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Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research
The laboratory mouse is the most widely used animal model for biomedical research, due in part to its well-annotated genome, wealth of genetic resources, and the ability to precisely manipulate its genome. Despite the importance of genetics for mouse research, genetic quality control (QC) is not sta...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Genetics Society of America
2020
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7768238/ https://www.ncbi.nlm.nih.gov/pubmed/33067325 http://dx.doi.org/10.1534/genetics.120.303596 |
| _version_ | 1783629116926328832 |
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| author | Sigmon, John Sebastian Blanchard, Matthew W. Baric, Ralph S. Bell, Timothy A. Brennan, Jennifer Brockmann, Gudrun A. Burks, A. Wesley Calabrese, J. Mauro Caron, Kathleen M. Cheney, Richard E. Ciavatta, Dominic Conlon, Frank Darr, David B. Faber, James Franklin, Craig Gershon, Timothy R. Gralinski, Lisa Gu, Bin Gaines, Christiann H. Hagan, Robert S. Heimsath, Ernest G. Heise, Mark T. Hock, Pablo Ideraabdullah, Folami Jennette, J. Charles Kafri, Tal Kashfeen, Anwica Kulis, Mike Kumar, Vivek Linnertz, Colton Livraghi-Butrico, Alessandra Lloyd, K. C. Kent Lutz, Cathleen Lynch, Rachel M. Magnuson, Terry Matsushima, Glenn K. McMullan, Rachel Miller, Darla R. Mohlke, Karen L. Moy, Sheryl S. Murphy, Caroline E. Y. Najarian, Maya O’Brien, Lori Palmer, Abraham A. Philpot, Benjamin D. Randell, Scott H. Reinholdt, Laura Ren, Yuyu Rockwood, Steve Rogala, Allison R. Saraswatula, Avani Sassetti, Christopher M. Schisler, Jonathan C. Schoenrock, Sarah A. Shaw, Ginger D. Shorter, John R. Smith, Clare M. St. Pierre, Celine L. Tarantino, Lisa M. Threadgill, David W. Valdar, William Vilen, Barbara J. Wardwell, Keegan Whitmire, Jason K. Williams, Lucy Zylka, Mark J. Ferris, Martin T. McMillan, Leonard Manuel de Villena, Fernando Pardo |
| author_facet | Sigmon, John Sebastian Blanchard, Matthew W. Baric, Ralph S. Bell, Timothy A. Brennan, Jennifer Brockmann, Gudrun A. Burks, A. Wesley Calabrese, J. Mauro Caron, Kathleen M. Cheney, Richard E. Ciavatta, Dominic Conlon, Frank Darr, David B. Faber, James Franklin, Craig Gershon, Timothy R. Gralinski, Lisa Gu, Bin Gaines, Christiann H. Hagan, Robert S. Heimsath, Ernest G. Heise, Mark T. Hock, Pablo Ideraabdullah, Folami Jennette, J. Charles Kafri, Tal Kashfeen, Anwica Kulis, Mike Kumar, Vivek Linnertz, Colton Livraghi-Butrico, Alessandra Lloyd, K. C. Kent Lutz, Cathleen Lynch, Rachel M. Magnuson, Terry Matsushima, Glenn K. McMullan, Rachel Miller, Darla R. Mohlke, Karen L. Moy, Sheryl S. Murphy, Caroline E. Y. Najarian, Maya O’Brien, Lori Palmer, Abraham A. Philpot, Benjamin D. Randell, Scott H. Reinholdt, Laura Ren, Yuyu Rockwood, Steve Rogala, Allison R. Saraswatula, Avani Sassetti, Christopher M. Schisler, Jonathan C. Schoenrock, Sarah A. Shaw, Ginger D. Shorter, John R. Smith, Clare M. St. Pierre, Celine L. Tarantino, Lisa M. Threadgill, David W. Valdar, William Vilen, Barbara J. Wardwell, Keegan Whitmire, Jason K. Williams, Lucy Zylka, Mark J. Ferris, Martin T. McMillan, Leonard Manuel de Villena, Fernando Pardo |
| author_sort | Sigmon, John Sebastian |
| collection | PubMed |
| description | The laboratory mouse is the most widely used animal model for biomedical research, due in part to its well-annotated genome, wealth of genetic resources, and the ability to precisely manipulate its genome. Despite the importance of genetics for mouse research, genetic quality control (QC) is not standardized, in part due to the lack of cost-effective, informative, and robust platforms. Genotyping arrays are standard tools for mouse research and remain an attractive alternative even in the era of high-throughput whole-genome sequencing. Here, we describe the content and performance of a new iteration of the Mouse Universal Genotyping Array (MUGA), MiniMUGA, an array-based genetic QC platform with over 11,000 probes. In addition to robust discrimination between most classical and wild-derived laboratory strains, MiniMUGA was designed to contain features not available in other platforms: (1) chromosomal sex determination, (2) discrimination between substrains from multiple commercial vendors, (3) diagnostic SNPs for popular laboratory strains, (4) detection of constructs used in genetically engineered mice, and (5) an easy-to-interpret report summarizing these results. In-depth annotation of all probes should facilitate custom analyses by individual researchers. To determine the performance of MiniMUGA, we genotyped 6899 samples from a wide variety of genetic backgrounds. The performance of MiniMUGA compares favorably with three previous iterations of the MUGA family of arrays, both in discrimination capabilities and robustness. We have generated publicly available consensus genotypes for 241 inbred strains including classical, wild-derived, and recombinant inbred lines. Here, we also report the detection of a substantial number of XO and XXY individuals across a variety of sample types, new markers that expand the utility of reduced complexity crosses to genetic backgrounds other than C57BL/6, and the robust detection of 17 genetic constructs. We provide preliminary evidence that the array can be used to identify both partial sex chromosome duplication and mosaicism, and that diagnostic SNPs can be used to determine how long inbred mice have been bred independently from the relevant main stock. We conclude that MiniMUGA is a valuable platform for genetic QC, and an important new tool to increase the rigor and reproducibility of mouse research. |
| format | Online Article Text |
| id | pubmed-7768238 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2020 |
| publisher | Genetics Society of America |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-77682382021-01-11 Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research Sigmon, John Sebastian Blanchard, Matthew W. Baric, Ralph S. Bell, Timothy A. Brennan, Jennifer Brockmann, Gudrun A. Burks, A. Wesley Calabrese, J. Mauro Caron, Kathleen M. Cheney, Richard E. Ciavatta, Dominic Conlon, Frank Darr, David B. Faber, James Franklin, Craig Gershon, Timothy R. Gralinski, Lisa Gu, Bin Gaines, Christiann H. Hagan, Robert S. Heimsath, Ernest G. Heise, Mark T. Hock, Pablo Ideraabdullah, Folami Jennette, J. Charles Kafri, Tal Kashfeen, Anwica Kulis, Mike Kumar, Vivek Linnertz, Colton Livraghi-Butrico, Alessandra Lloyd, K. C. Kent Lutz, Cathleen Lynch, Rachel M. Magnuson, Terry Matsushima, Glenn K. McMullan, Rachel Miller, Darla R. Mohlke, Karen L. Moy, Sheryl S. Murphy, Caroline E. Y. Najarian, Maya O’Brien, Lori Palmer, Abraham A. Philpot, Benjamin D. Randell, Scott H. Reinholdt, Laura Ren, Yuyu Rockwood, Steve Rogala, Allison R. Saraswatula, Avani Sassetti, Christopher M. Schisler, Jonathan C. Schoenrock, Sarah A. Shaw, Ginger D. Shorter, John R. Smith, Clare M. St. Pierre, Celine L. Tarantino, Lisa M. Threadgill, David W. Valdar, William Vilen, Barbara J. Wardwell, Keegan Whitmire, Jason K. Williams, Lucy Zylka, Mark J. Ferris, Martin T. McMillan, Leonard Manuel de Villena, Fernando Pardo Genetics Investigations The laboratory mouse is the most widely used animal model for biomedical research, due in part to its well-annotated genome, wealth of genetic resources, and the ability to precisely manipulate its genome. Despite the importance of genetics for mouse research, genetic quality control (QC) is not standardized, in part due to the lack of cost-effective, informative, and robust platforms. Genotyping arrays are standard tools for mouse research and remain an attractive alternative even in the era of high-throughput whole-genome sequencing. Here, we describe the content and performance of a new iteration of the Mouse Universal Genotyping Array (MUGA), MiniMUGA, an array-based genetic QC platform with over 11,000 probes. In addition to robust discrimination between most classical and wild-derived laboratory strains, MiniMUGA was designed to contain features not available in other platforms: (1) chromosomal sex determination, (2) discrimination between substrains from multiple commercial vendors, (3) diagnostic SNPs for popular laboratory strains, (4) detection of constructs used in genetically engineered mice, and (5) an easy-to-interpret report summarizing these results. In-depth annotation of all probes should facilitate custom analyses by individual researchers. To determine the performance of MiniMUGA, we genotyped 6899 samples from a wide variety of genetic backgrounds. The performance of MiniMUGA compares favorably with three previous iterations of the MUGA family of arrays, both in discrimination capabilities and robustness. We have generated publicly available consensus genotypes for 241 inbred strains including classical, wild-derived, and recombinant inbred lines. Here, we also report the detection of a substantial number of XO and XXY individuals across a variety of sample types, new markers that expand the utility of reduced complexity crosses to genetic backgrounds other than C57BL/6, and the robust detection of 17 genetic constructs. We provide preliminary evidence that the array can be used to identify both partial sex chromosome duplication and mosaicism, and that diagnostic SNPs can be used to determine how long inbred mice have been bred independently from the relevant main stock. We conclude that MiniMUGA is a valuable platform for genetic QC, and an important new tool to increase the rigor and reproducibility of mouse research. Genetics Society of America 2020-12 2020-10-16 /pmc/articles/PMC7768238/ /pubmed/33067325 http://dx.doi.org/10.1534/genetics.120.303596 Text en Copyright © 2020 by the Genetics Society of America Available freely online through the author-supported open access option. |
| spellingShingle | Investigations Sigmon, John Sebastian Blanchard, Matthew W. Baric, Ralph S. Bell, Timothy A. Brennan, Jennifer Brockmann, Gudrun A. Burks, A. Wesley Calabrese, J. Mauro Caron, Kathleen M. Cheney, Richard E. Ciavatta, Dominic Conlon, Frank Darr, David B. Faber, James Franklin, Craig Gershon, Timothy R. Gralinski, Lisa Gu, Bin Gaines, Christiann H. Hagan, Robert S. Heimsath, Ernest G. Heise, Mark T. Hock, Pablo Ideraabdullah, Folami Jennette, J. Charles Kafri, Tal Kashfeen, Anwica Kulis, Mike Kumar, Vivek Linnertz, Colton Livraghi-Butrico, Alessandra Lloyd, K. C. Kent Lutz, Cathleen Lynch, Rachel M. Magnuson, Terry Matsushima, Glenn K. McMullan, Rachel Miller, Darla R. Mohlke, Karen L. Moy, Sheryl S. Murphy, Caroline E. Y. Najarian, Maya O’Brien, Lori Palmer, Abraham A. Philpot, Benjamin D. Randell, Scott H. Reinholdt, Laura Ren, Yuyu Rockwood, Steve Rogala, Allison R. Saraswatula, Avani Sassetti, Christopher M. Schisler, Jonathan C. Schoenrock, Sarah A. Shaw, Ginger D. Shorter, John R. Smith, Clare M. St. Pierre, Celine L. Tarantino, Lisa M. Threadgill, David W. Valdar, William Vilen, Barbara J. Wardwell, Keegan Whitmire, Jason K. Williams, Lucy Zylka, Mark J. Ferris, Martin T. McMillan, Leonard Manuel de Villena, Fernando Pardo Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title | Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title_full | Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title_fullStr | Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title_full_unstemmed | Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title_short | Content and Performance of the MiniMUGA Genotyping Array: A New Tool To Improve Rigor and Reproducibility in Mouse Research |
| title_sort | content and performance of the minimuga genotyping array: a new tool to improve rigor and reproducibility in mouse research |
| topic | Investigations |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7768238/ https://www.ncbi.nlm.nih.gov/pubmed/33067325 http://dx.doi.org/10.1534/genetics.120.303596 |
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