belarusian inhabitants: native people with normal hearing (757 persons) and 391 young patients with non-syndromic SNHL. We have found an extremely high carrier frequency of 35delG GJB2 mutation in Belarus -5.7%. This point deletion has also been detected in 53% of the patients with SNHL. The 312del14 GJB2 was the second most common mutation in the Belarus patient cohort. Mitochondrial A1555G mt-RNR1 substitution was found in two SNHL patients (0.55%) but none were found in the population cohort. No individuals carried the A7445G mutation of mitochondrial mt-TS1. G7444A as well as T961G substitutions were detected in mitochondrial mt-RNR1 at a rate of about 1% both in the patient and population cohorts. A possible reason for Belarusians having the highest mutation carrier frequency in Europe 35delG is discussed.     

Allelic frequencies of the 35delG mutation of the GJB2 gene in different Brazilian regions

Mutations in the GJB2 gene, which encodes the protein connexin 26, are a major cause of autosomal recessive deafness. The most frequent mutation, 35delG, has a carrier frequency as high as 4% in some countries, and this frequency varies in different ethnic groups. Most of the Brazilian population results from interethnic crosses of people from three continents (European, African, and Amerindian), and the proportion of each varies according to the geographical region of the country. To verify if the different ethnic composition of Brazilian regions leads to variable 35delG carrier frequencies, we performed the screening of the 35delG mutation using DNA from dried-blood filter paper samples obtained from 1,856 newborns from 10 cities in different regions. The 35delG mutation was found in 25 individuals (1.35%), indicating an overall carrier frequency of 1:74. This frequency was 1:47 in the north, 1:64 in the southeast, 1:85 in the south and 1:124 in the northeast, but these differences were not significant. The overall frequency of the 35delG allele was estimated as 0.0067, and comparison between expected and observed genotype frequencies indicates that the population is in Hardy-Weinberg equilibrium.     

GJB2 and mitochondrial A1555G gene mutations in nonsyndromic profound hearing loss and carrier frequencies in healthy individuals

This study aimed to assess mutations in GJB2 gene (connexin 26), as well as A1555G mitochondrial mutation in both the patients with profound genetic nonsyndromic hearing loss and healthy controls. Ninety-five patients with profound hearing loss (>90 dB) and 67 healthy controls were included. All patients had genetic nonsyndromic hearing loss. Molecular analyses were performed for connexin 26 (35delG, M34T, L90P, R184P, delE120, 167delT, 235delC and IVS1+1 A-->G) mutations, and for mitochondrial A1555G mutation. Twenty-two connexin 26 mutations were found in 14.7% of the patients, which were 35delG, R184P, del120E and IVS1+1 A-->G. Mitochondrial A1555G mutation was not encountered. The most common GJB2 gene mutation was 35delG, which was followed by del120E, IVS1+1 A-->G and R184P, and 14.3% of the patients segregated with DFNB1. In consanguineous marriages, the most common mutation was 35delG. The carrier frequency for 35delG mutation was 1.4% in the controls. 35delG and del120E populations, seems the most common connexin 26 mutations that cause genetic nonsyndromic hearing loss in this country. Nonsyndromic hearing loss mostly shows DFNB1 form of segregation.     

Frequency of the 35delG mutation in the GJB2 gene in samples of European, Asian, and African Brazilians

Mutations in the GJB2 gene are a major cause of congenital deafness. One specific mutation, the 35delG mutation, has accounted for most of the GJB2 mutations detected in European populations and is one of the most frequent disease mutations identified so far. We evaluated the frequency of the 35delG mutation in DNA samples from Brazilians of European, Asian, and African ancestry. All DNA samples were screened for the 35delG mutation using an allele-specific PCR. This study shows that the frequency of a common mutation (35delG) is significantly lower in non-European populations.     

High frequency of GJB2 gene mutations in Polish patients with prelingual nonsyndromic deafness

We report an analysis of 102 unrelated Polish patients with profound prelingual deafness for mutations in the GJB2 gene (OMIM #220290). Mutations were found in 41/102 (40%) subjects. Among mutated alleles, 35delG was prevalent and present in 88%. In nine alleles, different mutations were found: M34T, Q47X, R184P, and 313del14 (found in 6 patients). The results prove mutations in the GJB2 gene are responsible for much hereditary nonsyndromic deafness in Poland, with a strong prevalence of the 35delG mutation. We have also found a high carrier frequency (1/50) for the 35delG mutation in the Polish population.     

The analysis of three markers flanking GJB2 gene suggests a single origin of the most common 35delG mutation in the Moroccan population

In Caucasian populations a single mutation, 35delG, accounts for the majority of GJB2 gene mediated hearing loss, with carrier frequencies estimated between 2-4%, possibly resulting from a founder effect rather than from a mutational hot spot. In Moroccan population, the 35delG mutation accounts for 90.8% of all GJB2 mutated alleles in deaf patients with a carrier frequency of 2.65%. The aim of this study was to evaluate whether the 35delG mutation has derived from a single origin in the Moroccan population. We enrolled 30 unrelated deaf patients homozygous for the 35delG mutation and 165 unrelated control individuals negative for this mutation, and genotyped three microsatellite markers flanking the GJB2 region: D13S141, D13S175 and D13S143. Data analysis revealed that the 35delG mutation is associated with particular alleles of these markers, with significant linkage disequilibrium for the 125 and 105 nucleotide long alleles of D13S141 and D13S175, and that a single specific haplotype accounts for 68% of the chromosomes carrying the 35delG mutation. The estimate age of 35delG mutation is 135 generations or approximately 2700 years old. Like in other Mediterranean populations, our results suggest that in the Moroccan population the 35delG mutation has derived from a single origin in a common founder process.     

Detection of the 35delG/GJB2 and del(GJB6-D13S1830) mutations in Venezuelan patients with autosomal recessive nonsyndromic hearing loss

Severe to profound hearing impairment affects 1 of every 1000 newborn children each year. Inheritance accounts for 60% of these cases, of which 70% are nonsyndromic. The most common cause of autosomal recessive nonsyndromic hearing loss (ARNSHL) is mutation in GJB2, a gene on chromosome 13, which encodes a gap junction protein named Connexin 26. Mutations in GJB2 are responsible for 40% of genetic childhood deafness. The most common mutation, 35delG, predominates in many ethnic groups. Some families with linkage to the DFNB1 locus have none or only one mutated allele in GJB2, however, some subjects can exhibit a large deletion in another connexin gene, GJB6, resulting in a monogenic or digenic pattern of inheritance in this complex DFNB1 locus that contains both genes (GJB2 and GJB6). The aim of the study was to determine (1) the frequency for the 35delG (27.5%), del(GJB6-D13S1830) (2.5%) and del(GJB6-D13S1854) (0.0%) mutations in a cohort of 40 Venezuelan patients with ARNSHL and (2) the carrier frequency 35delG (4%), del(GJB6-D13S1830) (0%) and del(GJB6-D13S1854) (0%) in the Venezuelan population with no familial history of hearing impairment. One patient (2.5%) was detected as double heterozygote for the deletion del(GJB6-D13S1830) and 35delG mutation. This result has direct clinical implications because we include the molecular detection of the deletion del(GJB6-D13S1830) during the evaluation of the diagnosis of deafness in the Venezuelan population.     

The prevalence of connexin 26 ( GJB2) mutations in the Chinese population

Mutations in GJB2, encoding gap junction beta 2 protein (connexin 26), are responsible for the commonest form of non-syndromic recessive deafness in many populations. It has been reported recently that the most common 35delG mutation in GJB2 is exceptionally low in Japanese and Korean populations, but another deletion, 235delC, is relatively frequent. Since the Chinese constitute approximately one fifth of the global population, the frequency of GJB2 mutations in the population has important implications for understanding worldwide causes of genetic deafness. To determine whether GJB2 mutations are an important cause of deafness in Chinese, we conducted mutation screening for GJB2 in 118 deaf Chinese probands, including 60 from simplex and 58 from multiplex families with non-syndromic deafness, and 150 normal hearing Chinese controls. Four mutations, including 235delC, 299-300delAT, V37I, and 35delG, were found in the patients. Thirty-nine percent of the probands had a GJB2mutation. Of the 118 probands, 19 carried two definitely pathogenic mutations: three among the 58 multiplex cases (5.2%) and 16 among the 60 simplex cases (26.7%). Twenty-seven probands (22.9%) were found to carry only single GJB2 mutations. None of them had mutations in exon 1 of GJB2 and or the 342-kb deletion of GJB6. The 235delC mutation was the most prevalent mutation (20.3% of alleles), accounting for 81% of the pathologic alleles in multiplex cases and 67% in simplex cases. Analysis of the affected haplotypes in the patients with the homozygous 235delC mutation yielded evidence for a single origin of the mutation. The carrier frequency of the 235delC mutation in control subjects with normal hearing was 1.3%. The 35delG mutation was only noted as a heterozygous change in two simplex cases (1.2% of alleles). These results indicated that mutations in GJB2 are a major cause of inherited and sporadic congenital deafness in the Chinese population. The 235delC mutation, rather than 35delG, is the most common mutation found in the Chinese deaf population. Our data support the view that specific combinations of GJB2 mutation exist in different populations.     

Meta-analysis of GJB2 mutation 35delG frequencies in Europe

Mutations in the gene encoding connexin-26 (specified GJB2) have been shown to be a major cause of nonsyndromic recessive deafness (NSRD), and a single mutation 35delG in the GJB2 gene accounts for the majority of cases of NSRD. This mutation was screened in France and in other European populations by a reliable PCR method. We present here a meta-analysis of the 35delG frequencies in 4123 random controls from 20 European countries, and show that the mutation is more frequent in the south of Europe than in the north; a north-south increasing cline of 35delG frequencies is established (r = -0.527).     

Progressive hearing loss,and recurrent sudden sensorineural hearing loss associated with GJB2 mutations--phenotypic spectrum and frequencies of GJB2 mutations in Austria

Mutations of GJB2 (encoding connexin 26) are the most common cause of hearing loss (HL) in different populations, and a broad spectrum of GJB2 mutations has been identified. We screened 204 consecutive patients with non-syndromic sensorineural hearing loss for GJB2 mutations. Causative GJB2mutations were identified in 31 (15.2%) patients, and two common mutations, c.35delG and L90P (c.269T>C), accounted for 72.1% and 9.8% of GJB2 disease alleles. In four additional patients (2.0%) only one recessive GJB2 mutation was identified, making genetic counselling difficult. No genotype-phenotype correlation was established. We found, however, that homozygotes for truncating mutations were more likely to have a more severe degree of HL compared with other genotypes. Moreover, we showed by co-segregation studies that L90P is a GJB2 disease allele, and that compound heterozygotes for L90P and any recessive mutation share a mild to moderate phenotype. GJB2-associated HL was linked with progressive HL or with recurrent sudden sensorineural hearing loss (SSNHL) in three of 15 cases being analysed retrospectively. We extended the phenotypic spectrum of GJB2-related disease and recommend GJB2 mutation screening also in cases of progressive HL, and recurrent SSNHL. In addition, a carrier frequency of 1/110 (0.9%) for the most common Caucasian mutation in this gene, c.35delG, was determined in 1,212 blood donors from West-Austria, supporting the prevailing hypothesis of a Mediterranean founder mutation. Based on population and patient data, an overall GJB2 mutation carrier frequency of 1.3% was estimated for West-Austria.     

High frequency of GJB2 mutation W24X among Slovak Romany (Gypsy) patients with non-syndromic hearing loss (NSHL)

Mutations in the GJB2 gene (connexin 26) represent a major cause of autosomal recessive non-syndromic hearing loss (NSHL) worldwide. In most Caucasian populations, the 35delG mutation in this gene was found to account for up to 50% of cases of the genetic non-syndromic childhood deafness. In populations of non-European ethnic background, other GJB2 gene mutations are occasionally common, e.g. 167delT in Ashkenazi Jews, R143W in Africaans and 235delC in Koreans. In this work, DNA samples from 54 unrelated NSHL patients from endogamous and inbred population of Slovak Roms (Gypsies) from Eastern Slovakia were screened for GJB2 mutations. The coding region of the GJB2 gene of patients was sequenced and mutations W24X, R127H, V153I, L90P and V37I were found. In Slovak Romany population, mutation W24X accounts for 23.2%, R127H for 19.4%, 35delG for 8.3%, V153I for 3.7%, L90P for 3.7% and V37I for 0.9% of screened chromosomes. As the W24X mutation was previously found in India and Pakistan, were from the European Romanies originate, it was brought by the European Romnanies from their Indian homeland. The carrier frequency of 35delG was estimated for Slovak non-Romany population to be 3.3%, and for Slovak Romany population to 0.88%. The carrier frequency of W24X varied in different Slovak Romany subpopulations from 0.0% up to 26.1%.     

Frequency of the 35delG allele causing nonsyndromic recessive deafness in the Algerian patients

Deafness is a heterogeneous disorder showing different patterns of inheritance and involving a multitude of different genes. Mutations in the GJB2 gene encoding connexin 26 (Cx26) protein are a major cause for non-syndromic autosomal recessive and sporadic deafness. Among these mutations, the c.35delG deletion is the most common mutation for sensorineural deafness. One hundred sixteen persons from fifty-eight families were tested by the method based on the principle of PCR-mediated-site-directed mutagenesis (PSDM), followed by a Bsl1 digestion. Mutation c.35delG was diagnosed in sixteen families (11 homozygotes and 5 heterozygotes). The low allelic frequency (17.24%) and low ratio of individuals homozygous (13.8%) and heterozygous (6.9%) for the c.35delG mutation suggest that there are other mutations in the GJB2 gene or other genes responsible for deafness in the Algerian population. This study reports a significant association (P=0.003) between first cousin consanguinity and non-syndromic prelingual deafness.     

Differential rates of frameshift alterations in four repeat sequences of hereditary nonpolyposis colorectal cancer tumors

In some Palestinian communities, the prevalence of inherited prelingual deafness is among the highest in the world. As an initial step towards understanding the genetic causes of hearing loss in the Palestinian population, 48 independently ascertained probands with non-syndromic hearing loss were evaluated for mutations in the connexin 26 gene. Of the 48 deaf probands, 11 (23%) were homozygous or compound heterozygous for mutations in GJB2. Five different mutations were identified: ivs1(+1) G-->A, 35delG, 167delT, T229C, 235delC. Nine deaf probands were homozygous and only two compound heterozygous. Among 400 hearing Palestinian controls, one carrier was observed (for 167delT). We show that GJB2 ivs1(+1) G-->A disrupts splicing, yielding no detectable message. Linkage disequilibrium analysis suggests, in the Palestinian and Israeli populations, a common origin of the 35delG mutation, which is worldwide, and of 167delT, which appears specific to Israeli Ashkenazi and Palestinian populations. A high prevalence of deafness, high frequency of homozygosity rather than compound heterozygosity among deaf, and low mutation carrier frequency together reflect the high levels of consanguinity of many extended Palestinian families. Some of the 25 families with multiple cases of inherited prelingual deafness and wildtype GJB2 sequences may represent as-yet-unknown genes for inherited hearing loss.     

Prevalence of the 35delG mutation in the GJB2 gene of patients with nonsyndromic hearing loss from Croatia

The aim of this study was to investigate the allelic frequency of 35delG mutation in patients with recessive, nonsyndromic hearing loss (NSHL) compared to normal hearing individuals in the Croatian population. For this purpose, we analyzed 27 unrelated individuals with nonsyndromic hearing loss and 342 healthy individuals. The method we used is based on the principle of polymerase chain reaction (PCR)-mediated, site-directed mutagenesis, followed by a BsiYI digestion. Among patients with NSHL, the 35delG mutation was found on 51.85% alleles. Carrier frequency among healthy control individuals was 1 in 68.4 (1.5%). The patients, found to be wild-type, either in heterozygous or homozygous form, were further tested by direct sequencing. Among them, two different mutations were observed, W24X and 313del14. Relatively high prevalence of 35delG mutation among patients with NSHL indicate that it is an important cause of NSHL in Croatia. Early diagnosis by identification of the 35delG mutation would greatly improve genetic counseling, as well as treatment and management of deafness in Croatia.     

High frequency of 35delG GJB2 mutation and absence of del(GJB6-D13S1830) in Greek Cypriot patients with nonsyndromic hearing loss

Mutations in the GJB2 (Connexin 26) gene are responsible for more than half of all cases of prelingual, recessive, inherited, nonsyndromic deafness in Europe. This paper presents a mutation analysis of the GJB2 and GJB6 (Connexin 30) genes in 30 Greek Cypriot patients with sensorineural nonsyndromic hearing loss compatible with recessive inheritance. Ten of the patients (33.3%) had the 35delG mutation in the GJB2 gene. Moreover, 9 of these were homozygous for the 35delG mutation, whereas 1 patient was in the compound heterozygous state with the disease causing E47X nonsense mutation. Another patient with severe sensorineural hearing loss was heterozygous for the V153I missense mutation. Finally, no GJB6 mutations or the known del(GJB6-D13S1830) were identified in any of the investigated Greek Cypriot nonsyndromic hearing loss patients. This work confirms that the GJB2 35delG mutation is an important pathogenic mutation for hearing loss in the Greek Cypriot population. This finding will be used toward the effective diagnosis of nonsyndromic hearing loss, improve genetic counseling, and serve as a potential therapeutic platform in the future for the affected patients in Cyprus.     

Genotyping for Cx26 and Cx30 mutations in cases with congenital hearing loss

Hearing loss is the most frequent sensory defect in human being. The 13q11-q12 region contains the GJB2 and GJB6 genes, which code connexin 26 (CX26) and connexin 30 (CX30) proteins, respectively. The 35delG, 167delT, and 235delC mutations in the Cx26 gene are the main cause for sporadic nonsyndromic hearing loss (NSHL) in many populations. The 342-kb deletion [del(GJB6-D13S1830)] of the Cx30 gene is the second most common connexin mutation after the 35delG mutation in some NSHL populations. In our study 47 hearing-impaired students were included. The Cx26 gene and the Cx30 gene were analyzed for presence of the 35delG, 167delT, and 342-kb deletion [del(GJB6-D13S1830)]. Genotyping were performed for detecting 35delG, 167delT, and del(GJB6-D13S1830) mutations using the PCR-ELISA techniques. According to the results obtained from 47 cases, the 35delG mutation was detected in 7 cases ( approximately 14.9%). Four of these mutations were determined as homozygote mutant ( approximately 8.5%), and three were determined as heterozygote mutant ( approximately 6.4%). However, 167delT and del(GJB6-D13S1830) mutations were not detected in the study group. These results support the overwhelming majority of 35delG in our study group from deafness school in our study. In conclusion, the 35delG mutation was determined as the most frequently shown mutation that leads to congenital hearing loss as in previous studies from Turkey.     

GJB2 and GJB6 mutations in 165 Danish patients showing non-syndromic hearing impairment

Thirty-two genes causing non-syndromic hearing impairment (NSHI) have been cloned, including GJB2 and GJB6 encoding the gap junction subunits connexin 26 and connexin 30, respectively. One mutation in GJB2, 35delG, accounts for a large percentage of GJB2 hearing impairment in Southern Europe whereas a considerably lower frequency has been reported from Northern European populations. Recently, a 342-kb deletion implicating GJB6 was found in 22 out of 44 NSHI patients of Spanish origin with only one mutated allele of GJB2. We report the first study of GJB2 and GJB6 mutations in Danish patients with NSHI. We tested 165 individuals and found GJB2 mutations in 16 individuals. The deletion implicating GJB6 was found in two individuals out of 9 heterozygous for GJB2 mutation. Furthermore, we screened 509 unselected samples from the Danish newborn population for the 35delG mutation in GJB2. We found 9 samples heterozygous for 35delG and 11 samples heterozygous for mutations leading to amino acid variants in GJB2 protein. In conclusion, our data are in accordance with results from other Northern European populations. Furthermore, our data on the GJB6 deletion suggest that routine screening for this deletion could help to explain hearing impairment in some Northern European NSHI patients heterozygous for a mutation in GJB2.     

Hereditary deafness in Kirov oblast: estimation of the incidence rate and DNA diagnosis in children

Genetic analysis of hereditary deafness (HD) has been performed in the city of Kirov and ten rural districts of Kirov oblast (administrative region). The analysis employed the methods used in audiology, medical genetic counseling, and DNA diagnosis. Deafness has been established to be hereditary in 143 children from 100 unrelated families. The incidence rates of isolated and syndromic HDs in the period studied (1995-2001) have been estimated at 1.25 and 0.36 per 1000 newborns, respectively, the total incidence rate of all HD forms being 1.61 per 1000 newborns (1 case per 621 newborns). DNA analysis for the detection of seven frequent mutations in the genes GJB2 (the 35delG, 167delT, 235delC, and M34T mutations), GJB6 (the del(GJB6-D13S1854) and del(GJB6-D13S1830) mutations), and TMC1 (the R34X mutation) has been performed in families with isolated neurosensory deafness. Molecular genetic analysis has detected mutations in 51 children (48.6%); in 54 children (51.4%), no mutations have been found. The following genotypes have been identified in children with HD: 35delG/35delG in 32 probands (30.5%), 35delG/+ in 16 probands (15.2%), 35delG/235delC in 1 proband (0.95%), M34T/+ in 1 proband (0.95%), and M34T/35delG in 1 proband (0.95%). The 167delT mutation has not been found. The frequency of the 35delG mutation in the GJB2 gene has been estimated to be 39.05%. In the group with a family history of HD, mutations have been found in 66.7% of patients; in the group without a family history of HD, in 37.5% of patients. No mutation has been found in the GJB6 or TMC1 gene. Molecular genetic analysis has been performed in a family with clinically diagnosed Treacher Collins-Franceschetti syndrome. Sequencing has been used to find the 748-69C>T polymorphism in intron 6 (in the homozygous state) and the 3635C>G mutation in exon 23 leading to the substitution of glycine for alanine at position 1176 of the amino acid sequence (Ala1176Gly, in the heterozygous state), which have not been described before.     

Hereditary deafness in Kirov oblast: Estimation of the incidence rate and DNA diagnosis in children

Genetic analysis of hereditary deafness (HD) has been performed in the city of Kirov and ten rural districts of Kirov oblast (administrative region). The analysis employed the methods used in audiology, medical genetic counseling, and DNA diagnosis. Deafness has been established to be hereditary in 143 children from 100 unrelated families. The incidence rates of isolated and syndromic HDs in the period studied (1995–2001) have been estimated at 1.25 and 0.36 per 1000 newborns, respectively, the total incidence rate of all HD forms being 1.61 per 1000 newborns (1 case per 621 newborns). DNA analysis for the detection of seven frequent mutations in the genes GJB2 (the 35delG, 167delT, 235delC, and M34T mutations), GJB6 (the del(GJB6-D13S1854) and del(GJB6-D13S1830) mutations), and TMC1 (the R34X mutation) has been performed in families with isolated neurosensory deafness. Molecular genetic analysis has detected mutations in 51 children (48.6%); in 54 children (51.4%), no mutations have been found. The following genotypes have been identified in children with HD: 35delG/35delG in 32 probands (30.5%), 35delG/+ in 16 probands (15.2%), 35delG/235delC in 1 proband (0.95%), M34T/+ in 1 proband (0.95%), and M34T/35delG in 1 proband (0.95%). The 167delT mutation has not been found. The frequency of the 35delG mutation in the GJB2 gene has been estimated to be 39.05%. In the group with a family history of HD, mutations have been found in 66.7% of patients; in the group without a family history of HD, in 37.5% of patients. No mutation has been found in the GJB6 or TMC1 gene. Molecular genetic analysis has been performed in a family with clinically diagnosed Treacher Collins-Franceschetti syndrome. Sequencing has been used to find the 748–69C>T polymorphism in intron 6 (in the homozygous state) and the 3635C>G mutation in exon 23 leading to the substitution of glycine for alanine at position 1176 of the amino acid sequence (Ala1176Gly, in the heterozygous state), which have not been described before.     

A common ancestral origin of the frequent and widespread 2299delG USH2A mutation

Usher syndrome type IIa is an autosomal recessive disorder characterized by mild-to-severe hearing loss and progressive visual loss due to retinitis pigmentosa. The mutation that most commonly causes Usher syndrome type IIa is a 1-bp deletion, described as "2299delG," in the USH2A gene. The mutation has been identified in several patients from northern and southern Europe and from North America, and it has been found in single patients from South America, South Africa, and China. Various studies have reported a range of frequencies (.16-.44) among patients with Usher syndrome, depending on the geographic origin of the patients. The 2299delG mutation may be the one that most frequently causes retinitis pigmentosa in humans. Given the high frequencies and the wide geographic distribution of the mutation, it was of interest to determine whether the mutation resulted from an ancestral mutational event or represented a mutational hotspot in the USH2A gene. Haplotype analysis was performed on DNA samples from 116 unrelated patients with Usher syndrome type IIa; the patients were from 14 countries and represented 148 2299delG alleles. On the basis of six single-nucleotide polymorphisms within the USH2A gene, 12 core haplotypes were observed in a panel of normal chromosomes. However, in our analysis, only one core haplotype was found to be associated with the 2299delG mutation. The data indicate that the widespread geographic distribution of the 2299delG mutation is the result of an ancestral mutation that has spread throughout Europe and into the New World as a result of migration.