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Ivan Jauregui et al.
PHYSIOLOGIA PLANTARUM (2016)
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CURRENT OPINION IN PLANT BIOLOGY (2015)
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K. C. Cameron et al.
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Plant type ferredoxins and ferredoxin-dependent metabolism
Guy Hanke et al.
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Plant Nitrogen Assimilation and Use Efficiency
Guohua Xu et al.
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Daniel R. Taub et al.
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Caroline G. Bowsher et al.
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A role for shoot protein in shoot-root dry matter allocation in higher plants
M Andrews et al.
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M Andrews et al.
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J Kruse et al.
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J Kruse et al.
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P Matt et al.
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Ammonium and nitrate acquisition by plants in response to elevated CO2 concentration:: the roles of root physiology and architecture
GA Bauer et al.
TREE PHYSIOLOGY (2001)