2013
DOI: 10.1002/ijch.201300063
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Effective Molarity Redux: Proximity as a Guiding Force in Chemistry and Biology

Abstract: The cell interior is a complex and demanding environment. An incredible variety of molecules jockey to identify the correct position–the specific interactions that promote biology that are hidden among countless unproductive options. Ensuring that the business of the cell is successful requires sophisticated mechanisms to impose temporal and spatial specificity–both on transient interactions and their eventual outcomes. Two strategies employed to regulate macromolecular interactions in a cellular context are c… Show more

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Cited by 17 publications
(15 citation statements)
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“…The ΔΔ G o values can be used to calculate the effective molarity (EM) for the appended ODNs on the supramolecular wire. In this case, the EM is a quantitative parameter for the evaluation of the chelate cooperative effect in DNA‐duplex formation.…”
Section: Figurementioning
confidence: 99%
“…The ΔΔ G o values can be used to calculate the effective molarity (EM) for the appended ODNs on the supramolecular wire. In this case, the EM is a quantitative parameter for the evaluation of the chelate cooperative effect in DNA‐duplex formation.…”
Section: Figurementioning
confidence: 99%
“…A common feature of the systems above is their ability to bring the desired interacting partners in proximity, which increases their effective molarity [19]. Whereas this principle is frequently applied in natural signal transduction pathways, this is not the only mechanism used to transduce the signal.…”
Section: Leila Motieimentioning
confidence: 99%
“…12 The concept of “effective molarity” provides a quantitative method for expressing the extent to which enforced proximity favors a given unimolecular process over the corresponding bi-molecular counterpart. 3,9,12 Mathematically, this value is simply the rate or equilibrium constant of the unimolecular process divided by that of a bi-molecular comparator reaction (k uni s −1 /k bi M −1 •s −1 ). 3,9,12 The resulting value (obtained in units of molarity) represents the theoretical reagent concentration at which the observed (pseudo-first-order) rate or equilibrium constant of the second-order process would match that of the unimolecular process.…”
mentioning
confidence: 99%
“…3,9,12 Mathematically, this value is simply the rate or equilibrium constant of the unimolecular process divided by that of a bi-molecular comparator reaction (k uni s −1 /k bi M −1 •s −1 ). 3,9,12 The resulting value (obtained in units of molarity) represents the theoretical reagent concentration at which the observed (pseudo-first-order) rate or equilibrium constant of the second-order process would match that of the unimolecular process. Effective molarities have been measured for a significant number of enzymatic processes, intramolecular organic reactions, and templated reactions involving small organic molecules.…”
mentioning
confidence: 99%
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