The unprecedented prowess of measurement techniques provides a detailed, multi-scale look into the depths of living systems. Understanding these avalanches of high-dimensional data-by distilling underlying principles and mechanisms-necessitates dimensional reduction. We propose that living systems achieve exquisite dimensional reduction, originating from their capacity to learn, through evolution and phenotypic plasticity, the relevant aspects of a non-random, smooth physical reality. We explain how geometric insights by mathematicians allow one to identify these genuine hallmarks of life and distinguish them from universal properties of generic data sets. We illustrate these principles in a concrete example of protein evolution, suggesting...
Living systems are the most complex and diverse systems in the universe with their multiple forms co...
Organisms and their features represent a complex system of solutions that can efficiently inspire th...
Living organisms represents the maybe most complex systems in the universe. This complexity is roote...
The unprecedented prowess of measurement techniques provides a detailed, multi-scale look into the d...
Life is a complex phenomenon and much research has been devoted to both understanding its origins fr...
By traveling through the inner structure of biological tissues, for instance by means of a scanning ...
Possibility to establish macroscopic phenomenological theory for biological systems, akin to the aki...
Proteins are the working machines of living systems. Directed by the DNA, of the order of a few hund...
In the last decades, the advances in data gathering technologies, from high-throughput sequencing to...
While evolution in general is driven by mutation and guided by natural selection, so far it has not ...
Complex living systems are difficult to understand. They obey the laws of physics and chemistry, but...
My idea of a theory in biology is quite different from the theoretical biology that is expressed as ...
This paper discusses the interrelations between physics and biology. Particularly, we analyse the ap...
The problem of dealing with complexity arises when we fail to achieve a desired behavior o...
The present view of biological phenomena is based on a biochemical paradigm that development of livi...
Living systems are the most complex and diverse systems in the universe with their multiple forms co...
Organisms and their features represent a complex system of solutions that can efficiently inspire th...
Living organisms represents the maybe most complex systems in the universe. This complexity is roote...
The unprecedented prowess of measurement techniques provides a detailed, multi-scale look into the d...
Life is a complex phenomenon and much research has been devoted to both understanding its origins fr...
By traveling through the inner structure of biological tissues, for instance by means of a scanning ...
Possibility to establish macroscopic phenomenological theory for biological systems, akin to the aki...
Proteins are the working machines of living systems. Directed by the DNA, of the order of a few hund...
In the last decades, the advances in data gathering technologies, from high-throughput sequencing to...
While evolution in general is driven by mutation and guided by natural selection, so far it has not ...
Complex living systems are difficult to understand. They obey the laws of physics and chemistry, but...
My idea of a theory in biology is quite different from the theoretical biology that is expressed as ...
This paper discusses the interrelations between physics and biology. Particularly, we analyse the ap...
The problem of dealing with complexity arises when we fail to achieve a desired behavior o...
The present view of biological phenomena is based on a biochemical paradigm that development of livi...
Living systems are the most complex and diverse systems in the universe with their multiple forms co...
Organisms and their features represent a complex system of solutions that can efficiently inspire th...
Living organisms represents the maybe most complex systems in the universe. This complexity is roote...