Direct acquisition of organic N by white clover even in the presence of inorganic N

Weronika Czaban; Sandra Jämtgård; Torgny Nasholm; Jim Rasmussen; Mogens Nicolaisen; Inge S. Fomsgaard

doi:10.1007/s11104-016-2896-z

Direct acquisition of organic N by white clover even in the presence of inorganic N

Weronika Czaban, Sandra Jämtgård, Torgny Nasholm, Jim Rasmussen, Mogens Nicolaisen, Inge S. Fomsgaard

18 Citationer (Scopus)

Abstract

Aim: This study was conducted to answer the question of whether clover can absorb asparagine in the presence and absence of inorganic nitrogen, as well as to determine the resulting concentration of post-uptake compounds closely involved in asparagine metabolism.
Methods: Clover was grown at two asparagine concentrations (10 μMand 1mM) supplied in both the absence and presence of ammonium nitrate. Using dual-labeled 13C15N-asparagine, the uptake rate was analyzed via bulk 15N and 13C excess and the detection of intact 13C15N-asparagine in white clover.
Results: The results from the two methods indicated greater utilization of 13C15N-asparagine in the 10 μM treatment than in the 1 mM treatment. The 13C15Nasparagine uptake rate was higher when 13C15N-asparagine was provided alone than when it was supplemented with inorganic nitrogen. Up to nine times lower uptake rates were obtained when intact 13C15N-asparagine
was measured than when bulk 15N and 13C excess were analyzed. The labeled amino acids that are closely related to 13C15N-asparagine metabolism (aspartic acid, glutamic acid and glutamine) were detected in clover roots and shoots.
Conclusions: Using two different methods, white clover’s potential to absorb intact asparagine, even in the presence of inorganic nitrogen, was confirmed. The
dual-methodology approach employed in this study demonstrates how the post-uptake metabolism can affect quantification of amino acid uptake.

Originalsprog	Engelsk
Tidsskrift	Plant and Soil
Vol/bind	407
Udgave nummer	1-2
Sider (fra-til)	91-107
Antal sider	17
ISSN	0032-079X
DOI	https://doi.org/10.1007/s11104-016-2896-z
Status	Udgivet - 1 okt. 2016
Udgivet eksternt	Ja

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10.1007/s11104-016-2896-z

Citationsformater

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title = "Direct acquisition of organic N by white clover even in the presence of inorganic N",

abstract = "Aim: This study was conducted to answer the question of whether clover can absorb asparagine in the presence and absence of inorganic nitrogen, as well as to determine the resulting concentration of post-uptake compounds closely involved in asparagine metabolism.Methods: Clover was grown at two asparagine concentrations (10 μMand 1mM) supplied in both the absence and presence of ammonium nitrate. Using dual-labeled 13C15N-asparagine, the uptake rate was analyzed via bulk 15N and 13C excess and the detection of intact 13C15N-asparagine in white clover.Results: The results from the two methods indicated greater utilization of 13C15N-asparagine in the 10 μM treatment than in the 1 mM treatment. The 13C15Nasparagine uptake rate was higher when 13C15N-asparagine was provided alone than when it was supplemented with inorganic nitrogen. Up to nine times lower uptake rates were obtained when intact 13C15N-asparaginewas measured than when bulk 15N and 13C excess were analyzed. The labeled amino acids that are closely related to 13C15N-asparagine metabolism (aspartic acid, glutamic acid and glutamine) were detected in clover roots and shoots.Conclusions: Using two different methods, white clover{\textquoteright}s potential to absorb intact asparagine, even in the presence of inorganic nitrogen, was confirmed. Thedual-methodology approach employed in this study demonstrates how the post-uptake metabolism can affect quantification of amino acid uptake.",

author = "Weronika Czaban and Sandra J{\"a}mtg{\aa}rd and Torgny Nasholm and Jim Rasmussen and Mogens Nicolaisen and Fomsgaard, {Inge S.}",

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T1 - Direct acquisition of organic N by white clover even in the presence of inorganic N

AU - Czaban, Weronika

AU - Jämtgård, Sandra

AU - Nasholm, Torgny

AU - Rasmussen, Jim

AU - Nicolaisen, Mogens

AU - Fomsgaard, Inge S.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Aim: This study was conducted to answer the question of whether clover can absorb asparagine in the presence and absence of inorganic nitrogen, as well as to determine the resulting concentration of post-uptake compounds closely involved in asparagine metabolism.Methods: Clover was grown at two asparagine concentrations (10 μMand 1mM) supplied in both the absence and presence of ammonium nitrate. Using dual-labeled 13C15N-asparagine, the uptake rate was analyzed via bulk 15N and 13C excess and the detection of intact 13C15N-asparagine in white clover.Results: The results from the two methods indicated greater utilization of 13C15N-asparagine in the 10 μM treatment than in the 1 mM treatment. The 13C15Nasparagine uptake rate was higher when 13C15N-asparagine was provided alone than when it was supplemented with inorganic nitrogen. Up to nine times lower uptake rates were obtained when intact 13C15N-asparaginewas measured than when bulk 15N and 13C excess were analyzed. The labeled amino acids that are closely related to 13C15N-asparagine metabolism (aspartic acid, glutamic acid and glutamine) were detected in clover roots and shoots.Conclusions: Using two different methods, white clover’s potential to absorb intact asparagine, even in the presence of inorganic nitrogen, was confirmed. Thedual-methodology approach employed in this study demonstrates how the post-uptake metabolism can affect quantification of amino acid uptake.

AB - Aim: This study was conducted to answer the question of whether clover can absorb asparagine in the presence and absence of inorganic nitrogen, as well as to determine the resulting concentration of post-uptake compounds closely involved in asparagine metabolism.Methods: Clover was grown at two asparagine concentrations (10 μMand 1mM) supplied in both the absence and presence of ammonium nitrate. Using dual-labeled 13C15N-asparagine, the uptake rate was analyzed via bulk 15N and 13C excess and the detection of intact 13C15N-asparagine in white clover.Results: The results from the two methods indicated greater utilization of 13C15N-asparagine in the 10 μM treatment than in the 1 mM treatment. The 13C15Nasparagine uptake rate was higher when 13C15N-asparagine was provided alone than when it was supplemented with inorganic nitrogen. Up to nine times lower uptake rates were obtained when intact 13C15N-asparaginewas measured than when bulk 15N and 13C excess were analyzed. The labeled amino acids that are closely related to 13C15N-asparagine metabolism (aspartic acid, glutamic acid and glutamine) were detected in clover roots and shoots.Conclusions: Using two different methods, white clover’s potential to absorb intact asparagine, even in the presence of inorganic nitrogen, was confirmed. Thedual-methodology approach employed in this study demonstrates how the post-uptake metabolism can affect quantification of amino acid uptake.

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DO - 10.1007/s11104-016-2896-z

M3 - Journal article

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JO - Plant and Soil

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ER -

Direct acquisition of organic N by white clover even in the presence of inorganic N

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