Gene regulatory code remained same across the evolution

The language used in the switches that turn genes on and off has remained the same across millions of years of evolution, according to a new study led by researchers at Karolinska Institutet in Sweden. The findings, which are published in the scientific journal "eLife", indicate that the differences between animals reside in the content and length of the instructions that are written using this conserved language.

Tiny fruit flies look very different from humans, but both are descended from a common ancestor that existed over 600 million years ago. Differences between animal species are often caused by the same or similar genes being switched on and off at various times and in different tissues in each species.

Each gene has a regulatory region that contains the instructions controlling when and where the gene is expressed. These instructions are written in a language often referred to as the 'gene regulatory code'. This code is read by proteins called transcription factors that bind to specific 'DNA words' and either increase or decrease the expression of the associated gene.

The gene regulatory regions differ between species. However, until now, it has been unclear if the instructions in these regions are written using the same gene regulatory code, or whether transcription factors found in different animals recognise different DNA words.

In the current study, the researchers used high throughput methods to identify the DNA words recognised by more than 240 transcription factors of the fruit fly, and then developed computational tools to compare them with the DNA words of humans.

"We observed that, in spite of more than 600 million years of evolution, almost all known DNA words found in humans and mice were recognised by fruit fly transcription factors", says Kazuhiro Nitta at the Department of Biosciences and Nutrition at Karolinska Institutet, first author of the study.

The researchers also noted that both fruit flies and humans have a few transcription factors that recognise unique DNA words and confer properties that are specific to each species, such as the fruit fly wing. Likewise, transcription factors that exist only in humans operate in cell types that do not exist in fruit flies. The findings suggest that changes in transcription factor specificities contribute to the formation of new types of cells.

Comments

  1. Peter Kinnon Peter Kinnon New Zealand says:

    The while aspects of this work are of interesting, the presentation of this article is rather misleading.

    The very common notion that "DNA creates the organism"  is very wrong.  Implications of this kind can all too easily help propagate the myth that structural and behavioral changes are driven by the gene (or group of genes) rather than by selection pressure, a function of the overall evolutionary network.

    It is important to bear in mind that the genome is merely a rather small library of protein recipes. It is entirely passive. It is actively manipulated, maintained and accessed by RNA and other cellular machinery.

    Machinery that is directly inherited, complete with RNA, organelles, the transcriptome, and all other structures required for function. All as a result of cell division.  DNA being merely a rather small reference library that is accessed for instructions for the manufacture of “spare parts”.

    In my writings, rather than the “switches” used in this article, I employ the analogy of a piano to represent DNA. The piano itself is entirely passive, as is DNA. But a pianist can produce innumerable musical variations by using this passive array of strings.

    In biology, the pianist corresponds to the machinery of the cell together with the inputs from its environment. Some of which control differentiation.

    Biological evolution is, after all, a network function.

    The network model of inheritance and morphogenesis is explored more fully in my latest book "The Intricacy Generator: Pushing Chemistry and Geometry Uphill", a 336 page illustrated paperback now available from Amazon, etc

    Also of great relevance to this  topic is Franklin M Howard's excellent "The Way of The Cell.  A "must read".for anybody interested in such matters.

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
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