developmental biology

MicroRNA-Driven Developmental Remodeling in the Brain Distinguishes Humans from Other Primates

by Christoph on December 8, 2011

in Publications

How the human brain and human cognitive abilities evolved in less than six million years has long puzzled scientists. A new study conducted by scientists in China and Germany, and published December 6 in the online, open-access journal PLoS Biology, now provides a possible explanation by showing that activity levels of genes in the human brain during development changed substantially compared to chimpanzees and macaques. What’s more, these changes might be caused by a handful of key regulatory microRNAs.

The authors studied gene activity in human, chimpanzee and macaque brains across their lifetimes. Starting from newborns, they investigated two brain regions; the cerebellum, which is responsible for motor activity, and the prefrontal cortex, which has roles in more complex behavior such as social interactions or abstract thinking. They first studied the simple gene activity differences between species that are seen at all ages. Although many genes show such simple differences, there was no disparity in numbers of these differences between the human and the chimpanzee evolutionary lineages. Moreover, most of these differences were observed in [click to continue…]

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Integrating microRNA and mRNA expression profiles for identification of regulatory networks

by Chris on October 15, 2009

in Technical Article

The discovery of microRNA as an additional regulatory mechanism has been a revolution to the field of Developmental Biology. While early research has focused on the identification of miRNAs using a combination of experimental and computational techniques, subsequent studies have focused on identification of miRNA-target mRNA pairs as a means of identifying regulatory networks. It has been shown that the relationship between messenger RNA and microRNA (often an inverse relationship) plays a large role in cell functionality, especially in the early stages of cell development. [click to continue…]

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