Joe Eugene Lepo scite author profile

Enhancing nitrogen use efficiency (NUE) in crop plants is an important breeding target to reduce excessive use of chemical fertilizers, with substantial benefits to farmers and the environment. In Arabidopsis (Arabidopsis thaliana), allocation of more NO 3 2 to shoots was associated with higher NUE; however, the commonality of this process across plant species have not been sufficiently studied. Two Brassica napus genotypes were identified with high and low NUE. We found that activities of V-ATPase and V-PPase, the two tonoplast proton-pumps, were significantly lower in roots of the high-NUE genotype (Xiangyou15) ] S:R ratios were significantly higher in Xiangyou15. BnNRT1.5 expression was higher in roots of Xiangyou15 compared with 814, while BnNRT1.8 expression was lower. In both B. napus treated with proton pump inhibitors or Arabidopsis mutants impaired in proton pump activity, vacuolar sequestration capacity (VSC) of NO 3 2 in roots substantially decreased. Expression of NRT1.5 was up-regulated, but NRT1.8 was down-regulated, driving greater NO 3 2 long-distance transport from roots to shoots. NUE in Arabidopsis mutants impaired in proton pumps was also significantly higher than in the wild type col-0. Taken together, these data suggest that decrease in VSC of NO 3 2 in roots will enhance transport to shoot and essentially contribute to higher NUE by promoting NO 3 2 allocation to aerial parts, likely through coordinated regulation of NRT1.5 and NRT1.8.

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NRT1.1-Related NH₄⁺ Toxicity Is Associated with a Disturbed Balance between NH₄⁺ Uptake and Assimilation

Jian

Liao

Song

et al. 2018

Plant Physiol.

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Validation and field testing of library-independent microbial source tracking methods in the Gulf of Mexico

et al. 2009

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Potential for control of harmful cyanobacterial blooms using biologically derived substances: Problems and prospects

Shao

Lepo

et al. 2013

Journal of Environmental Management

111

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Joe Eugene Lepo

Nitrogen Use Efficiency Is Mediated by Vacuolar Nitrate Sequestration Capacity in Roots of Brassica napus

NRT1.1-Related NH₄⁺ Toxicity Is Associated with a Disturbed Balance between NH₄⁺ Uptake and Assimilation

Validation and field testing of library-independent microbial source tracking methods in the Gulf of Mexico

Potential for control of harmful cyanobacterial blooms using biologically derived substances: Problems and prospects

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Joe Eugene Lepo

Nitrogen Use Efficiency Is Mediated by Vacuolar Nitrate Sequestration Capacity in Roots of Brassica napus

NRT1.1-Related NH4+ Toxicity Is Associated with a Disturbed Balance between NH4+ Uptake and Assimilation

Validation and field testing of library-independent microbial source tracking methods in the Gulf of Mexico

Potential for control of harmful cyanobacterial blooms using biologically derived substances: Problems and prospects

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NRT1.1-Related NH₄⁺ Toxicity Is Associated with a Disturbed Balance between NH₄⁺ Uptake and Assimilation