A re-sequencing based assessment of genomic heterogeneity and fast neutron-induced deletions in a common bean cultivar

Jamie A. O'Rourke; Luis P. Iniguez; Bruna Bucciarelli; Jeffrey Roessler; Jeremy Schmutz; Phillip E. McClean; Scott A. Jackson; Georgina Hernandez; Michelle A. Graham; Robert M. Stupar; Carroll P. Vance

doi:10.3389/fpls.2013.00210

A re-sequencing based assessment of genomic heterogeneity and fast neutron-induced deletions in a common bean cultivar

Jamie A. O'Rourke, Luis P. Iniguez, Bruna Bucciarelli, Jeffrey Roessler, Jeremy Schmutz, Phillip E. McClean, Scott A. Jackson, Georgina Hernandez, Michelle A. Graham, Robert M. Stupar, Carroll P. Vance

Agronomy and Plant Genetics

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

10 Scopus citations

Abstract

A small fast neutron (FN) mutant population has been established from Phaseolus vulgaris cv. Red Hawk. We leveraged the available P. vulgaris genome sequence and high throughput next generation DNA sequencing to examine the genomic structure of five P. vulgaris cv. Red Hawk FN mutants with striking visual phenotypes. Analysis of these genomes identified three classes of structural variation (SV); between cultivar variation, natural variation within the FN mutant population, and FN induced mutagenesis. Our analyses focused on the latter two classes. We identified 23 large deletions (>40 bp) common to multiple individuals, illustrating residual heterogeneity and regions of SV within the common bean cv. Red Hawk. An additional 18 large deletions were identified in individual mutant plants. These deletions, ranging in size from 40 bp to 43,000 bp, are potentially the result of FN mutagenesis. Six of the 18 deletions lie near or within gene coding regions, identifying potential candidate genes causing the mutant phenotype.

Original language	English (US)
Article number	210
Journal	Frontiers in Plant Science
Volume	4
Issue number	JUN
DOIs	https://doi.org/10.3389/fpls.2013.00210
State	Published - Jun 25 2013

Keywords

Common bean
DNA-Seq
Fast neutron mutation
Natural variation
Phaseolus vulgaris
Structural variation

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10.3389/fpls.2013.00210

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O'Rourke, J. A., Iniguez, L. P., Bucciarelli, B., Roessler, J., Schmutz, J., McClean, P. E., Jackson, S. A., Hernandez, G., Graham, M. A., Stupar, R. M., & Vance, C. P. (2013). A re-sequencing based assessment of genomic heterogeneity and fast neutron-induced deletions in a common bean cultivar. Frontiers in Plant Science, 4(JUN), [210]. https://doi.org/10.3389/fpls.2013.00210

A re-sequencing based assessment of genomic heterogeneity and fast neutron-induced deletions in a common bean cultivar. / O'Rourke, Jamie A.; Iniguez, Luis P.; Bucciarelli, Bruna; Roessler, Jeffrey; Schmutz, Jeremy; McClean, Phillip E.; Jackson, Scott A.; Hernandez, Georgina; Graham, Michelle A.; Stupar, Robert M.; Vance, Carroll P.

In: Frontiers in Plant Science, Vol. 4, No. JUN, 210, 25.06.2013.

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

O'Rourke, Jamie A. ; Iniguez, Luis P. ; Bucciarelli, Bruna ; Roessler, Jeffrey ; Schmutz, Jeremy ; McClean, Phillip E. ; Jackson, Scott A. ; Hernandez, Georgina ; Graham, Michelle A. ; Stupar, Robert M. ; Vance, Carroll P. / A re-sequencing based assessment of genomic heterogeneity and fast neutron-induced deletions in a common bean cultivar. In: Frontiers in Plant Science. 2013 ; Vol. 4, No. JUN.

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abstract = "A small fast neutron (FN) mutant population has been established from Phaseolus vulgaris cv. Red Hawk. We leveraged the available P. vulgaris genome sequence and high throughput next generation DNA sequencing to examine the genomic structure of five P. vulgaris cv. Red Hawk FN mutants with striking visual phenotypes. Analysis of these genomes identified three classes of structural variation (SV); between cultivar variation, natural variation within the FN mutant population, and FN induced mutagenesis. Our analyses focused on the latter two classes. We identified 23 large deletions (>40 bp) common to multiple individuals, illustrating residual heterogeneity and regions of SV within the common bean cv. Red Hawk. An additional 18 large deletions were identified in individual mutant plants. These deletions, ranging in size from 40 bp to 43,000 bp, are potentially the result of FN mutagenesis. Six of the 18 deletions lie near or within gene coding regions, identifying potential candidate genes causing the mutant phenotype.",

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author = "O'Rourke, {Jamie A.} and Iniguez, {Luis P.} and Bruna Bucciarelli and Jeffrey Roessler and Jeremy Schmutz and McClean, {Phillip E.} and Jackson, {Scott A.} and Georgina Hernandez and Graham, {Michelle A.} and Stupar, {Robert M.} and Vance, {Carroll P.}",

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AU - Schmutz, Jeremy

AU - McClean, Phillip E.

AU - Jackson, Scott A.

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AB - A small fast neutron (FN) mutant population has been established from Phaseolus vulgaris cv. Red Hawk. We leveraged the available P. vulgaris genome sequence and high throughput next generation DNA sequencing to examine the genomic structure of five P. vulgaris cv. Red Hawk FN mutants with striking visual phenotypes. Analysis of these genomes identified three classes of structural variation (SV); between cultivar variation, natural variation within the FN mutant population, and FN induced mutagenesis. Our analyses focused on the latter two classes. We identified 23 large deletions (>40 bp) common to multiple individuals, illustrating residual heterogeneity and regions of SV within the common bean cv. Red Hawk. An additional 18 large deletions were identified in individual mutant plants. These deletions, ranging in size from 40 bp to 43,000 bp, are potentially the result of FN mutagenesis. Six of the 18 deletions lie near or within gene coding regions, identifying potential candidate genes causing the mutant phenotype.

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