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Query: EC:1.4.1.2 (
glutamate dehydrogenase
)
4,380
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Evidence for the existence of a glutamine cycle in Neurospora crassa is reviewed. Through this cycle glutamine is converted into glutamate by glutamate synthase and catabolized by the glutamine transaminase-
omega-amidase
pathway, the products of which (2-oxoglutarate and ammonium) are the substrates for
glutamate dehydrogenase
-NADPH, which synthesizes glutamate. In the final step ammonium is assimilated into glutamine by the action of a glutamine synthetase (GS), which is formed by two distinct polypeptides, one catalytically very active (GS beta), and the other (GS alpha) less active but endowed with the capacity to modulate the activity of GS alpha. Glutamate synthase uses the amide nitrogen of glutamine to synthesize glutamate;
glutamate dehydrogenase
uses ammonium, and both are required to maintain the level of glutamate. The energy expended in the synthesis of glutamine drives the cycle. The glutamine cycle is not futile, because it is necessary to drive an effective carbon flow to support growth; in addition, it facilitates the allocation of nitrogen or carbon according to cellular demands. The glutamine cycle which dissipates energy links catabolism and anabolism and, in doing so, buffers variations in the nutrient supply and drives energy generation and carbon flow for optimal cell function.
...
PMID:Glutamine metabolism and cycling in Neurospora crassa. 214 4
L-[amide-13N]glutamine in Neurospora crassa is metabolized to [13N]glutamate by glutamate synthase and to [13N]ammonium by the glutamine transaminase-
omega-amidase
pathway. The [13N]ammonium released is assimilated by
glutamate dehydrogenase
and glutamine synthetase, confirming the operation of a glutamine cycle. Most of the nitrogen is retained during cycling between glutamate and glutamine.
...
PMID:13N isotope studies of glutamine assimilation pathways in Neurospora crassa. 252 94
Neurospora crassa wild-type is almost unable to grow on glutamine as sole nitrogen and carbon source but a GDH-; GS +/- double mutant strain, lacking NADP-dependent
glutamate dehydrogenase
and partially lacking glutamine synthetase did grow. Under these conditions, the double mutant had a higher chemical energy content than the wild-type. Enzyme assays and labelling experiments with glutamine indicated that in the double mutant glutamine was degraded to ammonium and to carbon skeletons by glutamate synthase, the catabolic (NADH-dependent)
glutamate dehydrogenase
and the glutamine transaminase-
omega-amidase
pathway.
...
PMID:Glutamine assimilation pathways in Neurospora crassa growing on glutamine as sole nitrogen and carbon source. 257 59
Evidence for the participation of the glutamine transaminase-
omega-amidase
pathway in the utilization of glutamine in Neurospora crassa was obtained. Its participation is indicated by the in vitro activities of glutamine transaminase and
omega-amidase
, the in vivo accumulation of alpha-ketoglutaramate when an inhibitor of transamidases is present, and the inhibition by aminooxyacetic acid and 6-diazo-5-oxo-L-norleucine of the ammonium excreted in the presence of glutamine by a mutant strain that lacks
glutamate dehydrogenase
and glutamate synthase.
...
PMID:Omega-amidase pathway in the degradation of glutamine in Neurospora crassa. 285 67
