The genetic architecture of maize flowering time

Buckler,  E. S.; Holland,  J. B.; Bradbury,  P. J.; Acharya,  C. B.; Brown,  P. J.; Browne,  C.; Ersoz,  E.; Flint-Garcia,  S.; Garcia,  A.; Glaubitz,  J. C.; Goodman,  M. M.; Harjes,  C.; Guill,  K.; Kroon,  D. E.; Larsson,  S.; Lepak,  N. K.; Li,  H.; Mitchell,  S. E.; Pressoir,  G.; Peiffer,  J. A.; Rosas,  M. O.; Rocheford,  T. R.; Romay,  M. C.; Romero,  S.; Salvo,  S.; Sanchez Villeda,  H.; da Silva,  H. S.; Sun,  Q.; Tian,  F.; Upadyayula,  N.; Ware,  D. H.; Yates,  H.; Yu,  J.; Zhang,  Z.; Kresovich,  S.; McMullen,  M. D.

oai:repository.cshl.edu:27385

The genetic architecture of maize flowering time

Abstract

Flowering time is a complex trait that controls adaptation of plants to their local environment in the outcrossing species Zea mays (maize). We dissected variation for flowering time with a set of 5000 recombinant inbred lines (maize Nested Association Mapping population, NAM). Nearly a million plants were assayed in eight environments but showed no evidence for any single large-effect quantitative trait loci (QTLs). Instead, we identified evidence for numerous small-effect QTLs shared among families; however, allelic effects differ across founder lines. We identified no individual QTLs at which allelic effects are determined by geographic origin or large effects for epistasis or environmental interactions. Thus, 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

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Cold Spring Harbor Laboratory Institutional Repository

oai:repository.cshl.edu:27385

Last time updated on 06/05/2016

This paper was published in Cold Spring Harbor Laboratory Institutional Repository.

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