TY  - BOOK
AU  - Yi,C.
AU  - Wang,X.
AU  - Chen,Q.
AU  - Callahan,D.L.
AU  - Fournier-Level,A.
AU  - Whelan,J.
AU  - Jost,R.
TI  - Diverse phosphate and auxin transport loci distinguish phosphate tolerant from sensitive Arabidopsis accessions
N2  - Phosphorus (P)is an essential element for plant growth often limiting agroecosystems. To identify genetic determinants of performance under variable phosphate (Pi)supply, we conducted genome-wide association studies on five highly predictive Pi starvation response traits in 200 Arabidopsis (Arabidopsis thaliana)accessions. Pi concentration in Pi-limited organs had the strongest, and primary root length had the weakest genetic component. Of 70 trait-associated candidate genes, 17 responded to Pi withdrawal. The PHOSPHATE TRANSPORTER1 gene cluster on chromosome 5 comprises PHT1;1, PHT1;2, and PHT1;3 with known impact on P status. A second locus featured uncharacterized endomembrane-associat
UR  - https://drive.google.com/file/d/1AbGfWdWk3suF6pv2murEOEeH47JGij9D/view?usp=drivesdk
ER  -