All life on Earth is unified by its use of a shared set of component chemical compounds and reactions, providing a detailed model for universal biochemistry. However, this notion of universality is specific to known biochemistry and does not allow quantitative predictions about examples not yet observed. Here, we introduce a more generalizable concept of biochemical universality that is more akin to the kind of universality found in physics. Using annotated genomic datasets including an ensemble of 11,955 metagenomes, 1,282 archaea, 11,759 bacteria, and 200 eukaryotic taxa, we show how enzyme functions form universality classes with common scaling behavior in their relative abundances across the datasets. We verify that these scaling laws a...
The survey of components in living systems at different levels of organization enables an evolutiona...
AbstractLiving cells are able to harvest energy by coupling exergonic electron transfer between redu...
The origin and natural history of molecular functions hold the key to the emergence of cellular orga...
All life on Earth is unified by its use of a shared set of component chemical compounds and reaction...
The standard molecular clock describes a constant rate of molecular evolution and provides a powerfu...
Organisms leave a distinctive chemical signature in their environment because they synthesize those ...
abstract: Biochemical reactions underlie all living processes. Their complex web of interactions is ...
Living organisms are the most complex chemical system known to exist, yet exploit only a small cons...
Abstract: Scaling laws underpin unifying theories of biodiversity and are among the most predictivel...
Abstract Background Twenty amino acids comprise the u...
<div><p>The origin of metabolism has been linked to abiotic chemistries that existed in our planet a...
Protein domains sometime combine to form multidomain proteins and are acquired or lost in lineages o...
<div><p>The stoichiometry of a metabolic network gives rise to a set of conservation laws for the ag...
Abstract Background Cellular metabolism is a fundamen...
My goal is to identify processes of life that leave measurable effects on an organism's environment,...
The survey of components in living systems at different levels of organization enables an evolutiona...
AbstractLiving cells are able to harvest energy by coupling exergonic electron transfer between redu...
The origin and natural history of molecular functions hold the key to the emergence of cellular orga...
All life on Earth is unified by its use of a shared set of component chemical compounds and reaction...
The standard molecular clock describes a constant rate of molecular evolution and provides a powerfu...
Organisms leave a distinctive chemical signature in their environment because they synthesize those ...
abstract: Biochemical reactions underlie all living processes. Their complex web of interactions is ...
Living organisms are the most complex chemical system known to exist, yet exploit only a small cons...
Abstract: Scaling laws underpin unifying theories of biodiversity and are among the most predictivel...
Abstract Background Twenty amino acids comprise the u...
<div><p>The origin of metabolism has been linked to abiotic chemistries that existed in our planet a...
Protein domains sometime combine to form multidomain proteins and are acquired or lost in lineages o...
<div><p>The stoichiometry of a metabolic network gives rise to a set of conservation laws for the ag...
Abstract Background Cellular metabolism is a fundamen...
My goal is to identify processes of life that leave measurable effects on an organism's environment,...
The survey of components in living systems at different levels of organization enables an evolutiona...
AbstractLiving cells are able to harvest energy by coupling exergonic electron transfer between redu...
The origin and natural history of molecular functions hold the key to the emergence of cellular orga...