Clinal patterns of autosomal genetic diversity within Europe have been interpreted in previous studies in terms of a Neolithic demic diffusion model for the spread of agriculture; in contrast, studies using mtDNA have traced many founding lineages to the Paleolithic and have not shown strongly clinal variation. We have used 11 human Y-chromosomal biallelic polymorphisms, defining 10 haplogroups, to analyze a sample of 3,616 Y chromosomes belonging to 47 European and circum-European populations. Patterns of geographic differentiation are highly nonrandom, and, when they are assessed using spatial autocorrelation analysis, they show significant clines for five of six haplogroups analyzed. Clines for two haplogroups, representing 45% of the chromosomes, are continentwide and consistent with the demic diffusion hypothesis. Clines for three other haplogroups each have different foci and are more regionally restricted and are likely to reflect distinct population movements, including one from north of the Black Sea. Principal-components analysis suggests that populations are related primarily on the basis of geography, rather than on the basis of linguistic affinity. This is confirmed in Mantel tests, which show a strong and highly significant partial correlation between genetics and geography but a low, nonsignificant partial correlation between genetics and language. Genetic-barrier analysis also indicates the primacy of geography in the shaping of patterns of variation. These patterns retain a strong signal of expansion from the Near East but also suggest that the demographic history of Europe has been complex and influenced by other major population movements, as well as by linguistic and geographic heterogeneities and the effects of drift.
The trials performed worldwide towards Non-Invasive Prenatal Diagnosis (NIPD) of Down syndrome (or Trisomy 21) have demonstrated the great commercial and medical potential of NIPD compared to the currently used invasive prenatal diagnostic procedures. Extensive investigation of methylation differences between the mother and the fetus has led to the identification of Differentially Methylated Regions (DMRs). In this study, we present a strategy using the Methylated DNA immunoprecipitation (MeDiP) methodology in combination with real-time qPCR to achieve fetal chromosome dosage assessment which can be performed non-invasively through the analysis of fetal-specific DMRs. We achieved non-invasive prenatal detection of trisomy 21 by determining the methylation ratio of normal and trisomy 21 cases for each tested fetal-specific DMR present in maternal peripheral blood, followed by further statistical analysis. The application of the above fetal-specific methylation ratio approach provided correct diagnosis of 14 trisomy 21 and 26 normal cases. Down Syndrome (or Trisomy 21) (OMIM190685) is considered to be the most frequent etiology of mental retardation with an incidence of 1 in 700 child births in all populations worldwide 1 . Prenatal genetic diagnosis of trisomy 21 is currently performed using conventional cytogenetic or DNA analyses, which require fetal genetic material to be obtained by amniocentesis, chorionic villus sampling or cordocentesis. However, the above procedures are invasive and are associated with a considerable risk of fetal loss 1 . Therefore, there is a need for the development of Non-Invasive Prenatal Diagnostic (NIPD) strategies.Correspondence should be addressed to P.C.P. (patsalis@cing.ac.cy). Author contributions: E.A.P. and E.T. have carried out the experiments. E.A.P. has written the manuscript. E.A.P. and A.K. performed the statistical analysis. E.T. and V.V. have collected the majority of the samples in this study. P.C.P. was the principal investigator and has supervised the project. All authors reviewed, critiqued and offered comments to the text.Competing financial interest: P.C.P. and E.A.P. declare conflict of interest as they have filed a U.S. provisional patent for the approach (Application No. 61/405,421 We have selected a subset of DMRs on chromosome 21 and we have applied the MeDiP methodology in combination with real-time qPCR in normal and trisomy 21 cases. To provide chromosome dosage information, the ffDNA has to be hypermethylated compared to the maternal DNA. This is essential to achieve fetal-specific methylation enrichment which is the key element in our study. We hypothesize that we would be able to discriminate normal from trisomy 21 cases by comparing the ratio values obtained from normal and trisomy 21 cases using fetal-specific methylated regions located on chromosome 21 (fetalspecific methylation ratio approach) ( Fig. 1). Furthermore, we hypothesize that a combination of DMRs and not a single DMR may be able to give an accurate NIPD of normal and trisomy 21...
Array-based whole genome investigation or molecular karyotyping enables the genome-wide detection of submicroscopic imbalances. Proof-of-principle experiments have demonstrated that molecular karyotyping outperforms conventional karyotyping with regard to detection of chromosomal imbalances. This article identifies areas for which the technology seems matured and areas that require more investigations. Molecular karyotyping should be part of the genetic diagnostic work-up of patients with developmental disorders. For the implementation of the technique for other constitutional indications and in prenatal diagnosis, more research is appropriate. Also, the article aims to provide best practice guidelines for the application of array comparative genomic hybridisation to ensure both technical and clinical quality criteria that will optimise and standardise results and reports in diagnostic laboratories. In short, both the specificity and the sensitivity of the arrays should be evaluated in every laboratory offering the diagnostic test. Internal and external quality control programmes are urgently needed to evaluate and standardise the test results between laboratories.
There is a group of inherited cystic nephropathies that are characterized by juvenile onset recessive inheritance (familial juvenile nephronophthisis, FJN) or by adult onset dominant inheritance (medullary cystic disease, MCD) and share similar clinico-pathological presentation to the extent that they are usually grouped together under the term FJN/MCD complex. The main symptoms consist of renal cyst formation in the medulla or the corticomedullary junction and salt wasting. Although earlier reports had suggested that one single gene may be responsible for this pathology, recent reports have shown that the FJN complex itself comprises a genetically heterogeneous group. Here we are presenting two large Cypriot families that segregate autosomal dominant medullary cystic kidney disease (ADMCKD) with hyperuricemia and gout and with very late age of onset (mean 62.2 and 51.5 years). We performed DNA linkage mapping using highly polymorphic microsatellite markers and found linkage to marker locus D1S1595 at 1q21 with a two-point lod score of 6.45 at Theta = 0.00. Analysis of haplotypes and of critical recombinants enabled confinement of the disease locus within an approximately 8 cM region between marker loci D1S498 and D1S2125. FISH mapping with a large P1 clone confirmed the physical localization within 1q21. The two families share the same disease haplotype, thus suggesting their relationship through a common ancestor and the possible existence of a single ADMCKD-causing mutation within these families. To our knowledge this is the first genetic locus identified to cause FJN/MCD pathology of the dominant adult type.
Cryptic genomic imbalances in patients with de novo or familial apparently balanced translocations and abnormal phenotype
BackgroundCarriers of apparently balanced translocations are usually phenotypically normal; however in about 6% of de novo cases, an abnormal phenotype is present. In the current study we investigated 12 patients, six de novo and six familial, with apparently balanced translocations and mental retardation and/or congenital malformations by applying 1 Mb resolution array-CGH. In all de novo cases, only the patient was a carrier of the translocation and had abnormal phenotype. In five out of the six familial cases, the phenotype of the patient was abnormal, although the karyotype appeared identical to other phenotypically normal carriers of the family. In the sixth familial case, all carriers of the translocations had an abnormal phenotype.ResultsChromosomal and FISH analyses suggested that the rearrangements were "truly balanced" in all patients. However, array-CGH, revealed cryptic imbalances in three cases (3/12, 25%), two de novo (2/12, 33.3%) and one familial (1/12, 16.6%). The nature and type of abnormalities differed among the cases. In the first case, what was identified as a de novo t(9;15)(q31;q26.1), a complex rearrangement was revealed involving a ~6.1 Mb duplication on the long arm of chromosome 9, an ~10 Mb deletion and an inversion both on the long arm of chromosome 15. These imbalances were located near the translocation breakpoints. In the second case of a de novo t(4;9)(q25;q21.2), an ~6.6 Mb deletion was identified on the short arm of chromosome 7 which is unrelated to the translocation. In the third case, of a familial, t(4;7)(q13.3;p15.3), two deletions of ~4.3 Mb and ~2.3 Mb were found, each at one of the two translocation breakpoints. In the remaining cases the translocations appeared balanced at 1 Mb resolution.ConclusionThis study investigated both de novo and familial apparently balanced translocations unlike other relatively large studies which are mainly focused on de novo cases. This study provides additional evidence that cryptic genomic imbalances are common in patients with abnormal phenotype and "apparently balanced" translocations not only in de novo but can also occur in familial cases. The use of microarrays with higher resolution such as oligo-arrays may reveal that the frequency of cryptic genomic imbalances among these patients is higher.
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