S. Uma scite author profile

Metabolically inert polyphosphoinositides seem to play an important role in the structural development of neurons, glia, and myelin. The metabolically active pool of PhIpp appears to be important for the functional development of glia and myelin during the postweaning period, whereas PhIp seems to be more important for the functional development of neurons during the preweaning period. Neonatal undernutrition reduces the concentrations of structural polyphosphoinositides and metabolic PhIp while metabolic PhIpp remains unaltered. These effects can be reversed by postweaning nutritional rehabilitation. A continued postweaning protein deficiency of neonatally undernourished rats affects structural PhIpp more than PhIp. Metabolically active PhIpp is drastically reduced.

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BCD Adder Design using New Reversible Logic for Low Power Applications

Uma¹,

Parvathi²

2017

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S. Uma

Studies on Polyphosphoinositides in Developing Rat Brain

Decreased plasma taurine levels in retinitis pigmentosa

Effects of Preweaning Undernutrition and Continued Postweaning Protein Deficiency or Nutritional Rehabilitation on Polyphosphoinositides in Rat Brain

BCD Adder Design using New Reversible Logic for Low Power Applications

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