Phloem Transport of d,l-Glufosinate and Acetyl-l-Glufosinate in Glufosinate-Resistant and -Susceptible Brassica napus

Author:

Beriault Jennifer N.1,Horsman Geoff P.1,Devine Malcolm D.

Affiliation:

1. Department of Plant Sciences, University of Saskatchewan, 51 Campus Drive, Saskatoon, Saskatchewan, Canada S7N 5A8

Abstract

Abstract Phloem transport of d,l-[14C]glufosinate,d-[14C]glufosinate, and acetyl-l-[14C]glufosinate was examined in the susceptible Brassica napus cv Excel and a glufosinate-resistant genotype (HCN27) derived by transformation of cv Excel with the phosphinothricin-N-acetyltransferase (pat) gene. Considerably more 14C was exported from an expanded leaf in HCN27 than in cv Excel following application of d,l-[14C]glufosinate (25% versus 6.3% of applied, respectively, 72 h after treatment). The inactive isomer, d-glufosinate, was much more phloem mobile in cv Excel than racemicd,l-glufosinate. Foliar or root supplementation with 1 mm glutamine increasedd,l-[14C]glufosinate translocation in cv Excel but only transiently, suggesting that glutamine depletion is not the major cause of the limited phloem transport. Acetyl-l-[14C]glufosinate (applied as such or derived from l-glufosinate in pattransformants) was translocated extensively in the phloem of both genotypes. Acetyl-l-[14C]glufosinate was readily transported into the floral buds and flowers, and accumulated in the anthers in both genotypes. These results suggest that phloem transport of d,l-glufosinate is limited by rapid physiological effects of the l-isomer in source leaf tissue. The accumulation of acetyl-l-glufosinate in the anthers indicates that it is sufficiently phloem mobile to act as a foliar-applied chemical inducer of male sterility in plants expressing a deacetylase gene in the tapetum, generating toxic concentrations ofl-glufosinate in pollen-producing tissues.

Publisher

Oxford University Press (OUP)

Subject

Plant Science,Genetics,Physiology

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