Sanjay Lamba scite author profile

Sanjay Lamba

3Publications

9Citation Statements Received

115Citation Statements Given

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109

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Central University of Rajasthan, Computational Sciences (United States), Maharshi Dayanand Saraswati University

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Organization of biogeochemical nitrogen pathways with switch-like adjustment in fluctuating soil redox conditions

et al. 2017

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Nitrogen is cycled throughout ecosystems by a suite of biogeochemical processes. The high complexity of the nitrogen cycle resides in an intricate interplay between reversible biochemical pathways alternatively and specifically activated in response to diverse environmental cues. Despite aggressive research, how the fundamental nitrogen biochemical processes are assembled and maintained in fluctuating soil redox conditions remains elusive. Here, we address this question using a kinetic modelling approach coupled with dynamical systems theory and microbial genomics. We show that alternative biochemical pathways play a key role in keeping nitrogen conversion and conservation properties invariant in fluctuating environments. Our results indicate that the biochemical network holds inherent adaptive capacity to stabilize ammonium and nitrate availability, and that the bistability in the formation of ammonium is linked to the transient upregulation of the amo-hao mediated nitrification pathway. The bistability is maintained by a pair of complementary subsystems acting as either source or sink type systems in response to soil redox fluctuations. It is further shown how elevated anthropogenic pressure has the potential to break down the stability of the system, altering substantially ammonium and nitrate availability in the soil, with dramatic effects on biodiversity.

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Supplementary material from "Organization of biogeochemical nitrogen pathways with switch-like adjustment in fluctuating soil redox conditions"

Lamba¹,

Bera²,

Rashid³

et al. 2016

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Robust regulation of hepatic pericentral amination by glutamate dehydrogenase kinetics

et al. 2016

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Impaired glutamate dehydrogenase (GDH) sensitivity to its inhibitors causes excessive insulin secretion by pancreatic beta-cells and defective ammonia metabolism in the liver. These symptoms are commonly associated with hyperinsulinism/hyperammonemia syndrome (HI/HA), which causes recurrent hypoglycaemia in early infancy. Hepatic localization of GDH amination and deamination activities linked with the urea cycle is known to be involved in ammonia metabolism and detoxification. Although deamination activities of hepatic GDH in the periportal zones of liver lobules and its connection to the urea cycle have been exhaustively investigated, physiological roles of GDH amination activity observed at pericentral zones have often been overlooked. Using kinetic modelling approaches, here we report a new role for hepatic GDH amination kinetics in maintaining ammonia homeostasis under an excess intrahepatocyte input of ammonium. We have shown that α-ketoglutarate substrate inhibition kinetics of GDH, which include both random and obligatory ordered association/dissociation reactions, robustly control the ratio between glutamate and ammonium under a wide range of intracellular substrate variation. Dysregulation of this activity under pericentral nitrogen insufficiency contributes to the breaking down of ammonia homeostasis and thereby can significantly affect HI/HA syndrome.

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Sanjay Lamba

Organization of biogeochemical nitrogen pathways with switch-like adjustment in fluctuating soil redox conditions

Supplementary material from "Organization of biogeochemical nitrogen pathways with switch-like adjustment in fluctuating soil redox conditions"

Robust regulation of hepatic pericentral amination by glutamate dehydrogenase kinetics

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