Evolution of the tandem repeats in thymidylate synthase enhancer region (TSER) in primates

The upstream regulatory region of the human thymidylate synthase gene (thymidylate synthase enhancer region, TSER) is length polymorphic, attributable to variable numbers of tandemly repeated copies of a 28-bp fragment. It has been found that TSER length polymorphism is correlated to malignancy risk. To further our understanding of the origin and evolution of TSER, this region was investigated among different primates, including hominoids, two subfamilies of the Old World monkeys (OWMs): colobines and cercopithecines, and two species of the New World monkeys (NWMs). In addition to humans, our results show that length polymorphism in TSER is also present in some primate populations, although it appears that this region is length monomorphic in many other primates. We identified three unique repeat motifs in TSER and defined them as R1, R2, and R3, respectively, starting from the 3' end. The same repeat motifs from different species are more similar to each other than different repeat motifs within same species are. Such a paraphyletic pattern suggests that divergence of the three repeat motifs predated divergence of the OWMs/hominoids and the NWMs. The most recent common ancestor (MRCA) of hominoids and the OWMs probably possessed triple repeats but now double and triple repeats are two dominant types in hominoids and the OWMs. In addition, our results show that each of the three repeat motifs may be lost independently. We have also found clues that recombination was involved in formation of tandem repeat polymorphism in TSER.     

Thymidylate synthase enhancer region polymorphism not related to susceptibility to acute lymphoblastic leukemia in the Kashmir population

Thymidylate synthase (TS) is a crucial enzyme in folate metabolism and plays a vital role in DNA synthesis and repair. The most common polymorphism in TS is a unique double (2R) or triple (3R) 28-bp tandem repeat sequence in the enhancer region of the TS gene (TSER). This genetic variation in TSER has been widely investigated and has been implicated as a risk factor for the development of various cancers, including acute lymphoblastic leukemia. It has also been found to influence sensitivity to anti-cancer drugs, such as methotrexate. We evaluated this polymorphism in acute lymphoblastic leukemia patients in the Kashmir population. In order to determine whether a double (2R2R) versus a triple (3R3R) 28-bp tandem repeat in the TSER modulates risk for acute lymphoblastic leukemia, 72 acute lymphoblastic leukemia cases and 144 age and gender matched, unrelated healthy individuals from the Kashmir region of India were evaluated for this polymorphism by PCR and direct sequencing. We found the frequency of the TS 2R allele to be 32.6 and 26.0%, in cases and controls, respectively. The TS 2R/2R genotype was found to be present in 15.27% of the cases and 9.72% of the controls, the 2R/3R variant in 34.72% of the cases and 32.63% of the controls, and the 3R/3R genotype in 50.0% of the cases and 57.63% of the controls. There was a significant association between the TS 2R/2R genotype and gender of acute lymphoblastic leukemia patients with males harboring the 2R/2R genotype exhibiting a higher risk of developing acute lymphoblastic leukemia than females (P = 0.009) We concluded that the TSER polymorphism appears not to be a risk factor for susceptibility to acute lymphoblastic leukemia in the Kashmir population.     

Evolution of Microsatellite Alleles in Four Species of Mice (Genus Apodemus)

Microsatellite length variation was investigated at a highly variable microsatellite locus in four species of Apodemus. Information obtained from microsatellite allele sequences was contrasted with allele sizes, which included 18 electromorphs. Additional analysis of a 400-bp unique sequence in the flanking region identified 26 different haplotype sequences or ``true' alleles in the sample. Three molecular mechanisms, namely, (1) addition/deletion of repeats, (2) substitutions and indels in the flanking region, and (3) mutations interrupting the repeat, contributed to the generation of allelic variation. Size homoplasy can be inferred for alleles within populations, from different populations of the same species, and from different species. We propose that microsatellite flanking sequences may be informative markers for investigating mutation processes in microsatellite repeats as well as phylogenetic relationships among alleles, populations, and species. Received: 3 November 1999 / Accepted: 2 May 2000     

中国人端粒酶催化亚基(hTERT)基因第六内含子VNTR多态性研究

端粒酶的激活在肿瘤发生、衰老以及细胞永生化过程中起重要作用,端粒酶催化亚基(hTERT)的表达是诱导端粒酶活性的限制性步骤,hTERT的表达受到复杂的调控。hTERT基因组全长40kh,包含16个外显子及15个内含子,其中,在第2和第6内含子中各存在2个可变数目串联重复(VNTR)多态性序列(VNTR2—1st、VNTR2—2nd以及VNTR6—1st和VNTR6—2nd),在第12内含子存在另一个单态性串联重复序列。通过对北京地区210例汉族健康人群hTERT基因第6内含子中36-bpVNTR6—1st的多态性进行调查研究．结果在调查人群中观察到18、20、21、22、23、26和35次重复共7种等位基因型以及14种基因型。基因型频率分布符合Hardy—Weinberg平衡。与韩国浦山地区调查人群类似,20、22及35次重复为最常见的等位基因型,这3种等位基因型频率占调查人群总数的94．76％。除了35次重复等位基因型频率与浦山地区人群存在差异外,其他基因型频率差异不显著。此外,除了在部分重复22次的等位基因型中VNTR5′端与浦山地区人群相同外,其他等位基因型中,北京地区汉族人VNTR6—1st5′端均存在53bD插入片段,显示出不同人种vNTR6—1st周边序列的差异性。北京地区汉族正常人群hTERT VNTR基因多态性资料为研究多态性与肿瘤或衰老的相关性提供了资料。     

Y-chromosome polymorphisms of the domestic Bactrian camel in China

Single-nucleotide polymorphisms (SNPs), microsatellites and copy number variation (CNV) were studied on the Y chromosome to understand the paternal origin and phylogenetic relationships for resource protection, rational development and utilization of the domestic Bactrian camel in China. Our sample set consisted of 94 Chinese domestic Bactrian camels from four regions (Inner Mongolia, Gansu, Qinghai and Xinjiang), we screened 29 Y-chromosome-specific loci for SNPs, analysed 40 bovine-derived microsatellite loci and measured CNVs of HSFY and SRY through Sanger sequencing, automated fluorescence-based microsatellite analysis and quantitative real-time PCR, respectively. A multicopy gene, SRY, was first found, and sequence variation was only detected in SRY in a screen of 29 loci in 13 DNA pools of individual camels. In addition, a TG repeat in the USP9Y gene was identified as the first polymorphic microsatellite in the camel Y chromosome, whereas microsatellite based on bovine sequences were not detected. The frequency of each allele varied among different populations. For the Nanjiang, Hexi and Alashan populations, a 243-bp allele was found. For the Sunite population, 241-bp, 243-bp and 247-bp alleles were detected, and the frequencies of these alleles were \(22.2\%\), \(44.5\%\) and \(33.3\%\), respectively; 241-bp and 243-bp alleles were found in other populations. Finally, CNVs in two Y-chromosomal genes were detected; CNV for HSFY and SRY ranged from 1 to 3 and from 1 to 9, respectively.     

Molecular characterization and clinical use of a polymorphic tandem repeat in an intron of the human alanine: Glyoxylate aminotransferase gene

The autosomal recessive disease primary hyperoxaluria type 1 (PH1) is caused by a deficiency of the liver-specific peroxisomal enzyme alanine:glyoxylate aminotransferase (AGT). This paper concerns the identification, characterization and clinical use of an unusual discretely polymorphic tandem repeat sequence in the fourth intron of the human AGT gene (gene locus designation AGXT). In a random Caucasian population, three alleles could be clearly recognized that consisted of either 12 (type III), 17 (type 11) or 38 (type I) tandemly repeated copies of a highly conserved 29/32-bp sequence with frequencies of 33%, 7% and 60%, respectively. In a random Japanese population, the allelic frequencies were markedly different (i.e. 31%, 45% and 19%, respectively). In addition, a fourth allele was identified, consisting of 32 repeats (type IV), with an allelic frequency of 5% in Japanese. The repetitive sequence was similar to previously identified mammalian sequences with homology to the Epstein-Barr virus IR3 repetitive element involving a 12/15-bp region GCA(GGN)GGAGGAGGG within the repeat unit. This IR3-like sequence was interspersed with a 17-bp sequence with no similarity to any currently known repetitive element. The type I and type III alleles were judged to be equivalent to a previously identifiedTagI polymorphism. Two polymorphisms previously shown to be associated with the peroxisome-to-mitochondrion mistargeting of AGT in PHI (a C154T point substitution in exon 1 and a 74-bp duplication in intron 1) were found to segregate exclusively with the type I intron 4 polymorphism in Caucasians, but not in Japanese. The polymorphic nature of the intron 4 tandem repeats makes them of potential use in the prenatal diagnosis of PH1, especially when coupled with the exon 1 C154T substitution or intron 1 duplication polymorphisms. A PH1 family, in which a fetus had been predicted previously to be either normal or a carrier by AGT enzymic analysis of a fetal liver biopsy, but who had been shown to be only partially informative with respect to the C154T/intron 1 polymorphisms, was analysed retrospectively. The family was completely informative for the intron 4 tandem repeat polymorphism and the carrier status of the fetus was confirmed.     

Recessive allelic variations of three microsatellite sites within the<Emphasis Type="Italic">O2</Emphasis> gene in maize

Recessive allelic variations were investigated at 3 microsatellite (SSR) sites within theO2 gene by using 14 inbredo2 lines and a wild-type line in maize. Among the 15 lines, allelic variations were observed at umc1066, phi057, and phi112 sites. Two alleles were found at the umc1066 site—a recessive allele with 2 perfect GCCAGA repeats and a dominant allele with 3 perfect repeats. Three alleles were found at the phi057 site—2 recessive alleles with 3 and 5 perfect GCC repeats, respectively, and another with 4 perfect repeats consistent with a dominant allele. At least 4 alleles exist at the phi112 site—among which 1 recessive allele has a 1-bp deletion, another has a 15-bp deletion, and other has no PCR products compared to the dominant allele; all the alleles have unchanged AG repeats. The phi057 site in exon 6 was identified to be a hypervariable region in the coding sequence of the02 gene, in addition to the 2 hypervariable regions in exon 1 previously reported. The primary mechanisms underlying the variations in repeat numbers and regions flanking the SSR within theO2 gene appear to be unequal crossing over and replication slippage. Furthermore, base substitution of SSR motif can create heteroalleles and modify the repeat number of SSR. The lysine content of kernel in theO2 ando2 lines correlates to a considerable extent with nucleotide variations at the umc1066, phi057, and phi112 sites. Our study suggests that it is best to use the 3 markers together in molecular marker-assisted selection for high-lysine maize materials.     

The length polymorphism in the 5′ flanking region of the human β-globin gene with denaturing gradient gel electrophoresis in a Japanese population

Summary The ATTTT repeat polymorphism located approximately 1,400 base pairs (bp) upstream from the -globin structural gene was analyzed by denaturing gradient gel electrophoresis (DGGE) of RNA: DNA duplexes. A study of 81 unrelated Japanese from Hiroshima revealed a sequence heteromorphism in this site. The alleles with five and six repeats of the ATTTT unit, which have been reported, were found in polymorphic proportions. Two unreported alleles were also detected, the first, in two persons, characterized by seven repeats and the other, in a single person, having an A-to-G nucleotide substitution in the fifth repeat.     

Associations between mutations and a VNTR in the human phenylalanine hydroxylase gene.

The HindIII RFLP in the human phenylalanine hydroxylase (PAH) gene is caused by the presence of an AT-rich (70%) minisatellite region. This region contains various multiple of 30-bp tandem repeats and is located 3 kb downstream of the final exon of the gene. PCR-mediated amplification of this region from haplotyped PAH chromosomes indicates that the previously reported 4.0-kb HindIII allele contains three of these repeats, while the 4.4-kb HindIII allele contains 12 of these repeats. The 4.2-kb HindIII fragment can contain six, seven, eight, or nine copies of this repeat. These variations permit more detailed analysis of mutant haplotypes 1, 5, 6, and, possibly, others. Kindred analysis in phenylketonuria families demonstrates Mendelian segregation of these VNTR alleles, as well as associations between these alleles and certain PAH mutations. The R261Q mutation, associated with haplotype 1, is associated almost exclusively with an allele containing eight repeats; the R408W mutation, when occurring on a haplotype 1 background, may also be associated with the eight-repeat VNTR allele. Other PAH mutations associated with haplotype 1, R252W and P281L, do not appear to segregate with specific VNTR alleles. The IVS-10 mutation, when associated with haplotype 6, is associated exclusively with an allele containing seven repeats. The combined use of this VNTR system and the existing RFLP haplotype system will increase the performance of prenatal diagnostic tests based on haplotype analysis. In addition, this VNTR may prove useful in studies concerning the origins and distributions of PAH mutations in different human populations.     

The world-wide distribution of allele frequencies at the human dopamine D4 receptor locus

The dopamine D4 receptor gene (DRD4) has an expressed polymorphism in the third exon that may have functional relevance. The polymorphism exists at two levels. At the higher level there is an imperfect tandem repeat of 48 base pairs (bp) coding for 16 amino acids; alleles have been identified with 2 (32 amino acids) to 10 (160 amino acids) repeats. The imperfect nature of the repeats is responsible for a more subtle level of variation since alleles with the same number of repeats can differ in the exact sequences or in the order of the variants of the 48-bp unit. We have undertaken a global survey of this expressed polymorphism as one approach to understanding the evolutionary significance and origins of the polymorphism as well as understanding what selective forces, if any, may be operating at this locus. As the first step, we have determined the repeat number genotype of the DRD4 repeat polymorphism in 1,327 individuals from 36 different populations. The allele frequencies differ considerably among the different populations. The 4-repeat allele was the most prevalent (global mean allele frequency = 64.3%) and appeared in every population with a frequency ranging from 0.16 to 0.96. The 7-repeat allele was the second most common (global mean = 20.6%), appearing quite frequently in the Americas (mean frequency = 48.3%) but only occasionally in East and South Asia (mean frequency = 1.9%). The 2-repeat allele was the third most common (global mean frequency = 8.2%) and was quite frequent in East and South Asia (mean frequency = 18.1%) while uncommon in the Americas (mean frequency = 2.9%) and Africa (mean frequency = 1.7%). The universality of the polymorphism with only three common repeat-number alleles (4, 7, and 2) indicates that the polymorphism is ancient and arose before the global dispersion of modern humans. The diversity of actual allele frequencies for this expressed polymorphism among different populations emphasizes the importance of population considerations in the design and interpretation of any association studies carried out with this polymorphism. Received: 18 July 1995 / Revised: 18 December 1995     

Population and family studies of CAG repeats in the IT-15 gene

A simple and effective method for typing of CAG repeats in the IT-15 gene has been suggested. This method was applied for examination of the CAG allele distribution in Huntington's disease (HD) patients in five different populations from the Commonwealth of Independent States. A total of 21 normal alleles with the sizes ranging from 9 to 32 triplet repeat units were revealed. Moreover, alleles with the size ranging from 16 to 20 repeats predominated constituting from 54.4 to 74.6% of all alleles in different populations. The number of repeats in one allele in HD patients exceeded 38 units (43 triplets on average). In two families an increase in the CAG repeat units number in the mutant allele upon its paternal transmission was recorded.     

Ethnic Variation in the Thymidylate Synthase Enhancer Region Polymorphism among Caucasian and Asian Populations

Thymidylate synthase (TS) regulates the production of DNA synthesis precursors and is an important target of cancer chemotherapy. A tandem repeat sequence in a TS promoter enhancer region (TSER) was recently identified. Polymorphic variation affected in vitro expression levels of the gene. We evaluated the influence of ethnicity on TSER genotype. Allele frequency was similar in Caucasian and Southwest Asian subjects. However, homozygous triple repeat subjects were twice as common in Chinese subjects (67%) than in Caucasian subjects (38%). This demonstrates significant ethnic variation in a TS gene regulatory element which may have significant impact on pyrimidine homeostasis and drug therapy.     

Polymorphisms of folate pathway enzymes (methylenetetrahydrofolate reductase and thymidylate synthase) and their relationship with thymidylate synthase expression in human astrocytic tumors

Two important polymorphisms of folate cycle enzymes, methylenetetrahydrofolate reductase (MTHFR) C677T and thymidylate synthase (TS) enhancer region (TSER) 28-bp tandem repeat, are related to risk of various types of cancer, including brain tumors, although there are few studies on this subject. A case-control study of these two polymorphisms in astrocytomas of different grades was carried out using polymerase chain reaction-restriction fragment length polymorphism, also determining the immunohistochemical expression of TS. The MTHFR 677 TT genotype was less associated with astrocytic tumors (odds ratio [OR]=0.00; p=0.0238), but the TSER polymorphism did not show any significant association. Combined genotype TT-double repeats/triple repeats (2R/3R) had a protective effect against astrocytomas (OR=0.00; p=0.0388). Expression of TS protein was observed in the majority of cases, with grade IV tumors being the exception. Moreover, the median H-score for the pilocytic astrocytomas was significantly higher when compared with that for diffuse tumors. There was an inverse correlation between the 2R/2R genotype and the highest TS-expressing tumors, and 3R/3R was relatively more frequent among the tumors grouped in the third and fourth quartiles. Our results provide support for the role of MTHFR and TS polymorphism in gliomagenesis, possibly because of the alteration of DNA methylation and repair status. Moreover, high levels of TS expression were detected in these tumors.     

Characterization of the variable-number tandem repeats in vrrA from different Bacillus anthracis isolates.

PCR analysis of 198 Bacillus anthracis isolates revealed a variable region of DNA sequence differing in length among the isolates. Five polymorphisms differed by the presence of two to six copies of the 12-bp tandem repeat 5'-CAATATCAACAA-3'. This variable-number tandem repeat (VNTR) region is located within a larger sequence containing one complete open reading frame that encodes a putative 30-kDa protein. Length variation did not change the reading frame of the encoded protein and only changed the copy number of a 4-amino-acid sequence (QYQQ) from 2 to 6. The structure of the VNTR region suggests that these multiple repeats are generated by recombination or polymerase slippage. Protein structures predicted from the reverse-translated DNA sequence suggest that any structural changes in the encoded protein are confined to the region encoded by the VNTR sequence. Copy number differences in the VNTR region were used to define five different B. anthracis alleles. Characterization of 198 isolates revealed allele frequencies of 6.1, 17.7, 59.6, 5.6, and 11.1% sequentially from shorter to longer alleles. The high degree of polymorphism in the VNTR region provides a criterion for assigning isolates to five allelic categories. There is a correlation between categories and geographic distribution. Such molecular markers can be used to monitor the epidemiology of anthrax outbreaks in domestic and native herbivore populations.     

Population and Family Studies of the CAG Repeats in the IT-15Gene

A simple and effective method for typing of CAG repeats in the IT-15gene has been suggested. This method was applied for examination of the CAG allele distribution in Huntington's disease (HD) patients in five different populations from the Commonwealth of Independent States. A total of 21 normal alleles with the sizes ranging from 9 to 32 triplet repeats units were revealed. Moreover, alleles with the sizes ranging from 16 to 20 repeats predominated constituting from 54.4 to 74.6% of all alleles in different populations. The number of repeats in one allele in HD patients exceeded 38 units (43 triplets on average). In two families an increase in the CAG repeat units number in the mutant allele upon its paternal transmission was recorded.     

Novel alleles of 31-bp VNTR polymorphism in the human cystathionine β-synthase (<Emphasis Type="Italic">CBS</Emphasis>) gene were detected in healthy Asians

A 31-bp variable number of tandem repeats (VNTR) polymorphism of the cystathionine β-synthase (CBS) gene was earlier reported in Caucasians of predominantly European descent and Indo-Caucasoid populations.We report here for the first time, the detection of allele 20, which was absent in Caucasian and Indo-Caucasoid populations, as a common allele present in Singaporean Chinese (6.25%), Indians (11.7%), and Malays (11.5%). Hence, allele 20 might be a specific allele for Asian populations. A relatively common allele 19 found in the Caucasian and Indo-Caucasoid populations (10.4%–10.6%) was absent in the Asian samples of this study. Therefore, allele 19 might be a specific allele for the Caucasian populations. A novel and rare allele 13, which was not reported before in the Caucasian and Indo-Caucasoid populations, was found in 0.5% of Singaporean Chinese as genotype 13/17 heterozygotes. The presence of alleles 13 and 20 were verified by DNA sequencing. There were five new genotypes (13/17, 16/20, 17/20, 18/20 and 20/20) not reported before in the Caucasian and Indo-Caucasoid populations, detected in this study. Nine genotypes (15/18, 16/18, 16/21, 17/19, 18/19, 18/21, 19/19, 19/21 and 21/21) which were present in the Caucasian and/or Indo-Caucasoid populations were absent in this study. Our results showed that CBS 31-bp VNTR polymorphism has a distinct genetic difference in allele and genotype frequencies between the European Caucasians, Indo-Caucasoid and Asian populations.     

Patterns of instability of expanded CAG repeats at the ERDA1 locus in general populations.

A highly polymorphic CAG repeat locus, ERDA1, was recently described on human chromosome 17q21.3, with alleles as large as 50-90 repeats and without any disease association in the general population. We have studied allelic distribution at this locus in five human populations and have characterized the mutational patterns by direct observation of 731 meioses. The data show that large alleles (>/=40 CAG repeats) are generally most common in Asian populations, less common in populations of European ancestry, and least common among Africans. We have observed a high intergenerational instability (46. 3%+/-5.1%) of the large alleles. Although the mutation rate is not dependent on parental sex, paternal transmissions have predominantly resulted in contractions, whereas maternal transmissions have yielded expansions. Within this class of large alleles, the mutation rate increases concomitantly with increasing allele size, but the magnitude of repeat size change does not depend on the size of the progenitor allele. Sequencing of specific alleles reveals that the intermediate-sized alleles (30-40 repeats) have CAT/CAC interruptions within the CAG-repeat array. These results indicate that expansion and instability of trinucleotide repeats are not exclusively disease-associated phenomena. The implications of the existence of massively expanded alleles in the general populations are not yet understood.     

Insertions–Deletions in a Microsatellite Flanking Region May Be Resolved by Variation in Stuttering Patterns

Microsatellites or simple sequence repeats (SSRs) may display polymerase-chain-reaction-amplified fragment lengths mismatching the patterns expected from repeat copy number variation. We sequenced alleles of a nuclear dinucleotide SSR locus in two oak species which showed 2- and 1-bp length differences between alleles and three types of stuttering patterns in fragment length analysis. In accordance with the variation in stuttering, we identified three allele classes characterized by insertions–deletions in the flanking regions and overlapping repeat copy number ranges. Different alleles could thus only be safely separated when considering these stuttering patterns. Our results raise the question of how to adequately delimit alleles when such size homoplasy is present. We advise to thoroughly characterize SSR sequence variation during marker development and to carefully place primer sites along flanking regions to facilitate automated allele scoring and to minimize labor-intensive visual inspection.     

Microsatellite genotyping of Chromosome 14q13.2-14q13 in the vicinity of proteasomal gene<Emphasis Type="Italic"> PSMA6</Emphasis> and association with Graves’ disease in the Latvian population

The 270-kb Chromosome 14q13.2-14q13 region harboring the proteasomal alpha subunit 6 gene PSMA6 was analyzed for polymorphism of five microsatellite repeats in cases/controls and association with Graves disease. Four novel microsatellite markers were localized to the 14q13.2 region upstream of PSMA6. Dinucleotide repeats HSMS801, HSMS702, HSMS701 were identified in two introns of the gene KIAA0391; the most upstream trinucleotide HSMS602 marker was found in an intron of the C14orf24 gene. A polymorphism study performed on the Latvian population revealed 13 and 14 alleles for HSMS801 and HSMS702, respectively, seven alleles for HSMS701, and four alleles for HSMS602. Heterozygosity analysis revealed that all the four markers obey Hardy-Weinberg distribution. The previously described HSMS006 marker, represented by 12 alleles, is localized in intron 6 of the PSMA6 gene. No significant differences were observed between patients and controls in allele distribution of the HSMS702 and HSMS701 microsatellite repeats. However, the allele frequencies of HSMS006 and HSMS801 were significantly different between Graves disease and control subjects. The 181- and 185-bp alleles of HSMS006 and the 133-, 143-, and 149-bp alleles of HSMS801 were found more often, but the 189- and 191-bp alleles of HSMS006 were much less frequent in Graves disease patients compared with the controls. An additional 174-bp allele of the HSMS602 marker, absent in healthy subjects, was found in Graves disease patients.     

The heterochromatin of grasshoppers from the Caledia captiva species complex. I. Sequence evolution and conservation in a highly repeated DNA family

The restriction enzyme TaqI digests 0.2% of the genomic DNA from the grasshopper Caledia captiva to a family of sequences 168 bp in length (length of consensus sequence). The sequence variation of this "Taq family" of repeat units was examined among four races from C. captiva to assay the pattern of evolution within this highly repeated DNA. The Taq-family repeats are located in C-banded heterochromatin on at least one member of each homologous pair of chromosomes; the locations range from centromeric to telomeric. Thirty-nine cloned repeats isolated from two population 1A individuals along with 11 clones from seven populations taken from three of the races demonstrated sequence variation at 72 positions. Pairwise comparisons of the cloned repeats, both within an individual and between different races, indicate that levels of intraspecific divergence, as measured by reproductive incompatibility, do not correlate with sequence divergence among the 168-bp repeats. A number of subsequences within the repeat remain unchanged among all 50 clones; the longest of these is 18 bp. That the same 18-bp subsequence is present in all clones examined is a finding that departs significantly (P less than 0.01) from what would be expected to occur at random. Two other cloned repeats, from a reproductively isolated race of C. captiva, have sequences that show 56% identity with this 18-bp conserved region. An analysis showed that the frequency of occurrence of an RsaI recognition site within the 168- bp repeat in the entire Taq family agreed with that found in the cloned sequences. These data, along with a partial sequence for the entire Taq family obtained by sequencing uncloned repeats, suggest that the consensus sequence from the cloned copies is representative of this highly repeated family and is not a biased sample resulting from the cloning procedure. The 18-bp conserved sequence is part of a 42-bp sequence that possesses dyad symmetry typical of protein-binding sites. We speculate that this may be significant in the evolution of the Taq family of sequences.