C
C. A. Browne
Researcher at United States Department of Agriculture
Publications - 7
Citations - 2492
C. A. Browne is an academic researcher from United States Department of Agriculture. The author has contributed to research in topics: Nested association mapping & Population. The author has an hindex of 3, co-authored 6 publications receiving 2264 citations. Previous affiliations of C. A. Browne include University of Missouri.
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Journal ArticleDOI
The Genetic Architecture of Maize Flowering Time
Edward S. Buckler,Edward S. Buckler,James B. Holland,James B. Holland,Peter J. Bradbury,Peter J. Bradbury,Charlotte B. Acharya,Patrick J. Brown,C. A. Browne,C. A. Browne,Elhan S. Ersoz,Sherry Flint-Garcia,Sherry Flint-Garcia,Arturo Garcia,Arturo Garcia,Jeffrey C. Glaubitz,Major M. Goodman,Carlos Harjes,Kate E. Guill,Kate E. Guill,Dallas E. Kroon,Sara Larsson,Nicholas Lepak,Nicholas Lepak,Huihui Li,Huihui Li,Sharon E. Mitchell,Gaël Pressoir,Jason A. Peiffer,Marco Oropeza Rosas,Torbert Rocheford,Torbert Rocheford,M. Cinta Romay,M. Cinta Romay,Susan Romero,Stella Salvo,Stella Salvo,Hector Sanchez Villeda,Hector Sanchez Villeda,H. Sofia da Silva,Qi Sun,Feng Tian,N. Upadyayula,Doreen Ware,Doreen Ware,Heather Yates,Jianming Yu,Zhiwu Zhang,Stephen Kresovich,Michael D. McMullen,Michael D. McMullen +50 more
TL;DR: A simple additive model accurately predicts flowering time for maize, in contrast to the genetic architecture observed in the selfing plant species rice and Arabidopsis.
Journal ArticleDOI
Genetic properties of the maize nested association mapping population.
Michael D. McMullen,Michael D. McMullen,Stephen Kresovich,Hector Sanchez Villeda,Peter J. Bradbury,Peter J. Bradbury,Huihui Li,Huihui Li,Qi Sun,Sherry Flint-Garcia,Sherry Flint-Garcia,Jeffry M. Thornsberry,Charlotte B. Acharya,Christopher A. Bottoms,Patrick J. Brown,C. A. Browne,Magen S. Eller,Kate E. Guill,Carlos Harjes,Dallas E. Kroon,Nick Lepak,Sharon E. Mitchell,Brooke Peterson,Gaël Pressoir,Susan Romero,Marco Oropeza Rosas,Stella Salvo,Heather Yates,Mark Hanson,Elizabeth S. Jones,Stephen Smith,Jeffrey C. Glaubitz,Major M. Goodman,Doreen Ware,Doreen Ware,James B. Holland,James B. Holland,Edward S. Buckler,Edward S. Buckler +38 more
TL;DR: Maize genetic diversity has been used to understand the molecular basis of phenotypic variation and to improve agricultural efficiency and sustainability and it is suggested that selection in inbred lines has been less efficient in these regions because of reduced recombination frequency.
Journal ArticleDOI
The relationship between parental genetic or phenotypic divergence and progeny variation in the maize nested association mapping population
H-Y Hung,C. A. Browne,Katherine E. Guill,Nathan David Coles,Magen S. Eller,Arturo Garcia,Nicholas Lepak,S Melia-Hancock,Marco A. Oropeza-Rosas,S Salvo,N. Upadyayula,Edward S. Buckler,Sherry Flint-Garcia,Sherry Flint-Garcia,Michael D. McMullen,Michael D. McMullen,Torbert Rocheford,Torbert Rocheford,James B. Holland,James B. Holland +19 more
TL;DR: The choice of promising segregating populations can be based on selecting phenotypically diverse parents, congruent with models of genetic architecture that posit numerous genes affecting quantitative traits, each segregating for allelic series with dispersal of allelic effects across diverse genetic material.