Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families

DDD study; Nadia Akawi; Jeremy McRae; Morad Ansari; Meena Balasubramanian; Moira Blyth; Angela F Brady; Stephen Clayton; Trevor Cole; Charu Deshpande; Tomas W Fitzgerald; Nicola Foulds; Richard Francis; George Gabriel; Sebastian S Gerety; Judith Goodship; Emma Hobson; Wendy D Jones; Shelagh Joss; Daniel King; Nikolai Klena; Ajith Kumar; Melissa Lees; Chris Lelliott; Jenny Lord; Dominic McMullan; Mary O'Regan; Deborah Osio; Virginia Piombo; Elena Prigmore; Diana Rajan; Elisabeth Rosser; Alejandro Sifrim; Audrey Smith; Ganesh J Swaminathan; Peter Turnpenny; James Whitworth; Caroline F Wright; Helen V Firth; Jeffrey C Barrett; Cecilia W Lo; David R FitzPatrick; Matthew E Hurles

doi:10.1038/ng.3410

Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families

DDD study, Nadia Akawi, Jeremy McRae, Morad Ansari, Meena Balasubramanian, Moira Blyth, Angela F Brady, Stephen Clayton, Trevor Cole, Charu Deshpande, Tomas W Fitzgerald, Nicola Foulds, Richard Francis, George Gabriel, Sebastian S Gerety, Judith Goodship, Emma Hobson, Wendy D Jones, Shelagh Joss, Daniel KingNikolai Klena, Ajith Kumar, Melissa Lees, Chris Lelliott, Jenny Lord, Dominic McMullan, Mary O'Regan, Deborah Osio, Virginia Piombo, Elena Prigmore, Diana Rajan, Elisabeth Rosser, Alejandro Sifrim, Audrey Smith, Ganesh J Swaminathan, Peter Turnpenny, James Whitworth, Caroline F Wright, Helen V Firth, Jeffrey C Barrett, Cecilia W Lo, David R FitzPatrick, Matthew E Hurles

Research output: Contribution to journal › Article › peer-review

Abstract

Discovery of most autosomal recessive disease-associated genes has involved analysis of large, often consanguineous multiplex families or small cohorts of unrelated individuals with a well-defined clinical condition. Discovery of new dominant causes of rare, genetically heterogeneous developmental disorders has been revolutionized by exome analysis of large cohorts of phenotypically diverse parent-offspring trios. Here we analyzed 4,125 families with diverse, rare and genetically heterogeneous developmental disorders and identified four new autosomal recessive disorders. These four disorders were identified by integrating Mendelian filtering (selecting probands with rare, biallelic and putatively damaging variants in the same gene) with statistical assessments of (i) the likelihood of sampling the observed genotypes from the general population and (ii) the phenotypic similarity of patients with recessive variants in the same candidate gene. This new paradigm promises to catalyze the discovery of novel recessive disorders, especially those with less consistent or nonspecific clinical presentations and those caused predominantly by compound heterozygous genotypes.

Original language	English
Pages (from-to)	1363-1369
Number of pages	7
Journal	Nature Genetics
Volume	47
Issue number	11
Early online date	5 Oct 2015
DOIs	https://doi.org/10.1038/ng.3410
Publication status	Published - Nov 2015

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10.1038/ng.3410

Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families
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DDD study, Akawi, N., McRae, J., Ansari, M., Balasubramanian, M., Blyth, M., Brady, A. F., Clayton, S., Cole, T., Deshpande, C., Fitzgerald, T. W., Foulds, N., Francis, R., Gabriel, G., Gerety, S. S., Goodship, J., Hobson, E., Jones, W. D., Joss, S., ... Hurles, M. E. (2015). Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families. Nature Genetics, 47(11), 1363-1369. https://doi.org/10.1038/ng.3410

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title = "Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families",

abstract = "Discovery of most autosomal recessive disease-associated genes has involved analysis of large, often consanguineous multiplex families or small cohorts of unrelated individuals with a well-defined clinical condition. Discovery of new dominant causes of rare, genetically heterogeneous developmental disorders has been revolutionized by exome analysis of large cohorts of phenotypically diverse parent-offspring trios. Here we analyzed 4,125 families with diverse, rare and genetically heterogeneous developmental disorders and identified four new autosomal recessive disorders. These four disorders were identified by integrating Mendelian filtering (selecting probands with rare, biallelic and putatively damaging variants in the same gene) with statistical assessments of (i) the likelihood of sampling the observed genotypes from the general population and (ii) the phenotypic similarity of patients with recessive variants in the same candidate gene. This new paradigm promises to catalyze the discovery of novel recessive disorders, especially those with less consistent or nonspecific clinical presentations and those caused predominantly by compound heterozygous genotypes.",

author = "{DDD study} and Nadia Akawi and Jeremy McRae and Morad Ansari and Meena Balasubramanian and Moira Blyth and Brady, {Angela F} and Stephen Clayton and Trevor Cole and Charu Deshpande and Fitzgerald, {Tomas W} and Nicola Foulds and Richard Francis and George Gabriel and Gerety, {Sebastian S} and Judith Goodship and Emma Hobson and Jones, {Wendy D} and Shelagh Joss and Daniel King and Nikolai Klena and Ajith Kumar and Melissa Lees and Chris Lelliott and Jenny Lord and Dominic McMullan and Mary O'Regan and Deborah Osio and Virginia Piombo and Elena Prigmore and Diana Rajan and Elisabeth Rosser and Alejandro Sifrim and Audrey Smith and Swaminathan, {Ganesh J} and Peter Turnpenny and James Whitworth and Wright, {Caroline F} and Firth, {Helen V} and Barrett, {Jeffrey C} and Lo, {Cecilia W} and FitzPatrick, {David R} and Hurles, {Matthew E}",

year = "2015",

month = nov,

doi = "10.1038/ng.3410",

language = "English",

volume = "47",

pages = "1363--1369",

journal = "Nature Genetics",

issn = "1061-4036",

publisher = "Nature Publishing Group",

number = "11",

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DDD study, Akawi, N, McRae, J, Ansari, M, Balasubramanian, M, Blyth, M, Brady, AF, Clayton, S, Cole, T, Deshpande, C, Fitzgerald, TW, Foulds, N, Francis, R, Gabriel, G, Gerety, SS, Goodship, J, Hobson, E, Jones, WD, Joss, S, King, D, Klena, N, Kumar, A, Lees, M, Lelliott, C, Lord, J, McMullan, D, O'Regan, M, Osio, D, Piombo, V, Prigmore, E, Rajan, D, Rosser, E, Sifrim, A, Smith, A, Swaminathan, GJ, Turnpenny, P, Whitworth, J, Wright, CF, Firth, HV, Barrett, JC, Lo, CW, FitzPatrick, DR & Hurles, ME 2015, 'Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families', Nature Genetics, vol. 47, no. 11, pp. 1363-1369. https://doi.org/10.1038/ng.3410

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AU - DDD study

AU - Akawi, Nadia

AU - McRae, Jeremy

AU - Ansari, Morad

AU - Balasubramanian, Meena

AU - Blyth, Moira

AU - Brady, Angela F

AU - Clayton, Stephen

AU - Cole, Trevor

AU - Deshpande, Charu

AU - Fitzgerald, Tomas W

AU - Foulds, Nicola

AU - Francis, Richard

AU - Gabriel, George

AU - Gerety, Sebastian S

AU - Goodship, Judith

AU - Hobson, Emma

AU - Jones, Wendy D

AU - Joss, Shelagh

AU - King, Daniel

AU - Klena, Nikolai

AU - Kumar, Ajith

AU - Lees, Melissa

AU - Lelliott, Chris

AU - Lord, Jenny

AU - McMullan, Dominic

AU - O'Regan, Mary

AU - Osio, Deborah

AU - Piombo, Virginia

AU - Prigmore, Elena

AU - Rajan, Diana

AU - Rosser, Elisabeth

AU - Sifrim, Alejandro

AU - Smith, Audrey

AU - Swaminathan, Ganesh J

AU - Turnpenny, Peter

AU - Whitworth, James

AU - Wright, Caroline F

AU - Firth, Helen V

AU - Barrett, Jeffrey C

AU - Lo, Cecilia W

AU - FitzPatrick, David R

AU - Hurles, Matthew E

PY - 2015/11

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N2 - Discovery of most autosomal recessive disease-associated genes has involved analysis of large, often consanguineous multiplex families or small cohorts of unrelated individuals with a well-defined clinical condition. Discovery of new dominant causes of rare, genetically heterogeneous developmental disorders has been revolutionized by exome analysis of large cohorts of phenotypically diverse parent-offspring trios. Here we analyzed 4,125 families with diverse, rare and genetically heterogeneous developmental disorders and identified four new autosomal recessive disorders. These four disorders were identified by integrating Mendelian filtering (selecting probands with rare, biallelic and putatively damaging variants in the same gene) with statistical assessments of (i) the likelihood of sampling the observed genotypes from the general population and (ii) the phenotypic similarity of patients with recessive variants in the same candidate gene. This new paradigm promises to catalyze the discovery of novel recessive disorders, especially those with less consistent or nonspecific clinical presentations and those caused predominantly by compound heterozygous genotypes.

AB - Discovery of most autosomal recessive disease-associated genes has involved analysis of large, often consanguineous multiplex families or small cohorts of unrelated individuals with a well-defined clinical condition. Discovery of new dominant causes of rare, genetically heterogeneous developmental disorders has been revolutionized by exome analysis of large cohorts of phenotypically diverse parent-offspring trios. Here we analyzed 4,125 families with diverse, rare and genetically heterogeneous developmental disorders and identified four new autosomal recessive disorders. These four disorders were identified by integrating Mendelian filtering (selecting probands with rare, biallelic and putatively damaging variants in the same gene) with statistical assessments of (i) the likelihood of sampling the observed genotypes from the general population and (ii) the phenotypic similarity of patients with recessive variants in the same candidate gene. This new paradigm promises to catalyze the discovery of novel recessive disorders, especially those with less consistent or nonspecific clinical presentations and those caused predominantly by compound heterozygous genotypes.

U2 - 10.1038/ng.3410

DO - 10.1038/ng.3410

M3 - Article

C2 - 26437029

SN - 1061-4036

VL - 47

SP - 1363

EP - 1369

JO - Nature Genetics

JF - Nature Genetics

IS - 11

ER -

Discovery of four recessive developmental disorders using probabilistic genotype and phenotype matching among 4,125 families

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