The B73 Maize Genome: Complexity, Diversity, and Dynamics

Brandon Delgado , Kelly Mead , Asif Chinwalla , Brandon Delgado , Kelly Mead , Asif Chinwalla , Shawn Leonard , Kevin Crouse , Kristi Collura , Dave Kudrna , Jennifer Currie , Ruifeng He , Angelina Angelova , Shanmugam Rajasekar , Teri Mueller , Rene Lomeli , Gabriel Scara , Ara Ko , Krista Delaney , Marina Wissotski , Georgina Espinosa López , David Campos , Michele Braidotti , Elizabeth Ashley , Wolfgang Golser , Hye‐Ran Kim , Seunghee Lee , Jinke Lin , Zeljko Dujmic , Woojin Kim , Jayson Talag , Andrea Zuccolo , Chuanzhu Fan , Aswathy Sebastian , Melissa Kramer , Lori Spiegel , Lidia U. Nascimento , Theresa Zutavern , Beth A. Miller , Claude Ambroise , Stéphanie Muller , Will Spooner , Apurva Narechania , Liya Ren , Sharon Wei , Sunita Kumari , Ben Faga , Michael J. Levy , Linda McMahan , Peter Van Buren , Matthew Vaughn , Patrick S. Schnable , Doreen Ware , Robert S. Fulton , Joshua C. Stein , Fusheng Wei , Shiran Pasternak , Chengzhi Liang , Jianwei Zhang , Lucinda Fulton , Tina Graves , Patrick Minx , Amy Denise Reily , Laura Courtney , Scott Kruchowski , Chad Tomlinson , Cindy Strong , Kim D. Delehaunty , Catrina C. Fronick , Bill Courtney , Susan M. Rock , Eddie Belter , Feiyu Du , Kyung Kim , Rachel M. Abbott , Marc Cotton , Andrew R. Levy , Pamela Marchetto , Kerri Ochoa , Stephanie Jackson , Barbara Gillam , Weizu Chen , Le Yan , Jamey Higginbotham , Marco Cardenas , Jason Waligorski , Elizabeth Applebaum , Lindsey Phelps , Jason Falcone , Krishna Kanchi , Thynn Thane , Adam Scimone , Nay Thane , Jessica Henke , Tom Wang , Jessica Ruppert , Neha Shah , Kelsi Rotter , Jennifer Hodges , Elizabeth Ingenthron , M. Cordes , Sara Kohlberg , Jennifer Sgro
2009 Science 4,093 citations

Abstract

A-Maize-ing Maize is one of our oldest and most important crops, having been domesticated approximately 9000 years ago in central Mexico. Schnable et al. (p. 1112 ; see the cover) present the results of sequencing the B73 inbred maize line. The findings elucidate how maize became diploid after an ancestral doubling of its chromosomes and reveals transposable element movement and activity and recombination. Vielle-Calzada et al. (p. 1078 ) have sequenced the Palomero Toluqueño ( Palomero ) landrace, a highland popcorn from Mexico, which, when compared to the B73 line, reveals multiple loci impacted by domestication. Swanson-Wagner et al. (p. 1118 ) exploit possession of the genome to analyze expression differences occurring between lines. The identification of single nucleotide polymorphisms and copy number variations among lines was used by Gore et al. (p. 1115 ) to generate a Haplotype map of maize. While chromosomal diversity in maize is high, it is likely that recombination is the major force affecting the levels of heterozygosity in maize. The availability of the maize genome will help to guide future agricultural and biofuel applications (see the Perspective by Feuillet and Eversole ).

Keywords

BiologyDomesticationGenomeTransposable elementHaplotypeGeneticsGenetic diversityReference genomeGenome evolutionLoss of heterozygosityNucleotide diversityEvolutionary biologyGeneAllelePopulation

Affiliated Institutions

Related Publications

Publication Info

Year
2009
Type
article
Volume
326
Issue
5956
Pages
1112-1115
Citations
4093
Access
Closed

External Links

View on DOI.org

Social Impact

Altmetric
PlumX Metrics

Social media, news, blog, policy document mentions

Citation Metrics

4093
OpenAlex

Cite This

Brandon Delgado, Kelly Mead, Asif Chinwalla et al. (2009). The B73 Maize Genome: Complexity, Diversity, and Dynamics. Science , 326 (5956) , 1112-1115. https://doi.org/10.1126/science.1178534

Identifiers

DOI
10.1126/science.1178534