A computational model for monitoring the hexose monophosphate (HMP) shunt pathway

Abstract

A novel approach is introduced in this paper to execute computing device with non-deterministic finite automata for hexose monophosphate shunt pathway process. It is designed to observe the hexose monophosphate shunt pathway metabolism along the case of acceptance and rejection. The state of rejection in non-deterministic finite automaton for red blood cells is glucose-6-phosphate dehydrogenase deficiency, which can lead to varying degrees of hemolysis. The manifestation of this study is the building of a machine that is used for the improvement of NADPH and ribose sugars. More over, it is necessary to know the mechanism that occurs during such operation. The computational complexity in such an attempt is applied to HMP shunt pathway. As this pathway is active in rapidly dividing cells and in tissues where there is more requirement of NADPH, it is shown that nondeterministic finite automata accept HMP shunt pathway.