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- Title
Lz-0 × Berkeley: a new Arabidopsis recombinant inbred line population for the mapping of complex traits.
- Authors
Capron, Arnaud; Chang, Xue; Shi, Chun; Beatson, Rodger; Berleth, Thomas
- Abstract
This study describes the generation and test of a genetic resource suited to identify determinants of cell biological traits in plants. The use of quantitative trait loci (QTL) mapping for a better genetic understanding of cell biological traits is still at an early stage, even for biotechnologically important cell properties, such as the dimensions of fiber cells. A common strategy, the mapping of QTLs in recombinant inbred line (RIL) populations, is limited by the fact that the existing RIL populations exploit only a small fraction of the existing natural variation. Here, we report the mapping of QTLs impacting on the length of fiber cells in Arabidopsis inflorescence stems in a newly generated RIL population derived from a cross between the accessions Berkeley and the little known Lz- 0. Through inbreeding of individual F plants, a total of 159 new F lines were produced and genotyped with a set of 49 single nucleotide polymorphism markers. The population was successfully used not only for the mapping of three QTLs controlling fiber length, but also to map five QTL controlling flowering time under short and long-day conditions. Our study demonstrates the usefulness of this new genetic resource by mapping in it QTLs underlying a poorly explored cellular trait as well as an already better explored regulatory pathway. The new RIL population and an online platform for the continuous supplementation of genetic markers will be generally available to substantially broaden the genetic diversity through which loci with impact on plant quantitative traits can be identified.
- Subjects
ARABIDOPSIS; PLANT cytology; PLANT genetics; BIOTECHNOLOGY; SINGLE nucleotide polymorphisms
- Publication
Molecular Genetics & Genomics, 2014, Vol 289, Issue 3, p417
- ISSN
1617-4615
- Publication type
Article
- DOI
10.1007/s00438-014-0820-x