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.     

TWGDAM validation of the AmpFISTR blue PCR amplification kit for forensic casework analysis

Studies were performed as recommended by the Technical Working Group on DNA Analysis Methods (TWGDAM) committee to validate the AmpFISTR Blue PCR Amplification Kit for forensic casework applications. The kit coamplifies the tetranucleotide short tandem repeat (STR) loci D3S1358, vWA, and FGA. The dye-labeled amplification products were electrophoresed and detected directly using the ABI PRISM 377 DNA Sequencer or the 310 Genetic Analyzer. CEPH family studies demonstrated Mendelian inheritance of these loci and probability of identity values from population studies were 1/4,830 (African-American), 1/5,479 (U.S. Caucasian), and 1/3,443 (U.S. West Coast Hispanic). In all studies examining different body tissues and fluids, the expected genotypes were observed. Studies to determine and test the PCR reagent components and thermal cycling parameters demonstrated specificity, sensitivity, and balance over a wide range of conditions. Reliable results were obtained from DNA quantities as low as 0.25 ng. A variety of environmental studies were performed, as forensic samples are often exposed to different environmental conditions and substances which may degrade DNA or inhibit the amplification process. Highly degraded samples demonstrated that FGA was the first locus to become undetectable, followed by vWA, and then D3S1358; this is the expected pattern according to locus size. In studies of PCR inhibition, the pattern in which the loci became undetectable was different; FGA was the first locus to become undetectable, followed by D3S1358, and then vWA. Single versus multiple locus amplifications revealed no benefit to single locus analysis, even in cases of degradation or inhibition. The occurrence of preferential amplification was very rare, particularly in noncompromised, unmixed samples. Artifact peaks were not observed in any instance. Mixture studies confirmed the ability to detect mixed DNA samples and included the characterization of stutter and peak height ratios; the limit of detection was 1:10 for 1 ng total genomic DNA and 1:30 for 5 ng. DNA extracted from nonprobative case evidence was successfully amplified and genotyped. All such studies indicate that the AmpFISTR Blue PCR Amplification Kit will reproducibly yield specific and sensitive results.     

A dedicated internal standard in fragment length analysis of hyperpolymorphic short tandem repeats

Some of the most polymorphic short tandem repeats (STRs) have alleles differing in size by as little as one basepair. Since sizing precision with commercially available internal standards ordinarily does not allow safe discrimination at this level, typing is accomplished through comparisons with allelic ladders run on each gel. Here we introduce the use of optimally spaced sequenced alleles as a dedicated internal standard for measurement and typing of hyperpolymorphic STRs. We have constructed such a dedicated internal standard for HUMACTBP2 ([1]; Moos and Gallwitz, EMBO I., 5 (1983) 757-761) typing, including 25 sequenced, ROX labelled HUMACTBP2 alleles spanning the size range for alleles at this locus (233-333 basepairs (bp)). Comparisons of inter-gel runs of selected alleles with this dedicated standard and the commercial GS500 internal standard demonstrate that only the presently described internal standard is suited for direct typing based on fragment length measurements only. Obvious advantages of this typing procedure are that fragment measurements are precise and in accordance with sequenced lengths, and that the typing procedure via an external allelic ladder is avoided. Sequences of the alleles used in the internal standard as well as of selected alleles for allelic ladders in two other hyperpolymorphic AAAG-repeat STRs, D11S554 (Phromchotikul et al., Hum. Mol. Genet., 3 (1991) 21) and HUMAPOA11 (Kimpton et al., PCR Methods Appl., 3 (1993) 13-22) are also presented. To allow fragment length analysis of these two STRs, five D11S554 alleles, spanning from 176 to 225 basepairs, were added to the dedicated internal standard. Performing similar comparisons as for HUMACTBP2, it is demonstrated that even if sizing accuracy is not as good as with HUMACTBP2, typing based on measured fragment size only may be achieved with both other STRs as well. Selecting different colours for the three STRs, triplex electrophoretic runs were performed of a Norwegian population database of 300 unrelated individuals. The probability that two unrelated individuals have the same type in all three STRs is 5 x 10(-7), and the combined paternity exclusion power 99.77%, indicating that this STR selection may represent a good choice for forensic genetic casework.     

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.     

Typing of the short tandem repeat D8S347 locus with different fluorescence markers

The short tandem repeat (STR) locus D8S347 was analyzed by capillary electrophoresis. Sequencing data and a population study of 203 individuals from a southwestern German population are presented. We detected 12 different alleles, 340-388 bp in length, and found 40 different genotypes. The heterozygosity index was 85.7%. Futhermore, we investigated the consequences of different fluorescent dyes, namely 6-FAM, HEX, and ROX, on the ABI-calculated fragment sizes of defined (i.e., sequenced) alleles (348-376 bp in length). 6-FAM-labeled fragments appear to be smaller than the corresponding HEX- or ROX-labeled fragments. On average, 6-FAM-labeled fragments differ by 3.52 bp from the sequencing data, HEX-labeled ones by 2.04 bp, and ROX-labeled ones by 1.42 bp. Generally, small alleles differ less from the expected sequencing data than larger ones.     

Allele distribution at nine STR loci--D3S1358, vWA, FGA, TH01, TPOX, CSF1PO, D5S818, D13S317 and D7S820--in the Japanese population by multiplex PCR and capillary electrophoresis

Nine tetranucleotide short tandem repeat (STR) loci, D3S1358, vWA, FGA TH01, TPOX, CSF1PO, D5S818, D13S317 and D7S820, were analyzed in the Japanese population with a newly released kit for personal identification using multiplex PCR with fluorescent-labeled primers following capillary electrophoresis. The observed heterozygosities were 0.67, 0.77, 0.82, 0.61, 0.62, 0.73, 0.78, 0.81 and 0.74, respectively, and the combined discrimination power of the nineplex was 0.9999999991. None of the nine loci deviated from Hardy-Weinberg equilibrium expectations using the chi-square test, homozygosity test, likelihood ratio test and exact test after the grouping of the alleles. The nine STR loci allele frequencies were significantly different from those of other ethnic populations.     

Identification of quantitative trait loci influencing wood specific gravity in an outbred pedigree of loblolly pine

We report the identification of quantitative trait loci (QTL) influencing wood specific gravity (WSG) in an outbred pedigree of loblolly pine (Pinus taeda L.). QTL mapping in an outcrossing species is complicated by the presence of multiple alleles (> 2) at QTL and marker loci. Multiple alleles at QTL allow the examination of interaction among alleles at QTL (deviation from additive gene action). Restriction fragment length polymorphism (RFLP) marker genotypes and wood specific gravity phenotypes were determined for 177 progeny. Two RFLP linkage maps were constructed, representing maternal and paternal parent gamete segregations as inferred from diploid progeny RFLP genotypes. RFLP loci segregating for multiple alleles were vital for aligning the two maps. Each RFLP locus was assayed for cosegregation with WSG QTL using analysis of variance (ANOVA). Five regions of the genome contained one or more RFLP loci showing differences in mean WSG at or below the P = 0.05 level for progeny as grouped by RFLP genotype. One region contained a marker locus (S6a) whose QTL-associated effects were highly significant (P > 0.0002). Marker S6a segregated for multiple alleles, a prerequisite for determining the number of alleles segregating at the linked QTL and analyzing the interactions among QTL alleles. The QTL associated with marker S6a appeared to be segregating for multiple alleles which interacted with each other and with environments. No evidence for digenic epistasis was found among the five QTL.     

Human phylogenetic relationships according to the D1S80 locus

By analyzing the allelic frequencies at the D1S80 locus in 43 human populations, we show that the locus is polymorphic globally and that it can be used to discriminate between major racial groups and subpopulations through phylogenetic analysis. Although the use of informative multiple loci generally provides more accurate phylogenetic relationships, in instances where time and/or target DNA availability is limited, D1S80 could provide useful data to discriminate between human groups. Also, knowledge of which loci independently provide accurate phylogenetic relationships, such as the D1S80, can be used to design more accurate multi-locus combinations. In addition, allele frequencies at the locus are reported, for the first time, for Bahamian individuals of African origin and for Chimila, Bari, and Navajo (Ca?oncito Valley) native Americans. Allelic data was obtained using standard polymerase chain reaction (PCR) techniques. In the four new populations, 65 genotypes and 20 segregating alleles were observed. All populations conformed to Hardy-Weinberg expectations except the Chimila.     

Outcomes of disabling cervical spine disorders in compensation injuries. A prospective comparison to tertiary rehabilitation response for chronic lumbar spinal disorders

BACKGROUND: Genotyping based on short tandem repeat (STR) regions is widely used in human identification and parentage testing, in gene mapping studies, and as an approach to studies on the etiopathogenesis and diagnosis of hereditary diseases. We wished to study a new analytical approach that uses capillary electrophoresis and multicolor fluorescence in place of slab gel electrophoresis. METHODS: We evaluated the efficiency for parentage and forensic purposes of the AmpFLSTR Profiler PlusTM typing kit that is used with the ABI Prism 310 Genetic Analyzer (System-2 STR), and that of a widely used panel of nine STRs analyzed with conventional slab-gel electrophoresis followed by radioactive detection (System-1 STR). System-2 STR, based on automated capillary electrophoresis and automated sizing of the alleles by Genotyper 2.0 software, was used to determine the allele frequency of the nine loci in 157 Caucasian subjects from southern Italy. On the basis of the data obtained, we submitted 40 trios to parentage testing. RESULTS: A higher median probability of paternity attribution and power of exclusion were obtained with System-2 STR vs System-1 STR: respectively, 99.99% and 99.95% (P <0.05) for attribution; and five and four excluding loci (P <0.05) for exclusion. The most informative and highly discriminating loci were D18S51, D21S11, and FGA. The combined probability of matching-by-chance for all nine STRs was 1.36 x 10(-12) for System-2 compared with 1.11 x 10(-7) obtained with the other system. The internal standard and allelic ladder of the System-2 STR facilitated accurate and precise genotyping; furthermore, System-2 STR and was faster than the conventional System-1 STR. CONCLUSIONS: The System-2 STR allows rapid testing with higher probabilities of attribution and a higher power of exclusion than with the comparison method with slab-gel electrophoresis.     

Oral ulceration as a presenting sign of unknown sarcoidosis mimicking a tumour: report of 2 cases

OBJECTIVE: To test whether some genotypes for CYP2D6 or CYP2C19 could contribute to longevity, we genotyped 241 Danish nonagenarians and centenarians for CYP2D6 and CYP2C19. METHODS: For CYP2D6 we identified the alleles CYP2D6*1, CYP2D6*3 and CYP2D6*4 with allele-specific polymerase chain reaction (PCR). The CYP2D6*5 alleles were identified with a long PCR method. For CYP2C19 we identified the alleles CYP2C19*1, CYP2C19*2 and CYP2C19*3 with an oligonucleotide ligation assay. RESULTS: The four alleles for CYP2D6 did not occur in Hardy-Weinberg proportions. The frequency of poor metabolism was slightly higher (10.2%) than expected [7.7%; odds ratio (OR) = 1.36 (0.75-2.40)]. The genotypes for CYP2C19 occur in Hardy-Weinberg proportions. The frequency of poor metabolism (3.8%) was not significantly different from a young control group [3.1%; OR = 1.21 (0.26-5.75)]. CONCLUSION: CYP2D6 could play a role in human longevity due to the lack of Hardy-Weinberg proportions. If CYP2D6 only plays a role in longevity by protecting the poor metabolizers from cancer, we should expect a rise in the frequency in these genotypes in Denmark from 7.7% among young adults to 10-11% among very old people. We found a frequency of poor metabolism of 10.2% in the very old group. CYP2C19 is - due to the occurrence of Hardy-Weinberg proportions and the expected number of poor metabolizers unlikely to contribute to human longevity.     

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.     

Spectral measurements of intercalated PCR-amplified short tandem repeat alleles

Short tandem repeat (STR) alleles are popular for use as forensic markers due to their highly polymorphic nature. Commonly they are separated by gel electrophoresis and visualized using intercalation dyes. The purpose of this study was to determine the changes in absorbance and fluorescence of DNA-intercalation dye complexes as a function of base pair (bp)-to-dye ratio. The DNA samples consisted of STR alleles from loci THO1, F13A01, and vWFA31. The alleles were PCR amplified and HPLC purified to ensure that only the desired DNA fragment was present in each sample. Alleles ranged in size from 151 bp for locus vWFA (allele 17) to 199 bp for the locus F13A01 (allele 8). The adenine and thymine (AT) content varied from 48% for the THO1 locus to 69% for F13A01 and vWFA31 loci. The homozygous alleles of each locus were mixed individually with the bis-intercalators TOTO-1 and YOYO-1 and their corresponding monomeric dyes TOPRO-1 and YOPRO-1. The absorbance of the DNA-dye complex at 260 nm increased with addition of each intercalation dye. Subtraction of the dye absorbance rendered the DNA absorbance constant at 260 nm. Fluorescence emission increased dramatically upon intercalation of both the monomeric and dimeric dyes into the DNA helix. A plateau of fluorescence intensity was observed at base pair-to-dye ratios of 10/1 for the bis-intercalator TOTO-1 and 5/1 for YOYO-1 for all three loci. The greatest fluorescence intensity response was obtained with the intercalator YOYO-1 using allele 8 of the F13A01 locus, which had the greatest AT concentration.     

Evaluation of the ALF DNA sequencer for high-speed sizing of short tandem repeat alleles

DNA typing of short tandem repeat (STR) loci with automated real-time analysis of the fluorescent polymerase chain reaction (PCR) products has given forensic DNA analysis a new dimension. In the present work, the ALF DNA sequencer was evaluated for automated size determination of tetra-nucleotide STRs at high speed. Short gel plates, with a well-to-laser distance of 10 cm, allowed for the analysis of four STR loci (HUMvWF, HUMTH01, D21S11 and HPRT) in one gel lane in less than 75 min. Allele size determination was done with two external allelic ladders for each locus. Lane-to-lane variations were overcome by the inclusion in each lane of two fluorescent PCR products of constant size (123 and 375 bp) that migrated below and above the multiplex of the four STR loci. The accuracy of sizing and allele detection within and between different gels was high (99.89%) for all four STR systems investigated and the gels could be reloaded without a decrease in accuracy of the allele size estimation. This way, the throughput of the system was increased, which is of interest for linkage studies, gene mapping, and population diversity studies.     

Microsatellite instability in follicle centre cell lymphoma

Fluorescent polymerase chain reaction (PCR) was used to assay 12 microsatellite markers (APC x 2, DCC, P53 x 2, RB1, NM23, WT1, D6S260, D6S262, D6S281 and TNFa) to look for evidence of microsatellite instability in 40 cases of follicle centre cell lymphoma (FCC). Evidence of novel alleles seen in the tumour tissue but not the normal uninvolved tissue was seen in seven cases (17%). In only two of these cases (5%) was more than one locus involved but in these cases multiple affected loci were seen (4/12 and 7/12 respectively). The detection of microsatellite instability indicates a DNA repair defect such as that which would be predicted to occur in cells with mutated mismatch repair genes, a novel finding in FCC lymphoma.     

Does the biocompatibility of the hemodialysis membrane influence the prognosis of acute renal insufficiency?

OBJECTIVE: This study was aimed at the use of old blood stains for investigating the distribution of three STR loci in Jingpo ethnic group. METHODS: DNA extraction from old blood stains (106 in number) and multiplex amplification of CSF1PO, TPOX and TH 01 were carried out. Using denaturing polyacrylamide gel electrophoresis and silver stain, the authors investigated the distribution of allele frequencies of CSF1PO, TPOX and TH01 loci in a Jingpo ethnic group in the southwestern part of Yunnan province. RESULTS: 7 alleles and 26 genotypes of CSF1PO locus,7 alleles and 19 genotypes of TPOX locus, and 6 alleles and 18 genotypes of TH01 locus were observed. CONCLUSION: The satisfactory results demonstrate that multiplex amplification of CSF1PO, TPOX and TH01 is sensitive and the old stain of a drop of blood is sufficient for such amplification.     

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.     

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.     

Quantitative trait locus mapping of human blood pressure to a genetic region at or near the lipoprotein lipase gene locus on chromosome 8p22

Resistance to insulin-mediated glucose disposal is a common finding in patients with non-insulin-dependent diabetes mellitus (NIDDM), as well as in nondiabetic individuals with hypertension. In an effort to identify the generic loci responsible for variations in blood pressure in individuals at increased risk of insulin resistance, we studied the distribution of blood pressure in 48 Taiwanese families with NIDDM and conducted quantitative sib-pair linkage analysis with candidate loci for insulin resistance, lipid metabolism, and blood pressure control. We found no evidence for linkage of the angiotensin converting enzyme locus on chromosome 17, nor the angiotensinogen and renin loci on chromosome 1, with either systolic or diastolic blood pressures. In contrast, we obtained significant evidence for linkage or systolic blood pressure, but not diastolic blood pressure, to a genetic region at or near the lipoprotein lipase (LPL) locus on the short arm of chromosome 8 (P = 0.002, n = 125 sib-pairs, for the haplotype generated from two simple sequence repeat markers within the LPL gene). Further strengthening this linkage observation, two flanking marker loci for LPL locus, D8S261 (9 cM telomeric to LPL locus) and D8S282 (3 cM centromeric to LPL locus), also showed evidence for linkage with systolic blood pressure (P = 0.02 and 0.0002 for D8S261 and D8S282, respectively). Two additional centromeric markers (D8S133, 5 cM from LPL locus, and NEFL, 11 cM from LPL locus) yielded significant P values of 0.01 and 0.001, respectively. Allelic variation around the LPL gene locus accounted for as much as 52-73% of the total interindividual variation in systolic blood pressure levels in this data set. Thus, we have identified a genetic locus at or near the LPL gene locus which contributes to the variation of systolic blood pressure levels in nondiabetic family members at high risk for insulin resistance and NIDDM.     

A monoclonal antibody to the ligand-binding domain of the neurokinin 1 receptor (NK1-R) for the neuropeptide substance P

For PCR-based genotyping using polymorphic microsatellite markers, DNA from decomposed postmortem human tissues was fractionated into six groups according to molecular size. The minimum required amounts of this degraded DNA, for detecting alleles at five microsatellite loci (ACTBP2, CMAG, HUMTH01, CYP19, and LPL) and one minisatellite locus (MCT118) were investigated respectively. The allele patterns were detected by electrophoresis of the PCR products on a 6%-denaturing polyacrylamide gel following silver staining. The detection of alleles for the loci with large allele size required more template DNA with higher molecular size than for that with small allele size. Amounts from 0.3 ng to 5 ng were needed for allele detection on genomic DNA from fresh blood. When the decomposed DNA mixture was used as the template, approximately ten times the amount of genomic DNA was required to detect alleles at the three loci of LPL, CYP19 and HUMTH01, while 24 to 67 times was required for the loci, CMAG, ACTBP2 and MCT118. It was demonstrated that a minimum molecular, size and amount of template DNA was needed for amplifying alleles of the six loci, and degraded DNA less than minimum size in the samples would prevent the detection of the loci which have large allele size.     

Distribution of D1S80 alleles in the Jordanian population

This study demonstrates that the locus D1S80 is highly polymorphic, with 24 different alleles and 66 genotypes in 215 Jordanians. This data set conforms to Hardy-Weinberg expectations(HWE).