Regulated expression of a cytokinin biosynthesis gene IPT delays leaf senescence and improves yield under rainfed and irrigated conditions in canola (Brassica napus L.).

Surya Kant,Rajasekaran Palanisamy,Pieter Badenhorst,German Spangenberg,David Burch,John Mason,Marcel Quint

doi:10.1371/journal.pone.0116349

Surya Kant, Rajasekaran Palanisamy + Show 5 more

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https://doi.org/10.1371/journal.pone.0116349

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Journal: PloS one	Publication Date: Jan 20, 2015
Citations: 64	License type: CC BY 4.0

Affiliation: La Trobe University, AgriBio

Abstract

Delay of leaf senescence through genetic modification can potentially improve crop yield, through maintenance of photosynthetically active leaves for a longer period. Plant growth hormones such as cytokinin regulate and delay leaf senescence. Here, the structural gene (IPT) encoding the cytokinin biosynthetic enzyme isopentenyltransferase was fused to a functionally active fragment of the AtMYB32 promoter and was transformed into canola plants. Expression of the AtMYB32xs::IPT gene cassette delayed the leaf senescence in transgenic plants grown under controlled environment conditions and field experiments conducted for a single season at two geographic locations. The transgenic canola plants retained higher chlorophyll levels for an extended period and produced significantly higher seed yield with similar growth and phenology compared to wild type and null control plants under rainfed and irrigated treatments. The yield increase in transgenic plants was in the range of 16% to 23% and 7% to 16% under rainfed and irrigated conditions, respectively, compared to control plants. Most of the seed quality parameters in transgenic plants were similar, and with elevated oleic acid content in all transgenic lines and higher oil content and lower glucosinolate content in one specific transgenic line as compared to control plants. The results suggest that by delaying leaf senescence using the AtMYB32xs::IPT technology, productivity in crop plants can be improved under water stress and well-watered conditions.

Highlights

Senescence is a highly regulated degradative process of plant cellular and tissue structures
The transgenic canola plants were developed for the expression of a chimeric cytokinin biosynthesis gene; Isopentenyl Transferase (IPT) from Agrobacterium tumefaciens tmr-gene encoded by the octopine Ti plasmid under the control of a promoter from a developmentally regulated transcription factor gene AtMYB32 (AT4G34990) from Arabidopsis thaliana
The PCR-positive transgenic plants for the Hygromycin phosphotransferase (Hph) selective gene were confirmed for the presence of IPT gene (S4A and S4B Fig.)

Summary

Introduction

Senescence is a highly regulated degradative process of plant cellular and tissue structures. Delaying the senescence of source tissues (mainly leaves) would permit greater capture of sunlight energy for an extended period, allowing transformation into photosynthates which contribute to improved plant growth and enhanced seed yield. The role of cytokinins in delaying leaf senescence has been reported for several plant species [1,2,3,4,10,11,12]. In these studies, the endogenous cytokinin level was enhanced by the expression of an Isopentenyltransferase (IPT) gene isolated from Agrobacterium tumefaciens, as the IPT enzyme catalyses the rate-limiting step in cytokinin synthesis

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