Add to ORKGWe investigated the hypothesis that essential amino acids are being replaced in proteins by non-essential amino acids.We compared the amino acid composition in human, worm and fly proteomes, organisms that cannot synthesize all amino acids, with the amino acids of the proteomes of plant, bakers yeast and budding yeast, which are capable of synthesizing them. The analysis covered 460,737 proteins (212,197,907 amino acids). The data suggest a bias towards the usage of non-essential amino acids (mostly the set GAPQC) by metazoan organisms, except for the worm, a Pseudocoelomata. Our results support the hypothesis that non-essential amino acids have been substituting essential ones in the Coelomata
Although substantial and ecologically significant differences in elemental composition are well docu...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...
BACKGROUND: The evolutionary characterization of species and lifestyles at global levels is nowadays...
Based on searches for disabled homologs to known proteins, we have identified a large population of ...
International audienceThe levels of cellular organization in living organisms are the results of a v...
ABSTRACT The levels of cellular organization in living organisms are the results of a variety of sel...
Parasitic protists are the cause of countless pathological conditions and economic issues in many pa...
The non-protein amino acids, with which we are concerned here, are not incorporated into the protein...
Essential amino acids (EAA) consist of a group of nine amino acids that animals are unable to synth...
International audienceCorrespondence analysis of 28 proteomes selected to span the entire realm of p...
Abstract The metabolic cycle of Saccharomyces cere-visiae consists of alternating oxidative (respira...
For most prokaryotic organisms, amino acid biosynthesis represents a significant portion of their ov...
Abstract Modern organisms commonly use the same set of 20 genetically coded amino acids for protein ...
If the enzymes responsible for biosynthesis of a given amino acid are repressed and the cognate amin...
Although substantial and ecologically significant differences in elemental composition are well docu...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...
BACKGROUND: The evolutionary characterization of species and lifestyles at global levels is nowadays...
Based on searches for disabled homologs to known proteins, we have identified a large population of ...
International audienceThe levels of cellular organization in living organisms are the results of a v...
ABSTRACT The levels of cellular organization in living organisms are the results of a variety of sel...
Parasitic protists are the cause of countless pathological conditions and economic issues in many pa...
The non-protein amino acids, with which we are concerned here, are not incorporated into the protein...
Essential amino acids (EAA) consist of a group of nine amino acids that animals are unable to synth...
International audienceCorrespondence analysis of 28 proteomes selected to span the entire realm of p...
Abstract The metabolic cycle of Saccharomyces cere-visiae consists of alternating oxidative (respira...
For most prokaryotic organisms, amino acid biosynthesis represents a significant portion of their ov...
Abstract Modern organisms commonly use the same set of 20 genetically coded amino acids for protein ...
If the enzymes responsible for biosynthesis of a given amino acid are repressed and the cognate amin...
Although substantial and ecologically significant differences in elemental composition are well docu...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...
Proteins with low-complexity domains continue to emerge as key players in both normal and pathologic...