AbstractThe concept of ‘organismal complexity’ has had a chequered career in genetics, with no rigorous operational definition available for the term. The recent finding that Drosophila melanogaster has more than four thousand fewer genes than the nematode forces a re-examination of whether gene number, in itself, can be taken as any real guide to complexity
AbstractGenome sizes vary enormously. This variation in DNA content correlates with effective popula...
In the past decade or so, the availability of completely sequenced genomes and their annotations ope...
This paper studies the information content of the chromosomes of 24 species. In a first phase, a sc...
AbstractThe concept of ‘organismal complexity’ has had a chequered career in genetics, with no rigor...
To make a case for or against a trend in the evolution of complexity in biological evolution, comple...
Although natural selection does not guarantee that organisms will increase in complexity as they evo...
AbstractA low mutation rate is required for the evolution of large genomes. But is the repression of...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
Genome size varies widely across organisms with no tie to organismal complexity. While much of the v...
The complexity of higher organisms, which arises in the course of embryonic development from the muc...
Regarding the widespread confusion about the concept and nature of complexity, information and biolo...
There are two intriguing paradoxes in molecular biology-the inconsistent relationship between organi...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
Regarding the widespread confusion about the concept and nature of complexity, information and biolo...
The rapid evolution of repetitive DNA sequences, including satellite DNA, tandem duplications, and t...
AbstractGenome sizes vary enormously. This variation in DNA content correlates with effective popula...
In the past decade or so, the availability of completely sequenced genomes and their annotations ope...
This paper studies the information content of the chromosomes of 24 species. In a first phase, a sc...
AbstractThe concept of ‘organismal complexity’ has had a chequered career in genetics, with no rigor...
To make a case for or against a trend in the evolution of complexity in biological evolution, comple...
Although natural selection does not guarantee that organisms will increase in complexity as they evo...
AbstractA low mutation rate is required for the evolution of large genomes. But is the repression of...
Whether or not Darwinian evolution leads to an increase in complexity depends crucially on what we m...
Genome size varies widely across organisms with no tie to organismal complexity. While much of the v...
The complexity of higher organisms, which arises in the course of embryonic development from the muc...
Regarding the widespread confusion about the concept and nature of complexity, information and biolo...
There are two intriguing paradoxes in molecular biology-the inconsistent relationship between organi...
International audienceUsing the RAevol model we investigate whether the molecular complexity of evol...
Regarding the widespread confusion about the concept and nature of complexity, information and biolo...
The rapid evolution of repetitive DNA sequences, including satellite DNA, tandem duplications, and t...
AbstractGenome sizes vary enormously. This variation in DNA content correlates with effective popula...
In the past decade or so, the availability of completely sequenced genomes and their annotations ope...
This paper studies the information content of the chromosomes of 24 species. In a first phase, a sc...