A genome scan in multigenerational families with dyslexia: Identification of a novel locus on chromosome 2q that contributes to phonological decoding efficiency

Dyslexia is a common and complex developmental disorder manifested by unexpected difficulty in learning to read. Multiple different measures are used for diagnosis, and may reflect different biological pathways related to the disorder. Impaired phonological decoding (translation of written words without meaning cues into spoken words) is thought to be a core deficit. We present a genome scan of two continuous measures of phonological decoding ability: phonemic decoding efficiency (PDE) and word attack (WA). PDE measures both accuracy and speed of phonological decoding, whereas WA measures accuracy alone. Multipoint variance component linkage analyses (VC) and Markov chain Monte-Carlo (MCMC) multipoint joint linkage and segregation analyses were performed on 108 families. A strong signal was observed on chromosome 2 for PDE using both VC (LOD=2.65) and MCMC methods (intensity ratio (IR)=32.1). The IR is an estimate of the ratio of the posterior to prior probability of linkage in MCMC analysis. The chromosome 2 signal was not seen for WA. More detailed mapping with additional markers provided statistically significant evidence for linkage of PDE to chromosome 2, with VC-LOD=3.0 and IR=59.6 at D2S1399. Parametric analyses of PDE, using a model obtained by complex segregation analysis, provided a multipoint maximum LOD=2.89. The consistency of results from three analytic approaches provides strong evidence for a locus on chromosome 2 that influences speed but not accuracy of phonological decoding.

[1]  K. Stanovich,et al.  Phenotypic performance profile of children with reading disabilities: A regression-based test of the phonological-core variable-difference model. , 1994 .

[2]  M. Hamshere,et al.  Family-based association mapping provides evidence for a gene for reading disability on chromosome 15q. , 2000, Human molecular genetics.

[3]  S. Fisher,et al.  Developmental dyslexia: genetic dissection of a complex cognitive trait , 2002, Nature Reviews Neuroscience.

[4]  D W Fulker,et al.  Quantitative trait locus for reading disability: correction. , 1995, Science.

[5]  Ellen M Wijsman,et al.  Joint oligogenic segregation and linkage analysis using bayesian Markov chain Monte Carlo methods , 2004, Molecular biotechnology.

[6]  Sandra A. Smith,et al.  Evidence for major gene transmission of developmental dyslexia. , 1991, JAMA.

[7]  S E Hodge,et al.  The power to detect linkage in complex disease by means of simple LOD-score analyses. , 1998, American journal of human genetics.

[8]  L. Hogben NATURE AND NURTURE , 1934 .

[9]  E. Wijsman,et al.  Segregation analysis of phenotypic components of learning disabilities. I. Nonword memory and digit span. , 2000, American journal of human genetics.

[10]  J Blangero,et al.  Statistical properties of a variance components method for quantitative trait linkage analysis in nuclear families and extended pedigrees , 1997, Genetic epidemiology.

[11]  S. Heath Markov chain Monte Carlo segregation and linkage analysis for oligogenic models. , 1997, American journal of human genetics.

[12]  L. Katz,et al.  Subtypes of reading disability: Variability around a phonological core. , 1998 .

[13]  N Risch,et al.  Model misspecification and multipoint linkage analysis. , 1992, Human heredity.

[14]  M. Snowling From language to reading and dyslexia. , 2001, Dyslexia.

[15]  T. Petryshen,et al.  Evidence for a susceptibility locus on chromosome 6q influencing phonological coding dyslexia. , 2001, American journal of medical genetics.

[16]  C I Amos,et al.  Guess LOD approach: Sufficient conditions for robustness , 1995, Genetic epidemiology.

[17]  J. Lamb,et al.  A quantitative-trait locus on chromosome 6p influences different aspects of developmental dyslexia. , 1999, American journal of human genetics.

[18]  N. Schork,et al.  Testing the robustness of the likelihood-ratio test in a variance-component quantitative-trait loci-mapping procedure. , 1999, American journal of human genetics.

[19]  Heikki Lyytinen,et al.  Heterogeneity in adult dyslexic readers: Relating processing skills to the speed and accuracy of oral text reading , 2001 .

[20]  L. Joseph 4. Bayesian data analysis (2nd edn). Andrew Gelman, John B. Carlin, Hal S. Stern and Donald B. Rubin (eds), Chapman & Hall/CRC, Boca Raton, 2003. No. of pages: xxv + 668. Price: $59.95. ISBN 1‐58488‐388‐X , 2004 .

[21]  B. Pennington,et al.  Specific reading disability: identification of an inherited form through linkage analysis. , 1983, Science.

[22]  D. Gudbjartsson,et al.  A high-resolution recombination map of the human genome , 2002, Nature Genetics.

[23]  Nonie K. Lesaux,et al.  Persistence of Phonological Processing Deficits in College Students with Dyslexia Who Have Age-Appropriate Reading Skills , 2001, Journal of learning disabilities.

[24]  David B. Dunson,et al.  Bayesian Data Analysis , 2010 .

[25]  Virginia W. Berninger,et al.  Dyslexia the Invisible, Treatable Disorder: the Story of Einstein's Ninja Turtles , 2000 .

[26]  E. Grigorenko,et al.  Chromosome 6p influences on different dyslexia-related cognitive processes: further confirmation. , 2000, American journal of human genetics.

[27]  D. Geschwind,et al.  Neurobehavioral phenotype of Klinefelter syndrome. , 2000, Mental retardation and developmental disabilities research reviews.

[28]  D. Schaid,et al.  Incidence of reading disability in a population-based birth cohort, 1976-1982, Rochester, Minn. , 2001, Mayo Clinic proceedings.

[29]  L. Almasy,et al.  Robust LOD scores for variance component‐based linkage analysis , 2000, Genetic epidemiology.

[30]  Lon R. Cardon,et al.  Independent genome-wide scans identify a chromosome 18 quantitative-trait locus influencing dyslexia , 2002, Nature Genetics.

[31]  D. Spinelli,et al.  Markers of developmental surface dyslexia in a language (Italian) with high grapheme–phoneme correspondence , 1999, Applied Psycholinguistics.

[32]  K. Landerl Word recognition deficits in German: more evidence from a representative sample. , 2001, Dyslexia.

[33]  S. Cichon,et al.  Evidence for linkage of spelling disability to chromosome 15. , 1998, American journal of human genetics.

[34]  E. Wijsman,et al.  Linkage analyses of four regions previously implicated in dyslexia: Confirmation of a locus on chromosome 15q , 2004, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[35]  Rachelle M. Bruno,et al.  Comprehensive Test of Phonological Processing (CTOPP) , 1999 .

[36]  E. Grigorenko,et al.  Linkage studies suggest a possible locus for developmental dyslexia on chromosome 1p. , 2001, American journal of medical genetics.

[37]  A A Schäffer,et al.  Faster sequential genetic linkage computations. , 1993, American journal of human genetics.

[38]  K. Liang,et al.  Asymptotic Properties of Maximum Likelihood Estimators and Likelihood Ratio Tests under Nonstandard Conditions , 1987 .

[39]  G. C. Orden,et al.  Phonological processing skills and deficits in adult dyslexics. , 1990, Child development.

[40]  I B Borecki,et al.  Exploring genetic analysis of complex traits through the paradigm of alcohol dependence: Summary of GAW11 contributions , 1999, Genetic epidemiology.

[41]  Kung-Yee Liang,et al.  Ascertainment adjustment in complex diseases , 2002, Genetic epidemiology.

[42]  R. Wagner,et al.  The nature of phonological processing and its causal role in the acquisition of reading skills. , 1987 .

[43]  E. Wijsman,et al.  Modeling Phonological Core Deficits Within a Working Memory Architecture in Children and Adults With Developmental Dyslexia , 2006 .

[44]  T. Petryshen,et al.  Confirmation of a dyslexia susceptibility locus on chromosome 1p34‐p36 in a set of 100 Canadian families , 2004, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[45]  M. Bruck Word-Recognition Skills of Adults with Childhood Diagnoses of Dyslexia. , 1990 .

[46]  E Feingold,et al.  Composite statistics for QTL mapping with moderately discordant sibling pairs. , 2000, American journal of human genetics.

[47]  Timo Ahonen,et al.  A dominant gene for developmental dyslexia on chromosome 3 , 2001, Journal of medical genetics.

[48]  D. Francis,et al.  Persistence of dyslexia: the Connecticut Longitudinal Study at adolescence. , 1999, Pediatrics.

[49]  H Wimmer,et al.  The nonword reading deficit in developmental dyslexia: evidence from children learning to read German. , 1996, Journal of experimental child psychology.

[50]  D. R. Smith,et al.  CHAPTER 6 – Wechsler Individual Achievement Test , 2001 .

[51]  D. Geschwind,et al.  Neuropsychological profiles of adults with Klinefelter syndrome. , 2000, Journal of the International Neuropsychological Society : JINS.

[52]  L. Almasy,et al.  Multipoint quantitative-trait linkage analysis in general pedigrees. , 1998, American journal of human genetics.

[53]  E L Grigorenko,et al.  Susceptibility loci for distinct components of developmental dyslexia on chromosomes 6 and 15. , 1997, American journal of human genetics.

[54]  C. Amos Robust variance-components approach for assessing genetic linkage in pedigrees. , 1994, American journal of human genetics.

[55]  G. Bonney,et al.  Regressive logistic models for familial disease and other binary traits. , 1986, Biometrics.

[56]  M. Bruck Word Recognition and Component Phonological Processing Skills of Adults with Childhood Diagnosis of Dyslexia , 1993 .

[57]  Judith M. Treloar Wechsler Individual Achievement Test (WIAT) , 1994 .

[58]  C I Amos,et al.  Genetic linkage methods for quantitative traits , 2001, Statistical methods in medical research.

[59]  Simon E Fisher,et al.  Use of multivariate linkage analysis for dissection of a complex cognitive trait. , 2003, American journal of human genetics.

[60]  S. Heath,et al.  Genome Scans for Q1 and Q2 on General Population Replicates Using Loki , 2001, Genetic epidemiology.

[61]  Virginia W. Berninger,et al.  Language Phenotype for Reading and Writing Disability: A Family Approach , 2001 .

[62]  C. Bonaïti‐pellié,et al.  Effects of misspecifying genetic parameters in lod score analysis. , 1986, Biometrics.

[63]  C. Woolger,et al.  Wechsler Intelligence Scale for Children-Third Edition (wisc-iii) , 2001 .

[64]  D W Fulker,et al.  Quantitative trait locus for reading disability on chromosome 6. , 1994, Science.

[65]  G. Abecasis,et al.  Merlin—rapid analysis of dense genetic maps using sparse gene flow trees , 2002, Nature Genetics.

[66]  E. Conrad,et al.  Loss of heterozygosity in chondrosarcomas for markers linked to hereditary multiple exostoses loci on chromosomes 8 and 11. , 1995, American journal of human genetics.

[67]  G. Jarvik,et al.  Complex segregation analyses: uses and limitations. , 1998, American journal of human genetics.

[68]  B. Pennington,et al.  Familial dyslexia: use of genetic linkage data to define subtypes. , 1990, Journal of the American Academy of Child and Adolescent Psychiatry.

[69]  L. de Haan,et al.  [Development of psychopathology]. , 2006, Tijdschrift voor psychiatrie.

[70]  E. Wijsman,et al.  Familial Aggregation of Dyslexia Phenotypes , 2000, Behavior genetics.

[71]  E A Thompson,et al.  MCMC segregation and linkage analysis , 1997, Genetic epidemiology.

[72]  M. Bruck Persistence of dyslexics' phonological awareness deficits. , 1992 .

[73]  L. Cardon,et al.  Quantitative-trait locus for specific language and reading deficits on chromosome 6p. , 1999, American journal of human genetics.

[74]  E. Wijsman Joint linkage and segregation analysis using Markov chain Monte Carlo methods. , 2002, Methods in molecular biology.

[75]  J. Fletcher,et al.  Prevalence of reading disability in boys and girls. Results of the Connecticut Longitudinal Study. , 1990, JAMA.

[76]  G. Hsiung,et al.  A dyslexia susceptibility locus (DYX7) linked to dopamine D4 receptor (DRD4) region on chromosome 11p15.5 , 2004, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[77]  F. Wood,et al.  Neuropsychological profile of adult dyslexics , 1990, Brain and Language.

[78]  F. Ramus,et al.  Theories of developmental dyslexia: insights from a multiple case study of dyslexic adults. , 2003, Brain : a journal of neurology.

[79]  J. Kere,et al.  A genome scan for developmental dyslexia confirms linkage to chromosome 2p11 and suggests a new locus on 7q32 , 2003, Journal of medical genetics.

[80]  B. Pennington The Development of Psychopathology: Nature and Nurture , 2002 .

[81]  H. Lubs,et al.  A new gene (DYX3) for dyslexia is located on chromosome 2 , 1999, Journal of medical genetics.

[82]  V. Virsu,et al.  Developmentally impaired processing speed decreases more than normally with age , 2002, Neuroreport.

[83]  Supportive evidence for the DYX3 dyslexia susceptibility gene in Canadian families , 2002, Journal of medical genetics.

[84]  S. Edelman A Review of the Wechsler Intelligence Scale for Children-Third Edition (WISC-III). , 1996 .

[85]  M. Snowling,et al.  Cognitive assessment of dyslexic students in higher education. , 2002, The British journal of educational psychology.

[86]  E. Wijsman,et al.  Segregation analysis of phenotypic components of learning disabilities. II. Phonological decoding , 2003, American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics.

[87]  M. Spence,et al.  Analysis of human genetic linkage , 1986 .

[88]  E. Wijsman,et al.  Multipoint oligogenic analysis of age-at-onset data with applications to Alzheimer disease pedigrees. , 1999, American journal of human genetics.