There are two intriguing paradoxes in molecular biology-the inconsistent relationship between organismal complexity and (1) cellular DNA content and (2) the number of protein-coding genes-referred to as the C-value and G-value paradoxes, respectively. The C-value paradox may be largely explained by varying ploidy. The G-value paradox is more problematic, as the extent of protein coding sequence remains relatively static over a wide range of developmental complexity. We show by analysis of sequenced genomes that the relative amount of non-protein-coding sequence increases consistently with complexity. We also show that the distribution of introns in complex organisms is non-random. Genes composed of large amounts of intronic sequence are sig...
It appears that the genetic programming of humans and other complex organisms has been misunderstood...
There is now compelling evidence that the complexity of higher organisms correlates with the relativ...
In eukaryotes, the haploid DNA content (C-value) varies widely across lineages without an apparent c...
The complexity of higher organisms, which arises in the course of embryonic development from the muc...
It is now clear that animal genomes are predominantly non-protein-coding, and that these sequences e...
Ever since the first genomes of model organisms were sequenced it became obvious that the number of ...
The central dogma of biology holds that genetic information normally flows from DNA to RNA to protei...
The non-coding portion of human genome is punctuated by a large number of multispecies conserved seq...
[[abstract]]Background: Organismal complexity is suggested to increase with the complexity of transc...
Around 98% of all transcriptional output in humans is noncoding RNA. RNA-mediated gene regulation is...
Genomes of Bacteria and Archaea are extremely compact, almost devoid of noncoding DNA. Sizes of thes...
AbstractThe dogmatic view of RNA as a mere necessity in the transfer of information between DNA and ...
Eukaryotic phenotypic diversity arises from multitasking of a core proteome of limited size. Multita...
Abstract Background How genome complexity affects organismal phenotypic complexity is a fundamental ...
The origin of biological information is an unexplained phenomenon. Prior research in resolving the o...
It appears that the genetic programming of humans and other complex organisms has been misunderstood...
There is now compelling evidence that the complexity of higher organisms correlates with the relativ...
In eukaryotes, the haploid DNA content (C-value) varies widely across lineages without an apparent c...
The complexity of higher organisms, which arises in the course of embryonic development from the muc...
It is now clear that animal genomes are predominantly non-protein-coding, and that these sequences e...
Ever since the first genomes of model organisms were sequenced it became obvious that the number of ...
The central dogma of biology holds that genetic information normally flows from DNA to RNA to protei...
The non-coding portion of human genome is punctuated by a large number of multispecies conserved seq...
[[abstract]]Background: Organismal complexity is suggested to increase with the complexity of transc...
Around 98% of all transcriptional output in humans is noncoding RNA. RNA-mediated gene regulation is...
Genomes of Bacteria and Archaea are extremely compact, almost devoid of noncoding DNA. Sizes of thes...
AbstractThe dogmatic view of RNA as a mere necessity in the transfer of information between DNA and ...
Eukaryotic phenotypic diversity arises from multitasking of a core proteome of limited size. Multita...
Abstract Background How genome complexity affects organismal phenotypic complexity is a fundamental ...
The origin of biological information is an unexplained phenomenon. Prior research in resolving the o...
It appears that the genetic programming of humans and other complex organisms has been misunderstood...
There is now compelling evidence that the complexity of higher organisms correlates with the relativ...
In eukaryotes, the haploid DNA content (C-value) varies widely across lineages without an apparent c...