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MZ Twins (mz + twin)

Distribution by Scientific Domains
Medical Sciences45%
Life Sciences45%

Terms modified by MZ Twins

  • mz twin pair
    		•

    Selected Abstracts

    Gender differences in genetic and environmental influences on gambling: results from a sample of twins from the National Longitudinal Study of Adolescent Health

    ADDICTION, Issue 3 2010
    Kevin M. Beaver
    ABSTRACT Aims To examine the extent to which genetic factors and shared and non-shared environmental factors are implicated in the development of gambling behaviors and to examine whether there are gender differences in the genetic and environmental contributors to gambling behaviors. Design A genetically informative analysis was performed by using DeFries,Fulker (DF) analysis. Setting Analysis of secondary data drawn from the National Longitudinal Study of Adolescent Health (Add Health). Participants A total of 324 monozygotic (MZ) twins and 278 same-sex dizygotic (DZ) twins were included in the analysis. Of these twins, there were 150 male MZ twins, 144 male DZ twins, 174 female MZ twins and 134 female DZ twins. Measurements Gambling behavior was measured through eight self-reported questions that tapped a range of items designed to measure problems related to gambling. Self-reported measures of self-control and delinquent involvement were also included to examine the degree to which these factors covaried with gambling behavior. Findings The results of the DF analysis indicated that when male and female twin pairs were analyzed simultaneously, genetic factors explained approximately 70% of the variance in gambling and non-shared environmental factors explained the remaining variance. When gender-specific models were calculated, substantial gender differences emerged. For males, genetic factors explained approximately 85% of the variance in gambling, with the non-shared environment accounting for the remaining variance. For females, genetic factors explained none of the variance in gambling behaviors, while the shared environment explained 45% of the variance and the non-shared environment explained 55% of the variance. Conclusions Analysis of twins from the Add Health data suggests that there are significant gender differences in the genetic and environmental underpinnings to gambling behaviors. [source]

    Gene expression analysis in absence epilepsy using a monozygotic twin design

    EPILEPSIA, Issue 9 2008
    Ingo Helbig
    Summary Purpose: To identify genes involved in idiopathic absence epilepsies by analyzing gene expression using a monozygotic (MZ) twin design. Methods: Genome-wide gene expression in lymphoblastoid cell lines (LCLs) was determined using microarrays derived from five discordant and four concordant MZ twin pairs with idiopathic absence epilepsies and five unaffected MZ twin pairs. Gene expression was analyzed using three strategies: discordant MZ twins were compared as matched pairs, MZ twins concordant for epilepsy were compared to control MZ twins, and a singleton design of affected versus unaffected MZ twin individuals was used irrespective of twin pairing. An overlapping gene list was generated from these analyses. Dysregulation of genes recognized from the microarray experiment was validated using quantitative real time PCR (qRT-PCR) in the twin sample and in an independent sample of 18 sporadic absence cases and 24 healthy controls. Results: Sixty-five probe sets were identified from the three combined microarray analysis strategies. Sixteen genes were chosen for validation and nine of these genes confirmed by qRT-PCR in the twin sample. Differential expression for EGR1 (an immediate early gene) and RCN2 (coding for the calcium-binding protein Reticulocalbin 2) were reconfirmed by qRT-PCR in the independent sample. Discussion: Using a unique sample of discordant MZ twins, our study identified genes with altered expression, which suggests novel mechanisms in idiopathic absence epilepsy. Dysregulation of EGR1 and RCN2 is implicated in idiopathic absence epilepsy. [source]

    Identification of monozygous twins and microsatellite mutation rate in pigs from QTL linkage analysis data

    JOURNAL OF ANIMAL BREEDING AND GENETICS, Issue 5 2001
    L. Grapes
    In previous work, microsatellite markers have primarily been tools for genome studies. However, the use of marker data can be extended beyond its original intent to maximize the amount of information obtained. There have been few studies to determine the occurrence of monozygous (MZ) twins in pigs. The advent of DNA marker technology, and microsatellites in particular, allows MZ twins to be identified based on their genotype data. To determine if MZ twin births occur in pigs, genotypes for F2 individuals, n=525, from 65 Berkshire × Yorkshire families were examined. One pair of female twins was found to have matching genotype data (95% CI: 0,2.94 twins). This is a unique result since there have been no published reports to date of twin pigs that survived until birth. Additionally, three dinucleotide microsatellite mutations were found after screening 134 565 meioses of 125 loci spanning the entire genome and the X chromosome. The average mutation rate for the population, n=570, was 2.23 × 10,5 (95% CI: 6.17 × 10,6,6.51 × 10,5). A mutation rate similar to this was published earlier for dinucleotide repeat microsatellite mutations in swine. Identification de jumeaux monozygotes et taux de mutation des microsatellites à partir de données d, analyse de liaison avec des caractères quantitatifs Jusqu'à présent, les marqueurs microsatelittes ont été principalement utilisés comme outils pour étudier le génome. Cependant, l'utilisation des données de marquage peut être étendue au delà de ce but initial et permet d'obtenir d'autres types d'informations. Au cours des dernières années, il n'y a eu que peu d'études visant à determiner l'existence de jumeaux monozygotes (MZ) chez le porc. L'avènement des techniques de marquage de l'ADN, et plus particulièrement des microsatelittes, permet l'identification de jumeaux MZ sur la base de leur génotype aux marqueurs. Afin de déterminer s'il existe des jumeaux MZ chez le porc, nous avons examiné les génotypes d'individus F2 (n=525) issus de 65 familles Berkshire × Yorkshire. La recherche d'individus ayant un genotype identique a permis d'identifer un couple de jumeaux femelles (95% CI: 0,2.94). Il s'agit d'un résultat unique car jusqu'à ce jour, il n'y avait aucun cas publié de jumeaux ayant survécus après la naissance chez le porc. Par ailleurs, après analyse de 134 565 méioses pour 125 loci répartis sur l'ensemble du génome et sur le chromosome X, 3 mutations ont été trouvées au niveau de microsatelittes dinucleotidiques. Le taux moyen de mutation dans la population (n=570) a été estiméà 2.23 × 10,5 (95% IC: 6.17 × 10,6à 6.51 × 10,5). Un taux de mutation similaire à celui-ci a été publié précédemment pour des marqueurs microsatelittes dinucleotidiques chez le porc. [source]

    Monozygotic twins are discordant for chronic periodontitis: clinical and bacteriological findings

    JOURNAL OF CLINICAL PERIODONTOLOGY, Issue 2 2010
    Gaudy L. Torres de Heens
    Torres de Heens GL, Loos BG, van der Velden U. Monozygotic twins are discordant for chronic periodontitis: clinical and bacteriological findings. J Clin Periodontol 2010; 37: 120,128. doi: 10.1111/j.1600-051X.2009.01511.x. Abstract Objectives: The aim of this study was to assess, in monozygotic (MZ) and dizygotic (DZ) twin pairs in whom the proband of the twin pair was suffering from moderate to severe chronic periodontitis, the contribution of genetics, periodontal pathogens and lifestyle factors towards the clinical phenotype. Material and Methods: For this study, 18 adult twin pairs were selected on the basis of interproximal attachment loss (AL) 5 mm in 2 non-adjacent teeth in one twin member. The study included 10 MZ and eight DZ twin pairs, in whom the periodontal condition, presence of periodontal pathogens, educational level, smoking behaviour and body mass index (BMI) were evaluated. Results: Both MZ and DZ twins were discordant regarding AL and alveolar bone loss. Discordance was greater in DZ compared with MZ twins. In MZ twins, the discordance could not be explained by education, smoking, BMI and periodontal pathogens. In DZ twins, 45.6% of the discordance could be explained by more pack-years of the probands. Conclusion: The results confirm a possible role of genetic factors in periodontitis. However, the magnitude of the genetic effects on disease severity may have been overestimated previously. [source]

    The relative lengths of individual telomeres are defined in the zygote and strictly maintained during life

    AGING CELL, Issue 3 2004
    Jesper Graakjaer
    Summary Previous studies have indicated that average telomere length is partly inherited (Slagboom et al., 1994; Rufer et al., 1999) and that there is an inherited telomere pattern in each cell (Graakjaer et al., 2003); (Londoño-Vallejo et al., 2001). In this study, we quantify the importance of the initially inherited telomere lengths within cells, in relation to other factors that influence telomere length during life. We have estimated the inheritance by measuring telomere length in monozygotic (MZ) twins using Q-FISH with a telomere specific peptide nucleic acid (PNA)-probe. Homologous chromosomes were identified using subtelomeric polymorphic markers. We found that identical homologous telomeres from two aged MZ twins show significantly less differences in relative telomere length than when comparing the two homologues within one individual. This result means that towards the end of life, individual telomeres retain the characteristic relative length they had at the outset of life and that any length alteration during the lifespan impacts equally on genetically identical homologues. As the result applies across independent individuals, we conclude that, at least in lymphocytes, epigenetic/environmental effects on relative telomere length are relatively minor during life. [source]

    The genetics of twinning: From splitting eggs to breaking paradigms,

    AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 2 2009
    Natasha Shur
    Abstract Over the last decades, there has been a twin boom in terms of live births. Meanwhile, new insights into the genetics of twinning have changed major paradigms. The first major paradigm is that monozygotic (MZ) twins are identical. The second is that twins are either MZ or dizygotic (DZ). The third is that MZ twins happen by chance alone. We have discovered striking epigenetic and other differences between seemingly alike individuals; the presence of fascinating intermediate twin forms; and the potential for familial MZ twinning and even a twinning gene. As this article discusses, the aforementioned paradigm shifts have influenced novel research directions and improved clinical approaches to twin-management. © 2009 Wiley-Liss, Inc. [source]

    Non-identical monozygotic twins, intermediate twin types, zygosity testing, and the non-random nature of monozygotic twinning: A review,

    AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 2 2009
    Geoffrey Machin
    Abstract Monozygotic twins (MZ) are rarely absolutely "identical." This review discusses the types of genetic/epigenetic and prenatal environmental post-zygotic mechanisms that cause discordance within such twin pairs. Some of these mechanisms,ranging from heterokaryotypia to skewed X-chromosome inactivation,may cause extreme discordance, but these extremes are merely the more emphatic examples of discordance that, to some degree, underlies the majority of MZ twin pairs. Because of the entrenched misconception that MZ twins are necessarily identical, many MZ twin pairs are mistakenly designated as dizygotic (DZ). Clinical benefits to accurate zygosity determination include correct solid organ transplantation matching, if one twin requires donation for a non-genetically mediated disease; the opportunity of preventive management for disorders that do not manifest synchronously; and better counseling to parents regarding their individually unique, and often psychologically puzzling, twin offspring. In twin pairs with complex and confusing biological origins, more detailed zygosity testing may be required. For example, intermediate trigametic and tetragametic chimeric dizygotic twins are reviewed, some of whom are, nevertheless, monochorionic (MC). Because of inter-fetal vascular anastomoses in MC twins, genetic results from blood samples may not accurately reflect discordance in solid organs. Previously, it was thought that MZ twinning was some sort of embryological fluke. However, familial monozygotic twinning is more common than suggested by the literature. Seven new families are presented in an accompanying paper. Despite the difficulties and dangers of twin pregnancy (especially so for MC twins), human twinning persists, and continues to both challenge and fascinate parents, clinicians and geneticists. © 2009 Wiley-Liss, Inc. [source]

    Not really identical: Epigenetic differences in monozygotic twins and implications for twin studies in psychiatry,

    AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 2 2009
    F. Nipa Haque
    Abstract Classical twin studies in the field of psychiatry generally fall into one of two categories: (1) those designed to identify environmental risk factors causing discordance in monozygotic (MZ) twins and (2) those geared towards identifying genetic risk factors. However, neither environment nor differences in DNA sequence can fully account for phenotypic discordance among MZ twins. The field of epigenetics , DNA modifications that can affect gene expression , offers new models to understand discordance in MZ twins. In the past, MZ twins were regarded as genetically-identical controls for differing environmental conditions. In contrast, the evolving current concept is that epigenetic differences between MZ twins may modulate differences in diverse phenotype, from disease to personality. In this article, we review some twin studies, and discuss the dynamic interactions between stochastic, environmental, and epigenetic variables that influence neurobiological phenotypes. © 2009 Wiley-Liss, Inc. [source]

    Monochorionic-diamniotic twins discordant in gender from a naturally conceived pregnancy through postzygotic sex chromosome loss in a 47,XXY zygote

    PRENATAL DIAGNOSIS, Issue 8 2008
    Nicolas H. Zech
    Abstract Objective It is generally believed that monochorionic-diamniotic twin pregnancies result from one fertilized oocyte with both siblings having the same genotype and phenotype. In rare instances, due to somatic mutations or chromosome aberrations, the karyotypes and phenotypes of the two twins can differ. Method We report cytogenetic, molecular genetic and clinical examinations in monochorionic-diamniotic twins discordant in gender. Results The monochorionic-diamniotic status of the twins was diagnosed by ultrasound and histologic examination of the placenta. Prenatal chromosome examination performed on amniocytes revealed a normal female karyotype in one and a 46,XX(26)/46,XY(3) karyotype in the other twin. Molecular examinations confirmed monozygosity despite discordant sex. Based on the cytogenetic and molecular results of lymphocytes and placental cells, the only explanation for gender discordance was that the conceptus originally had a 47,XXY chromosome complement. Conclusion A 47,XXY zygote appears to have undergone a twinning process. A postzygotic loss of the X chromosome in some cells and the Y chromosome in other cells, either before or after twinning, resulted in 46,XX/46,XY mosaicism in both monozygotic (MZ) twins. The sex discordance of the MZ twins can be explained by different proportions of the 46,XX and 46,XY cell lines in the gonads and other tissues. Copyright © 2008 John Wiley & Sons, Ltd. [source]

    Heritability of different measures of smooth pursuit eye tracking dysfunction: A study of normal twins

    PSYCHOPHYSIOLOGY, Issue 6 2000
    Joanna Katsanis
    Research studies have found that smooth pursuit eye movement dysfunction may serve as an index of genetic liability to develop schizophrenia. The heritability of various measures of smooth pursuit eye tracking proficiency and the saccades that occur during smooth pursuit was examined in 64 monozygotic (MZ) and 48 dizygotic (DZ) twin pairs. Two age cohorts were assessed (11,12 and 17,18 years of age). Intraclass correlations indicated significant similarity in the MZ twins for almost all measures in both age cohorts, whereas few of the DZ twin correlations attained significance. Biometrical modeling indicated that genetic mechanisms influence performance on both global and specific eye tracking measures, accounting for about 40% to 60% of the variance. These findings suggest that the underlying brain systems responsible for smooth pursuit and saccade generation during pursuit are under partial genetic control. [source]