<p>The chance appearance of certain combinations of elements in the genome can lead to the generation of new genes that drive evolutionary innovation.<br /><br /></p>.<p>The formation of new genes from previously non-active parts of the genome was, until recently, considered highly improbable. <br /><br />This study led by Jorge Ruiz-Orera and Mar Alba from Hospital del Mar Medical Research Institute (IMIM-ICREA) in Barcelona, Spain showed that the mutations that occur normally in our genetic material may be sufficient to explain how this happens. <br /><br />Once expressed, the genes can act as a substrate for the evolution of new molecular functions. <br /><br />In every genome, there are sets of genes, which are unique to that particular species. <br />In this study, the scientists first identified thousands of genes that were specific to human or chimpanzee. <br /><br />Then, they searched the macaque genome and discovered that this species had significantly less element motifs in the corresponding genomic sequences. <br /><br />These motifs are recognised by proteins that activate gene expression, a necessary step in the formation of a new gene, the study said.<br /><br />The findings appeared in the journal PLOS Genetics.</p>
<p>The chance appearance of certain combinations of elements in the genome can lead to the generation of new genes that drive evolutionary innovation.<br /><br /></p>.<p>The formation of new genes from previously non-active parts of the genome was, until recently, considered highly improbable. <br /><br />This study led by Jorge Ruiz-Orera and Mar Alba from Hospital del Mar Medical Research Institute (IMIM-ICREA) in Barcelona, Spain showed that the mutations that occur normally in our genetic material may be sufficient to explain how this happens. <br /><br />Once expressed, the genes can act as a substrate for the evolution of new molecular functions. <br /><br />In every genome, there are sets of genes, which are unique to that particular species. <br />In this study, the scientists first identified thousands of genes that were specific to human or chimpanzee. <br /><br />Then, they searched the macaque genome and discovered that this species had significantly less element motifs in the corresponding genomic sequences. <br /><br />These motifs are recognised by proteins that activate gene expression, a necessary step in the formation of a new gene, the study said.<br /><br />The findings appeared in the journal PLOS Genetics.</p>