Title of article
A Markovian engine for a biological energy transducer: The catalytic wheel
Author/Authors
Tian Yow Tsong، نويسنده , , Cheng-Hung Chang، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
11
From page
323
To page
333
Abstract
The molecular machines in biological cells are made of proteins, DNAs and other classes of molecules. The structures of these molecules are characteristically “soft”, highly flexible, and yet their interactions with other molecules or ions are specific and selective. This chapter discusses a prevalent form, the catalytic wheel, or the energy transducer of cells, examines its mechanism of action, and extracts from it a set of simple but general rules for understanding the energetics of the biomolecular devices. These rules should also benefit design of manmade nanometer scale machines such as rotary motors or track-guided linear transporters. We will focus on an electric work that, by matching system dynamics and then enhancing the conformational fluctuation of one or several driver proteins, converts stochastic input of energy into rotation or locomotion of a receptor protein. The spatial (or barrier) and temporal symmetry breakings required for selected driver/receptor combinations are examined. This electric ratchet consists of a core engine that follows the Markovian dynamic, alleviates difficulties encountered in rigid mechanical model, and tailors to the soft-matter characteristics of the biomolecules.
Keywords
Biological motors , enzyme , Catalytic wheel , Ratchet
Journal title
BioSystems
Serial Year
2007
Journal title
BioSystems
Record number
497819
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