Modeling of biological processes by using membrane computing formalism

Research output: Contribution to journalArticle

7 Citations (Scopus)

Abstract

Problem statement: Membrane computing has structural resemblance with the cell structure. This characteristic provides the versatility in the modeling of biological processes. Approach: This study was carried to discuss the membrane computing formalism in modeling biological processes by analyzing two examples: Photosynthesis in chloroplast and Sodium-Potassium exchange pump. Results: The modeling of these two examples showed membrane computing formalism has the capability to capture the fundamental features and elements of biological processes. Conclusion: There are flexibilities and advantages in modeling biological processes with membrane computing but its formalism need further expansion to accommodate complex biological processes.

Original languageEnglish
Pages (from-to)1961-1969
Number of pages9
JournalAmerican Journal of Applied Sciences
Volume6
Issue number11
Publication statusPublished - 2009

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Biological Phenomena
Membranes
Sodium-Potassium-Exchanging ATPase
Photosynthesis
Chloroplasts

Keywords

  • Membrane computing formalism
  • Modeling biological processes

ASJC Scopus subject areas

  • General

Cite this

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title = "Modeling of biological processes by using membrane computing formalism",
abstract = "Problem statement: Membrane computing has structural resemblance with the cell structure. This characteristic provides the versatility in the modeling of biological processes. Approach: This study was carried to discuss the membrane computing formalism in modeling biological processes by analyzing two examples: Photosynthesis in chloroplast and Sodium-Potassium exchange pump. Results: The modeling of these two examples showed membrane computing formalism has the capability to capture the fundamental features and elements of biological processes. Conclusion: There are flexibilities and advantages in modeling biological processes with membrane computing but its formalism need further expansion to accommodate complex biological processes.",
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AU - Mohd. Zin, Abdullah

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AB - Problem statement: Membrane computing has structural resemblance with the cell structure. This characteristic provides the versatility in the modeling of biological processes. Approach: This study was carried to discuss the membrane computing formalism in modeling biological processes by analyzing two examples: Photosynthesis in chloroplast and Sodium-Potassium exchange pump. Results: The modeling of these two examples showed membrane computing formalism has the capability to capture the fundamental features and elements of biological processes. Conclusion: There are flexibilities and advantages in modeling biological processes with membrane computing but its formalism need further expansion to accommodate complex biological processes.

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