Add to ORKGLife has a special status, it even has its own science: biology. In many ways, the logic of life seems to differ from that of atoms, molecules, planets, or any other 'inanimate object'. However, life is increasingly measured using quantities shared by all sciences, like mass, force, energy or power. An analysis of the dimensions of these quantities provides powerful ways to infer the relationships they might have with one another. Here we show that a dimensional analysis of the metabolic laws connecting the characteristic powers and masses of living organisms offers new ways to understand the deep connections between the chemistry of microscopic molecules and the physics of macroscopic objects bound by gravity. This analysis reveals a link ...
In this review I show that four major kinds of theoretical approaches have been used to explain the ...
The process of life was described by physicist Erwin Schr\uf6dinger as the spontaneous creation of o...
This is the third in a series of three papers devoted to energy flow and entropy changes in chemical...
Abstract We review the most comprehensive metabolic theory of life existing to date. A special focus...
Life, as the most mysterious and unique phenomenon on the Earth, has confused humans since time bega...
Metabolic theory specifies constraints on the metabolic organisation of individual organisms. These ...
21 pages, 3 figuresInternational audienceWe study the statistical underpinnings of life. We question...
As humanity struggles to find a path to resilience amidst global change vagaries, understanding orga...
The diversity of life on Earth raises the question of whether it is possible to have a single theore...
AbstractMost genomes are much more complex than required for the minimum chemistry of life. Evolutio...
Most genomes are much more complex than required for the minimum chemistry of life. Evolution has se...
Kleiber\u27s law in biology states that the specific metabolic rate (metabolic rate per unit mass) s...
At the molecular level biology is intrinsically noisy. The forces that regulate the myriad of molecu...
The nature of life has been a topic of interest from the earliest of times, and efforts to explain i...
Metabolic networks perform some of the most fundamental functions in living cells, including energy ...
In this review I show that four major kinds of theoretical approaches have been used to explain the ...
The process of life was described by physicist Erwin Schr\uf6dinger as the spontaneous creation of o...
This is the third in a series of three papers devoted to energy flow and entropy changes in chemical...
Abstract We review the most comprehensive metabolic theory of life existing to date. A special focus...
Life, as the most mysterious and unique phenomenon on the Earth, has confused humans since time bega...
Metabolic theory specifies constraints on the metabolic organisation of individual organisms. These ...
21 pages, 3 figuresInternational audienceWe study the statistical underpinnings of life. We question...
As humanity struggles to find a path to resilience amidst global change vagaries, understanding orga...
The diversity of life on Earth raises the question of whether it is possible to have a single theore...
AbstractMost genomes are much more complex than required for the minimum chemistry of life. Evolutio...
Most genomes are much more complex than required for the minimum chemistry of life. Evolution has se...
Kleiber\u27s law in biology states that the specific metabolic rate (metabolic rate per unit mass) s...
At the molecular level biology is intrinsically noisy. The forces that regulate the myriad of molecu...
The nature of life has been a topic of interest from the earliest of times, and efforts to explain i...
Metabolic networks perform some of the most fundamental functions in living cells, including energy ...
In this review I show that four major kinds of theoretical approaches have been used to explain the ...
The process of life was described by physicist Erwin Schr\uf6dinger as the spontaneous creation of o...
This is the third in a series of three papers devoted to energy flow and entropy changes in chemical...