Generation of a mouse model for arginase II deficiency by targeted disruption of the arginase II gene
O Shi, SM Morris Jr, H Zoghbi, CW Porter… - … and cellular biology, 2001 - Taylor & Francis
O Shi, SM Morris Jr, H Zoghbi, CW Porter, WE O'Brien
Molecular and cellular biology, 2001•Taylor & FrancisMammals express two isoforms of arginase, designated types I and II. Arginase I is a
component of the urea cycle, and inherited defects in arginase I have deleterious
consequences in humans. In contrast, the physiologic role of arginase II has not been
defined, and no deficiencies in arginase II have been identified in humans. Mice with a
disruption in the arginase II gene were created to investigate the role of this enzyme.
Homozygous arginase II-deficient mice were viable and apparently indistinguishable from …
component of the urea cycle, and inherited defects in arginase I have deleterious
consequences in humans. In contrast, the physiologic role of arginase II has not been
defined, and no deficiencies in arginase II have been identified in humans. Mice with a
disruption in the arginase II gene were created to investigate the role of this enzyme.
Homozygous arginase II-deficient mice were viable and apparently indistinguishable from …
Mammals express two isoforms of arginase, designated types I and II. Arginase I is a component of the urea cycle, and inherited defects in arginase I have deleterious consequences in humans. In contrast, the physiologic role of arginase II has not been defined, and no deficiencies in arginase II have been identified in humans. Mice with a disruption in the arginase II gene were created to investigate the role of this enzyme. Homozygous arginase II-deficient mice were viable and apparently indistinguishable from wild-type mice, except for an elevated plasma arginine level which indicates that arginase II plays an important role in arginine homeostasis.
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