Subtyping of the HLA-DQA1 locus and independence testing with PM and STR/VNTR loci

Allele and genotype frequencies for six loci (HLA-DQA1 and PM loci) were determined in African Americans, United States Caucasians, and Southwestern Hispanics. The data include allele frequencies of the HLA-DQA1 4 subtypes. The HLA-DQA1 4 allele subtyping affords greater power of discrimination in African Americans and Southwestern Hispanics than in Caucasians, due to the relatively lower 4.2/4.3 allele frequency in Caucasians. Based on the exact test, all loci, except the GYPA locus in the African American sample (p = 0.011), meet Hardy-Weinberg expectations. There were two examples of significant departures from expectations of independence between alleles of the HLA-DQA1 and PM loci (HBGG/Gc in African Americans, p = 0.30; LDLR/DQA1 in Caucasians, p = 0.023). The HLA-DQA1 and PM loci also were tested for associations with three STR loci and the DIS80 locus. There were four examples of significant departures from expectations of independence (TPOX/D7S8 and THO1/HBGG in African Americans, p = 0.035 and 0.028, respectively; THO1/LDLR in Caucasians, p = 0.028; and GYPA/D1S80 in Hispanics, p = 0.046). The HLA-DQA1 and PM allele frequency data were compared with previously reported data on other sample populations of the same population categories from our laboratory; the allele frequencies at all loci, except the D7S8 locus in Hispanics (p = 0.028), were statistically similar. The frequency data can be used in forensic analyses and paternity tests to estimate the frequency of a multiple locus DNA profile in various general United States populations.     

United States population data on the multiplex short tandem repeat loci--HUMTHO1, TPOX, and CSF1PO--and the variable number tandem repeat locus D1S80

Allele frequencies for three tetrameric short tandem repeat (STR) loci HUMTHO1, TPOX, and CSF1PO and a variable number tandem repeat locus D1S80 were determined in United States Caucasian, African American, and Hispanic sample populations. All loci, except the TPOX locus in the Caucasian sample population, meet Hardy-Weinberg expectations. There is no evidence for association of alleles among the four loci. The allelic frequency data are similar to other comparable data within the same major population group.     

Genetic diversity at six short tandem repeat loci within the state of Victoria, Australia

A new multiplex PCR system, developed by the Forensic Science Service (FSS) in the United Kingdom, permits the coamplification and typing of six short tandem repeat (STR) loci: HUMFGA, D8S1179, HUMTHO1, HUMvWA, D18S51, D21S11 and the sex determining marker Amelogenin. Data are presented on these six STRs for two populations in the state of Victoria, Australia: Caucasian and Asian. Whilst several worldwide databases are already available for the STR loci HUMTHO1 and HUMvWA, only relatively few databases exist for D8S1179, D18S51, D21S11 and HUMFGA. Allele frequencies at each locus displayed some fluctuations between the two populations. This is particularly so for HUMTHO1. Generally, however, the most common allele at each locus was the same in all populations, at all loci. A novel D8S1179 allele was found in Asians, provisionally identified as allele 19. Results for the six loci were compared with similar data from three UK resident populations: Caucasian, Afro-Caribbean and Asian (Indian/Pakistani) populations. These indicated that ethnically similar populations display similar allele frequencies, while the Australian Asian and UK Afro-Caribbean were found to be distinct.     

Genetic relationships among Japanese, northern Han, Hui, Uygur, Kazakh, Greek, Saudi Arabian, and Italian populations based on allelic frequencies at four VNTR (D1S80, D4S43, COL2A1, D17S5) and one STR (ACTBP2) loci

The genetic polymorphism at four variable number of tandem repeats (D1S80, D4S43, COL2A1, D17S5) and one short tandem repeat (ACTBP2) loci was assessed by polymerase chain reaction analysis of genomic DNA obtained from blood samples of eight human populations (Japanese, Northern Han, Hui, Uygur, Kazakh, Saudi Arabian, Greek, Italian). Allele frequencies at all loci were in the Hardy-Weinberg equilibrium for each population. With the exception of ACTBP2, the allelic distribution patterns for these loci revealed a marked genetic divergence among the eight populations. A dendrogram constructed by the neighbor-joining method based on the allele frequencies of the five loci suggested that the five Asian populations (Japanese, Northern Han, Hui, Uygur, and Kazakh) formed one cluster, whereas the two European populations and one West Asian population (Italian, Greek, and Saudi Arabian) formed another. The genetic relationship among these populations may have been greatly influenced by admixture as a result of the migration of individuals along the Silk Road throughout history.     

Thoracoscopic interruption of patent ductus arteriosus compromises cardiopulmonary function in newborn pigs

New Jersey Caucasian, African American, and Hispanic genotype and allele frequencies were determined for the six PCR-based loci, HLA-DQA1, LDLR, GYPA, HBGG, D7S8, and Gc. All but one locus (HLA-DQA1 for African Americans) meet Hardy-Weinberg expectations. However, observing one departure in 18 loci over the three New Jersey sample populations is not unexpected. There is little evidence for departures from independence between pairs of loci in the three populations studied. Thus, multiple locus profile frequencies can be determined using the product rule.     

D1S80 allele frequencies in a Chinese population

Allele frequencies for the VNTR locus D1S80 were determined in a Chinese population sample using the polymerase chain reaction and subsequent analysis of the amplified products by polyacrylamide gel electrophoresis and silver staining. A total of 18 nominal D1S80 alleles were observed in 105 unrelated Chinese. The data demonstrate that D1S80 is highly polymorphic in Chinese with a heterozygosity of 90.5%. The D1S80 frequency distribution meets Hardy-Weinberg expectations. This D1S80 data can be used in forensic analyses and paternity tests to estimate the frequency of a DNA profile in a Chinese population.     

Allelic polymorphism of the DNA-loci met and D7S23, linked to the mucoviscidosis gene in human populations of the Volga-Ural region

Data on allelic polymorphism of MET and D7S23 DNA loci linked to the human cystic fibrosis gene studied in three Bashkir ethnic groups and some Volga-Ural populations (Tartars, Maris, Mordovians, Udmurts, Chuvashs, and Komis) are presented. Udmurts were found to be substantially different from Bashkirs, Tartars, Mordovians, and Chuvashs by the allele frequency distribution observed for MET, while Komis and Bashkirs differed by this parameter from Mordovians and Maris. Comparative analysis of restriction fragment length polymorphism (RFLP) at the D7S23 locus revealed statistically significant differences in genotype frequencies between Bashkirs of the Arkhangel' skii region and populations of Mordva and Udmurtia. In this respect, the Mordovian population appeared to be notably different from the populations of Bashkortostan, Tatarstan, Marii-El, Udmurtiya, Chuvashiya, and Komis. Genetic distances were calculated and corresponding dendrograms were constructed on the basis of data on Met-H, CS.7, and the ApoB locus hypervariable region allelic frequencies. Three ethnogeographic Bashkir groups belonging to one tree branch were found to be closely related to the populations of Tartars, Maris, Udmurts, and Chuvashs and substantially different from Komis and Mordovians. Thus, the position of Volga-Ural populations on the dendrogram corresponds to the degree of relationship between the Finno-Ugric and Turkic populations, confirming the usefulness of DNA polymorphism analysis for the study of the genetic structure of populations.     

Serous cystic neoplasm involving the pancreas and liver: an unusual clinical entity

Allele frequencies for four short tandem repeat loci were determined in a population sample from Catalonia (NE Spain). After denaturing PAGE electrophoresis, 8 alleles were identified for D3S1358 (n=201), 10 alleles for D8S1179 (n=198), 13 alleles for D18S51 (n=197) and 11 alleles for D19S253 (n=201). No deviation from Hardy-Weinberg equilibrium was found. Complete and relative uniformity in Caucasoid populations has been observed for D18S51 and D8S1179 respectively. Pronounced differences were found between different ethnic groups for both systems. Catalonia and Portugal do not differ for D3S1358 locus. Multiplex PCR amplifications of three loci (D3S1358, D18S51 and D19S253) without overlapping fragment size ranges could be interesting for monochrome automated laser fluorescence devices.     

PM and D1S80 loci gene frequencies in the Zaragoza population of northern Spain

LDLR, GYPA, HBGG, D7S8, GC (PM loci) and D1S80 are widely used in forensic casework analyses and population data are required to estimate the frequency of a DNA profile. This paper presents the results of a survey aimed at investigating the allele and genotype frequency distribution of these loci in an important Spanish population (Zaragoza, North Spain). Statistical analysis to determine whether allele frequencies were in Hardy-Weinberg equilibrium was carried out as well as to obtain some parameters of medicolegal interest. There was no evidence of association between the alleles of the loci. The Zaragoza sample does not differ substantially from other Caucasian populations.     

Allele frequency distributions at several variable number of tandem repeat (VNTR) and short tandem repeat (STR) loci in a restricted Caucasian population from south Italy and their evaluation for paternity and forensic use

Allele frequencies at six VNTR loci, 11 STR loci, and at the HLA-DQA1 locus were evaluated in a well-defined population from Campania (South Italy). The allele frequencies of three VNTR loci, 11 STR loci, and the HLA-DQA1 locus were compared with data obtained from a general Caucasian reference population in the USA. The aim of this study was to determine the power of each single locus and group of loci for forensic and paternity testing purposes. Significant differences between the allele frequencies of the two populations were found in two VNTR loci, four STR loci and in the HLA-DQA1 locus. The two populations were in Hardy-Weinberg equilibrium for the STR loci, but as expected, not for some VNTR loci. It was also found that: (i) the discriminatory power of two STR systems (nine and 11 loci, respectively) is similar in the two populations analysed; and (ii) that the allele frequencies for the STR systems of a large reference population can always be applied to subjects of a small subpopulation. In conclusion, for forensic purposes and for paternity testing, most of the 11 STR loci examined can be analysed using allele frequencies from a general Caucasian reference population without typing subpopulations, whereas the VNTR loci must be subtyped.     

Validation studies for the genetic typing of the D1S80 locus for implementation into forensic casework

A series of validation experiments were designed to evaluate, according to the Technical Working Group on DNA Analysis Methods (TWGDAM) guidelines, the analysis of the D1S80 locus for casework implementation. Approximately 400 samples from three different populations (Minnesota Caucasian, Minnesota African Americans, and Minnesota Native Americans) were typed to determine allele frequencies. Simulated forensic type specimens (blood, saliva, hair and semen, or vaginal secretions) were typed to demonstrate that deoxyribonucleic acid (DNA) extracted from various tissues of an individual yield the same D1S80 type. Dilution studies were performed and it was determined that a wide range of input DNA (0.5 ng to 40.0 ng) will consistently yield typeable results. The evaluation of DNA from various animals showed that the D1S80 locus is specific to human DNA within the limits of the parameters tested. The reproducibility of the system was tested by duplicate analysis of approximately 200 population samples. Duplicate samples were analyzed on both horizontal and vertical gel systems. In addition, simulated forensic specimens were analyzed by two independent laboratories: the Minnesota Forensic Science Laboratory (MFSL) and the Roche Biomedical Laboratories (RBL). All analyses, including extraction, quantitation, amplification and typing, were performed independently. All typing results for both laboratories were in agreement. By the analysis of mixtures from various simulated casework type mixtures, it was demonstrated that the D1S80 typing system is suitable for analyzing mixtures. In addition to the simulated casework, evidentiary samples from several adjudicated cases previously analyzed by restriction fragment length polymorphism (RFLP) analysis and/or DQA1 were typed at the D1S80 locus. The D1S80 results were consistent with previous RFLP and/or DQA1 results regarding inclusions/exclusions.     

Polymorphic admixture typing in human ethnic populations

A panel of 257 RFLP loci was selected on the basis of high heterozygosity in Caucasian DNA surveys and equivalent spacing throughout the human genome. Probes from each locus were used in a Southern blot survey of allele frequency distribution for four human ethnic groups: Caucasian, African American, Asian (Chinese), and American Indian (Cheyenne). Nearly all RFLP loci were polymorphic in each group, albeit with a broad range of differing allele frequencies (delta). The distribution of frequency differences (delta values) was used for three purposes: (1) to provide estimates for genetic distance (differentiation) among these ethnic groups, (2) to revisit with a large data set the proportion of human genetic variation attributable to differentiation within ethnic groups, and (3) to identify loci with high delta values between recently admixed populations of use in mapping by admixture linkage disequilibrium (MALD). Although most markers display significant allele frequency differences between ethnic groups, the overall genetic distances between ethnic groups were small (.066-.098), and < 10% of the measured overall molecular genetic diversity in these human samples can be attributed to "racial" differentiation. The median delta values for pairwise comparisons between groups fell between .15 and .20, permitting identification of highly informative RFLP loci for MALD disease association studies.     

Gaucher's disease: molecular, genetic and enzymological aspects

The molecular, genetic and enzymological abnormalities in Gaucher's disease have been delineated during the past decade. Although our understanding of the primary predisposition to the Gaucher's disease phenotypes has improved, the relationships remain poorly understood between the mutant alleles, the resultant enzyme variants, the saposin C (activator protein) locus and phenotypes. Of the more than 100-disease associated alleles, about 8 to 10 have significant frequencies in various ethnic and demographic groups. The N370S(1226G) allele is very frequent in Caucasian populations, but absent in Asian groups. In the Ashkenazi Jewish population, the N370S homozygosity predisposes to Gaucher's disease, but over 50% of such patients escape medical detection because of their mild to absent involvement, i.e. N370S may be a prediposing polymorphic variant. Clarification of genotype/phenotype relationships and the identification of modifier loci that impact on Gaucher's disease phenotypes remain a critical area for research. Greater understanding of these issues will facilitate genetic counselling and appropriate interventive therapy to prevent the morbid long-term manifestations of Gaucher's disease.     

Virulent and avirulent Rhodococcus equi infection in T-cell deficient athymic nude mice: pathologic, bacteriologic and immunologic responses

We report a study of polymorphism for seven short tandem repeat (STR) loci in Japanese and Chinese populations. Among 104 to 134 individuals in the both population samples, eight alleles were revealed for locus PLA2, thirteen for D3S1359, eleven for FGA, eight for D8S315 (kw38), ten for D8S1132, five for CYP19, and seven for D3S2459. They correspondingly constituted 10 to 39 genotypes therein. For most of the STRs, there was only a single allele active as the most frequent one among the others, except locus D3S1359 in Chinese samples (two alleles, 206 bp and 210 bp, frequency = 0.273 each). Also, the population genotype configurations were locus specific, varying in the patterns of commonest genotypes on each locus, e.g., one pattern for loci CYP19, D3S1359, and D8S315, one and two for loci PLA2 and D3S2459, two for locus D8S1132, and one and four for locus FGA. The distributions of observed genotypes were in Hardy-Weinberg Equilibrium. Furthermore, the seven STRs were exhibited highly polymorphic and informative for the both populations, and the alleles could be easily separated in electrophoresis and correctly interpreted with side-to-side allelic ladders. Together, the results suggest that the tri- and tetra-meric STRs are useful genetic markers for forensic practice.     

Swiss population data and forensic efficiency values on 3 tetrameric short tandem repeat loci-HUMTH01, TPOX, and CSF1PO-derived using a STR multiplex system

Allele and genotype frequencies for 3 tetrameric short tandem repeat loci were determined in a Swiss population sample (n = 100) using the GenePrint STR Multiplex System, electrophoresis of the PCR products in DNA sequencing gels and subsequent detection of allelic fragments by silver staining. The loci are HUMTH01, TPOX, and CSF1PO. The observed heterozygosities are 83.0%, 60.0%, and 72.0%, respectively. The discrimination power determined for the individual loci is 0.914, 0.780, and 0.860, respectively, and the combined discrimination power for the triplex is 0.997. All loci meet Hardy-Weinberg expectations and after Bonferroni correction there was no evidence that the population sample deviates from expectations of independence. Moreover, independence of alleles at these STR loci with other PCR-based loci derived from the same Swiss population sample, previously reported, were considered. These loci were DQA1, LDLR, GYPA, HBGG, D7S8, GC and D1S80. Again, after Bonferroni correction there was no evidence that the population sample deviates from expectations of independence among alleles at the 10 different PCR-based loci. Thus, the allelic frequency data can be used in human identity testing to estimate the frequency of a multiple PCR-based DNA profile in the Swiss population.     

Th1-like cytokine production profile and individual specific alterations in TCRBV-gene usage of T cells from newly diagnosed type 1 diabetes patients after stimulation with beta-cell antigens

Thirty complete coding sequences of human major histocompatibility complex (Mhc) class II DRB alleles, spanning 237 codons, were analyzed for phylogenetic information using distance, parsimony, and likelihood approaches. Allelic genealogies derived from different parts of the coding sequence (exon 2, the 5' and 3' ends of exon 2, respectively, and exons 3-6) were compared. Contrary to prior assertions, a rigorous analysis of allelic genealogies in this gene family cannot be used to justify the claim that the lineage leading to modern humans contained on average at least 100,000 individuals. Phylogenetic inferences based upon the exon 2 region of the DRB loci are complicated by selection and recombination, so this part of the gene does not provide a complete and accurate view of allelic relationships. Attempts to reconstruct human history from genetic data must use realistic models which consider the complicating factors of nonequilibrium populations, recombination, and different patterns of selection.     

What explains the negative consequences of adverse childhood experiences on adult health? Insights from cognitive and neuroscience research

Hepatocellular carcinoma (HCC) frequently shows a loss of heterozygosity (LOH) on chromosome 4q. In order to define the commonly affected region on chromosome 4q for further positional cloning of the putative tumor suppressor gene, we carried out allelic imbalance (AI) studies in 41 HCCs using a panel of 43 microsatellite markers. Thirty-four cases (82.9%) showed AI at one or more loci. Detailed deletion mapping identified 7 independent, frequently deleted regions on this chromosome arm. These were the (1) D4S1615 locus, (2) D4S1598 locus, (3) D4S620 locus, (4) D4S1566 and D4S2979 loci, (5) D4S1617 and D4S1545 loci, (6)D4S1537 locus; and (7) from the D4S2920 to D4S2954 locus. Among these 7 frequently deleted regions, 5 were associated with tumor differentiation. Our results suggest that several putative tumor suppressor genes may be present on chromosome 4q and that the AI of chromosome 4q may play a role in the aggressive progression of HCC.     

Restriction fragment length polymorphism analysis reveals different allele frequency and a linkage disequilibrium at locus D1S94 in neuroblastoma patients

Deletion of chromosome 1p and MYCN amplification have been reported as frequent abnormalities in human neuroblastoma. We studied loss of heterozygosity (LOH) in 50 (48 informative) Italian neuroblastoma patients by restriction fragment length polymorphisms (RFLPs) analysis using anonymous and hypervariable region (HVR) sequences. Twelve cases (25%) showed LOH at one or more loci. Locus D1S94 was the most frequently involved in LOH events (8/12) of deleted cases (66.6%). MYCN amplification was observed in 20% of patients which showed a significantly lower event-free survival probability (EFSp) (P = 0.004). We also studied the allelic distribution in the constitutional DNA of neuroblastoma patients (n = 44) and a matched group of healthy Italian subjects (n = 79) for loci D1S112 and D1S94. A significantly (P = 0.01) different allele frequency was detected for the two groups at locus D1S94, but not at D1S112. Moreover, the neuroblastoma population did not confirm the Hardy-Weinberg expectations at the former locus. This observation suggests the existence of an allelotype associated with neuroblastoma susceptibility.     

Integrated mapping analysis of the Werner syndrome region of chromosome 8

The Werner syndrome locus (WRN) is located at 8p11-p12. To facilitate eventual cloning of the WRN gene, a 10,000-rad radiation-reduced hybrid (RH) cell panel was generated to map genetic markers, sequence-tagged sites (STSs), and genes in this region. A hamster cell line carrying an intact human chromosome 8 was fused with another hamster cell line. Two sets of hybrid cell panels from 2 separate fusions were generated; each panel consisted of 50 independent clones; 33 and 34 cell lines from the 2 fusions retained human chromsome material as determined by inter-Alu PCR. The combined panel was genotyped for 52 markers spanning the entire chromosome, including 10 genes, 29 anonymous polymorphic loci, and 13 STSs. Seventeen of these markers have not been previously described. Markers near the centromere were retained at a higher frequency than more distal markers. Fluorescence in situ hybridization was also used to localize and order a subset of the markers. A RH map of the WRN region was constructed using a maximum likelihood method, giving the following most likely order: D8S131-D8S339 (GSR)-D8S124-D8S278-D8S259-(D8S71)-D8S283- D8S87-D8S105-D8S135 (FGFR1)-D8S135PB-D8S255-ANK1. A genetic map of 15 short tandem repeat polymorphic loci in the WRN region was also constructed. The marker orders from the genetic and RH maps were consistent. In addition, an integrated map of 24 loci in the WRN region was generated using information from both genetic and RH mapping methods. A 1000:1 framework map for 6 loci (LPL-D8S136-D8S137-D8S87-FGFR1-ANK1) was determined by genetic mapping, and the resulting locus order was fixed during analysis of the RH genotype data. The resulting integrated map contained more markers than could confidently be ordered by either genetic or RH mapping alone.