Looked at life from both sides now

Jillian E. Smith-Carpenter; Allisandra K. Mowles; Anil K. Mehta; David G. Lynn

doi:10.3390/life4040887

Looked at life from both sides now

Jillian E. Smith-Carpenter, Allisandra K. Mowles, Anil K. Mehta, David G. Lynn

Fairfield University

Research output: Contribution to journal › Article › peer-review

Abstract

As the molecular top–down causality emerging through comparative genomics is combined with the bottom–up dynamic chemical networks of biochemistry, the molecular symbiotic relationships driving growth of the tree of life becomes strikingly apparent. These symbioses can be mutualistic or parasitic across many levels, but most foundational is the complex and intricate mutualism of nucleic acids and proteins known as the central dogma of biological information flow. This unification of digital and analog molecular information within a common chemical network enables processing of the vast amounts of information necessary for cellular life. Here we consider the molecular information pathways of these dynamic biopolymer networks from the perspective of their evolution and use that perspective to inform and constrain pathways for the construction of mutualistic polymers.

Original language	American English
Journal	Life
Volume	4
DOIs	https://doi.org/10.3390/life4040887
State	Published - Jan 1 2014

Keywords

dynamic chemical networks
digital and analog information
prions
amyloid
chemical and biomolecular evolution
molecular mutualisms

Disciplines

Chemistry
Physical Sciences and Mathematics

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10.3390/life4040887License: CC BY

Cite this

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abstract = " As the molecular top–down causality emerging through comparative genomics is combined with the bottom–up dynamic chemical networks of biochemistry, the molecular symbiotic relationships driving growth of the tree of life becomes strikingly apparent. These symbioses can be mutualistic or parasitic across many levels, but most foundational is the complex and intricate mutualism of nucleic acids and proteins known as the central dogma of biological information flow. This unification of digital and analog molecular information within a common chemical network enables processing of the vast amounts of information necessary for cellular life. Here we consider the molecular information pathways of these dynamic biopolymer networks from the perspective of their evolution and use that perspective to inform and constrain pathways for the construction of mutualistic polymers.",

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AU - Smith-Carpenter, Jillian E.

AU - Mowles, Allisandra K.

AU - Mehta, Anil K.

AU - Lynn, David G.

PY - 2014/1/1

Y1 - 2014/1/1

N2 - As the molecular top–down causality emerging through comparative genomics is combined with the bottom–up dynamic chemical networks of biochemistry, the molecular symbiotic relationships driving growth of the tree of life becomes strikingly apparent. These symbioses can be mutualistic or parasitic across many levels, but most foundational is the complex and intricate mutualism of nucleic acids and proteins known as the central dogma of biological information flow. This unification of digital and analog molecular information within a common chemical network enables processing of the vast amounts of information necessary for cellular life. Here we consider the molecular information pathways of these dynamic biopolymer networks from the perspective of their evolution and use that perspective to inform and constrain pathways for the construction of mutualistic polymers.

AB - As the molecular top–down causality emerging through comparative genomics is combined with the bottom–up dynamic chemical networks of biochemistry, the molecular symbiotic relationships driving growth of the tree of life becomes strikingly apparent. These symbioses can be mutualistic or parasitic across many levels, but most foundational is the complex and intricate mutualism of nucleic acids and proteins known as the central dogma of biological information flow. This unification of digital and analog molecular information within a common chemical network enables processing of the vast amounts of information necessary for cellular life. Here we consider the molecular information pathways of these dynamic biopolymer networks from the perspective of their evolution and use that perspective to inform and constrain pathways for the construction of mutualistic polymers.

KW - dynamic chemical networks

KW - digital and analog information

KW - prions

KW - amyloid

KW - chemical and biomolecular evolution

KW - molecular mutualisms

UR - https://digitalcommons.fairfield.edu/chemistry-facultypubs/39

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DO - 10.3390/life4040887

M3 - Article

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JO - Life

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Looked at life from both sides now

Abstract

Keywords

Disciplines

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