Author:
Sabharwal Tanya,Lu Zhongjin,Slocum Robert D.,Kang Seongjoon,Wang Huan,Jiang Han-Wei,Veerappa Roopadarshini,Romanovicz Dwight,Nam Ji Chul,Birk Simon,Clark Greg,Roux Stanley J.
Abstract
AbstractTo address the demand for food by a rapidly growing human population, agricultural scientists have carried out both plant breeding and genetic engineering research. Previously, we reported that the constitutive expression of a pea apyrase (Nucleoside triphosphate, diphosphohydrolase) gene, psNTP9, under the control of the CaMV35S promoter, resulted in soybean plants with an expanded root system architecture, enhanced drought resistance and increased seed yield when they are grown in greenhouses under controlled conditions. Here, we report that psNTP9-expressing soybean lines also show significantly enhanced seed yields when grown in multiple different field conditions at multiple field sites, including when the gene is introgressed into elite germplasm. The transgenic lines have higher leaf chlorophyll and soluble protein contents and decreased stomatal density and cuticle permeability, traits that increase water use efficiency and likely contribute to the increased seed yields of field-grown plants. These altered properties are explained, in part, by genome-wide gene expression changes induced by the transgene.
Publisher
Springer Science and Business Media LLC
Cited by
2 articles.
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