Add to ORKGNitrogen is one of the essential element required for plant growth and development. In plants, most of the nitrogen is stored in arginine. Hence, metabolism of arginine to urea by arginase and its further hydrolysis to ammonia by urease is involved in nitrogen recycling to meet the metabolic demands of growing plants. In this respect, plant arginases differ from that of animals. Animals excrete urea while plants recycle the urea. However, the studies on the biochemical and biophysical characteristics of plant arginase are limited when compared to animal arginase(s). In this review, the structural and biochemical characteristics of various plant arginases are discussed. Moreover, the significance of arginase in nitrogen recycling is explaine...
<div><p>Arginase is the only enzyme capable of producing urea in plants. This enzyme also contribute...
The hypertrophy and hyperplasia of infected roots into clubs are the intrinsic characteristics of cl...
International audienceThe hypertrophy and hyperplasia of infected roots into clubs are the intrinsic...
Arginase is one of the key enzymes responsible for maintaining the essential levels of nitrogen amon...
Plant productivity is frequently limited by the availability of nitrogen. Understanding the mechanis...
Nitrogen is a limiting resource for plant growth in most terrestrial habitats since large amounts of...
Arginine plays a relevant role in plant metabolism due to its importance as building block of protei...
Arabidopsis possesses two arginase-encoding genes, ARGAH1 and ARGAH2, catalysing the catabolism of a...
The in vitro activity of arginase (EC 3.5.3.1) was investigated in youngest-mature leaves and roots ...
Open Access article - can be viewed online without a subscription at: www.plantphysiol.org/cgi/doi/...
The seeds of Lathyrus sativus contain the unusual amino acid homoarginine. The possible breakdown of...
Background and aims Urea is the predominant form of N applied as fertilizer to crops, but it is also...
Arginase (EC 3.5.3.1) catalyses biodegradation of L-arginine to L‑ornithine and urea. The aim of the...
<p>Compared with arginase activity of non-transgenic control plants, expression of OsARG increase th...
The work presented in this thesis describes the structural characterization of arginase from rat liv...
<div><p>Arginase is the only enzyme capable of producing urea in plants. This enzyme also contribute...
The hypertrophy and hyperplasia of infected roots into clubs are the intrinsic characteristics of cl...
International audienceThe hypertrophy and hyperplasia of infected roots into clubs are the intrinsic...
Arginase is one of the key enzymes responsible for maintaining the essential levels of nitrogen amon...
Plant productivity is frequently limited by the availability of nitrogen. Understanding the mechanis...
Nitrogen is a limiting resource for plant growth in most terrestrial habitats since large amounts of...
Arginine plays a relevant role in plant metabolism due to its importance as building block of protei...
Arabidopsis possesses two arginase-encoding genes, ARGAH1 and ARGAH2, catalysing the catabolism of a...
The in vitro activity of arginase (EC 3.5.3.1) was investigated in youngest-mature leaves and roots ...
Open Access article - can be viewed online without a subscription at: www.plantphysiol.org/cgi/doi/...
The seeds of Lathyrus sativus contain the unusual amino acid homoarginine. The possible breakdown of...
Background and aims Urea is the predominant form of N applied as fertilizer to crops, but it is also...
Arginase (EC 3.5.3.1) catalyses biodegradation of L-arginine to L‑ornithine and urea. The aim of the...
<p>Compared with arginase activity of non-transgenic control plants, expression of OsARG increase th...
The work presented in this thesis describes the structural characterization of arginase from rat liv...
<div><p>Arginase is the only enzyme capable of producing urea in plants. This enzyme also contribute...
The hypertrophy and hyperplasia of infected roots into clubs are the intrinsic characteristics of cl...
International audienceThe hypertrophy and hyperplasia of infected roots into clubs are the intrinsic...