Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders

Heather Fairfield; Anuj Srivastava; Guruprasad Ananda; Rangjiao Liu; Martin Kircher; Anuradha Lakshminarayana; Belinda S. Harris; Son Yong Karst; Louise A. Dionne; Coleen C. Kane; Michelle Curtain; Melissa L. Berry; Patricia F. Ward-Bailey; Ian Greenstein; Candice Byers; Anne Czechanski; Jocelyn Sharp; Kristina Palmer; Polyxeni Gudis; Whitney Martin; Abby Tadenev; Laurent Bogdanik; C. Herbert Pratt; Bo Chang; David G. Schroeder; Gregory A. Cox; Paul Cliften; Jeffrey Milbrandt; Stephen Murray; Robert Burgess; David E. Bergstrom; Leah Rae Donahue; Hanan Hamamy; Amira Masri; Federico A. Santoni; Periklis Makrythanasis; Stylianos E. Antonarakis; Jay Shendure; Laura G. Reinholdt

doi:10.1101/gr.186882.114

Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders

Heather Fairfield, Anuj Srivastava, Guruprasad Ananda, Rangjiao Liu, Martin Kircher, Anuradha Lakshminarayana, Belinda S. Harris, Son Yong Karst, Louise A. Dionne, Coleen C. Kane, Michelle Curtain, Melissa L. Berry, Patricia F. Ward-Bailey, Ian Greenstein, Candice Byers, Anne Czechanski, Jocelyn Sharp, Kristina Palmer, Polyxeni Gudis, Whitney MartinAbby Tadenev, Laurent Bogdanik, C. Herbert Pratt, Bo Chang, David G. Schroeder, Gregory A. Cox, Paul Cliften, Jeffrey Milbrandt, Stephen Murray, Robert Burgess, David E. Bergstrom, Leah Rae Donahue, Hanan Hamamy, Amira Masri, Federico A. Santoni, Periklis Makrythanasis, Stylianos E. Antonarakis, Jay Shendure, Laura G. Reinholdt^*

^*Corresponding author for this work

Institute of Human Genetics

Abstract

Spontaneously arising mouse mutations have served as the foundation for understanding gene function for more than 100 years. We have used exome sequencing in an effort to identify the causative mutations for 172 distinct, spontaneously arising mouse models of Mendelian disorders, including a broad range of clinically relevant phenotypes. To analyze the resulting data, we developed an analytics pipeline that is optimized for mouse exome data and a variation database that allows for reproducible, user-defined data mining as well as nomination of mutation candidates through knowledge-based integration of sample and variant data. Using these new tools, putative pathogenic mutations were identified for 91 (53%) of the strains in our study. Despite the increased power offered by potentially unlimited pedigrees and controlled breeding, about half of our exome cases remained unsolved. Using a combination of manual analyses of exome alignments and whole-genome sequencing, we provide evidence that a large fraction of unsolved exome cases have underlying structural mutations. This result directly informs efforts to investigate the similar proportion of apparently Mendelian human phenotypes that are recalcitrant to exome sequencing.

Original language	English
Journal	Genome Research
Volume	25
Issue number	7
Pages (from-to)	948-957
Number of pages	10
ISSN	1088-9051
DOIs	https://doi.org/10.1101/gr.186882.114
Publication status	Published - 01.07.2015

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Fairfield, H., Srivastava, A., Ananda, G., Liu, R., Kircher, M., Lakshminarayana, A., Harris, B. S., Karst, S. Y., Dionne, L. A., Kane, C. C., Curtain, M., Berry, M. L., Ward-Bailey, P. F., Greenstein, I., Byers, C., Czechanski, A., Sharp, J., Palmer, K., Gudis, P., ... Reinholdt, L. G. (2015). Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders. Genome Research, 25(7), 948-957. https://doi.org/10.1101/gr.186882.114

@article{e70d24bf07c14c45888758da70cd989b,

title = "Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders",

abstract = "Spontaneously arising mouse mutations have served as the foundation for understanding gene function for more than 100 years. We have used exome sequencing in an effort to identify the causative mutations for 172 distinct, spontaneously arising mouse models of Mendelian disorders, including a broad range of clinically relevant phenotypes. To analyze the resulting data, we developed an analytics pipeline that is optimized for mouse exome data and a variation database that allows for reproducible, user-defined data mining as well as nomination of mutation candidates through knowledge-based integration of sample and variant data. Using these new tools, putative pathogenic mutations were identified for 91 (53%) of the strains in our study. Despite the increased power offered by potentially unlimited pedigrees and controlled breeding, about half of our exome cases remained unsolved. Using a combination of manual analyses of exome alignments and whole-genome sequencing, we provide evidence that a large fraction of unsolved exome cases have underlying structural mutations. This result directly informs efforts to investigate the similar proportion of apparently Mendelian human phenotypes that are recalcitrant to exome sequencing.",

author = "Heather Fairfield and Anuj Srivastava and Guruprasad Ananda and Rangjiao Liu and Martin Kircher and Anuradha Lakshminarayana and Harris, {Belinda S.} and Karst, {Son Yong} and Dionne, {Louise A.} and Kane, {Coleen C.} and Michelle Curtain and Berry, {Melissa L.} and Ward-Bailey, {Patricia F.} and Ian Greenstein and Candice Byers and Anne Czechanski and Jocelyn Sharp and Kristina Palmer and Polyxeni Gudis and Whitney Martin and Abby Tadenev and Laurent Bogdanik and Pratt, {C. Herbert} and Bo Chang and Schroeder, {David G.} and Cox, {Gregory A.} and Paul Cliften and Jeffrey Milbrandt and Stephen Murray and Robert Burgess and Bergstrom, {David E.} and Donahue, {Leah Rae} and Hanan Hamamy and Amira Masri and Santoni, {Federico A.} and Periklis Makrythanasis and Antonarakis, {Stylianos E.} and Jay Shendure and Reinholdt, {Laura G.}",

note = "Publisher Copyright: {\textcopyright} 2015 Fairfield et al.",

year = "2015",

month = jul,

day = "1",

doi = "10.1101/gr.186882.114",

language = "English",

volume = "25",

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Fairfield, H, Srivastava, A, Ananda, G, Liu, R, Kircher, M, Lakshminarayana, A, Harris, BS, Karst, SY, Dionne, LA, Kane, CC, Curtain, M, Berry, ML, Ward-Bailey, PF, Greenstein, I, Byers, C, Czechanski, A, Sharp, J, Palmer, K, Gudis, P, Martin, W, Tadenev, A, Bogdanik, L, Pratt, CH, Chang, B, Schroeder, DG, Cox, GA, Cliften, P, Milbrandt, J, Murray, S, Burgess, R, Bergstrom, DE, Donahue, LR, Hamamy, H, Masri, A, Santoni, FA, Makrythanasis, P, Antonarakis, SE, Shendure, J & Reinholdt, LG 2015, 'Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders', Genome Research, vol. 25, no. 7, pp. 948-957. https://doi.org/10.1101/gr.186882.114

TY - JOUR

T1 - Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders

AU - Fairfield, Heather

AU - Srivastava, Anuj

AU - Ananda, Guruprasad

AU - Liu, Rangjiao

AU - Kircher, Martin

AU - Lakshminarayana, Anuradha

AU - Harris, Belinda S.

AU - Karst, Son Yong

AU - Dionne, Louise A.

AU - Kane, Coleen C.

AU - Curtain, Michelle

AU - Berry, Melissa L.

AU - Ward-Bailey, Patricia F.

AU - Greenstein, Ian

AU - Byers, Candice

AU - Czechanski, Anne

AU - Sharp, Jocelyn

AU - Palmer, Kristina

AU - Gudis, Polyxeni

AU - Martin, Whitney

AU - Tadenev, Abby

AU - Bogdanik, Laurent

AU - Pratt, C. Herbert

AU - Chang, Bo

AU - Schroeder, David G.

AU - Cox, Gregory A.

AU - Cliften, Paul

AU - Milbrandt, Jeffrey

AU - Murray, Stephen

AU - Burgess, Robert

AU - Bergstrom, David E.

AU - Donahue, Leah Rae

AU - Hamamy, Hanan

AU - Masri, Amira

AU - Santoni, Federico A.

AU - Makrythanasis, Periklis

AU - Antonarakis, Stylianos E.

AU - Shendure, Jay

AU - Reinholdt, Laura G.

PY - 2015/7/1

Y1 - 2015/7/1

N2 - Spontaneously arising mouse mutations have served as the foundation for understanding gene function for more than 100 years. We have used exome sequencing in an effort to identify the causative mutations for 172 distinct, spontaneously arising mouse models of Mendelian disorders, including a broad range of clinically relevant phenotypes. To analyze the resulting data, we developed an analytics pipeline that is optimized for mouse exome data and a variation database that allows for reproducible, user-defined data mining as well as nomination of mutation candidates through knowledge-based integration of sample and variant data. Using these new tools, putative pathogenic mutations were identified for 91 (53%) of the strains in our study. Despite the increased power offered by potentially unlimited pedigrees and controlled breeding, about half of our exome cases remained unsolved. Using a combination of manual analyses of exome alignments and whole-genome sequencing, we provide evidence that a large fraction of unsolved exome cases have underlying structural mutations. This result directly informs efforts to investigate the similar proportion of apparently Mendelian human phenotypes that are recalcitrant to exome sequencing.

AB - Spontaneously arising mouse mutations have served as the foundation for understanding gene function for more than 100 years. We have used exome sequencing in an effort to identify the causative mutations for 172 distinct, spontaneously arising mouse models of Mendelian disorders, including a broad range of clinically relevant phenotypes. To analyze the resulting data, we developed an analytics pipeline that is optimized for mouse exome data and a variation database that allows for reproducible, user-defined data mining as well as nomination of mutation candidates through knowledge-based integration of sample and variant data. Using these new tools, putative pathogenic mutations were identified for 91 (53%) of the strains in our study. Despite the increased power offered by potentially unlimited pedigrees and controlled breeding, about half of our exome cases remained unsolved. Using a combination of manual analyses of exome alignments and whole-genome sequencing, we provide evidence that a large fraction of unsolved exome cases have underlying structural mutations. This result directly informs efforts to investigate the similar proportion of apparently Mendelian human phenotypes that are recalcitrant to exome sequencing.

UR - http://www.scopus.com/inward/record.url?scp=84937037088&partnerID=8YFLogxK

U2 - 10.1101/gr.186882.114

DO - 10.1101/gr.186882.114

M3 - Journal articles

C2 - 25917818

AN - SCOPUS:84937037088

SN - 1088-9051

VL - 25

SP - 948

EP - 957

JO - Genome Research

JF - Genome Research

IS - 7

ER -

Exome sequencing reveals pathogenic mutations in 91 strains of mice with Mendelian disorders

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