Washington , May 13 (ANI): Fruit fly or drosophila has long been used for various researches because its genetic make-up is quite close to that of humans. But now, researchers have claimed that there is a dramatic difference between the two-winged insect and humans, not in their number of genes, but in the number of protein interactions in their bodies.

Researchers have now developed a new way of determining the total number of interactions between proteins in any organism and the new study has revealed that humans have approximately 10 times more protein interactions than the simple fruit fly, and 20 times as many as simple, single-cell yeast organisms.

The results are in close contrast to the comparisons between the numbers of genes in different organisms, which yield surprising results, like the humans have approximately 24,000 genes, but fruit flies are not far behind, with approximately 14,000 genes.

The interaction between different proteins comes before all physiological systems in the human body. A number of proteins are involved when the body digests food, responds to a change in temperature, or fights off an infection. But the total number of interactions in different organisms has not been calculated till date.

Scientists have believed for some time that the complexity of an organisms protein interactions determine its biological complexity, but until now its been impossible to put a number on the size of one organisms interaction network compared to another, as relatively little work has been done to identify and map these interactions, said professor Michael Stumpf from Imperial College Londons Department of Life Sciences, one of the papers authors.

Scientists have named the total number of protein interactions in the body as the human interactome, comparing it to the human genome, which gives us our human traits.

Professor Stumpf added: Understanding the human genome definitely does not go far enough to explain what makes us different from more simple creatures. Our study indicates that protein interactions could hold one of the keys to unraveling how one organism is differentiated from another.

The scientist also developed a mathematical tool enabling them to forecast the total size of an organisms protein interaction network on the basis of currently available, incomplete data.

The next step for the researchers will be to make much more detailed predictions based on careful comparisons between species.

The study is published in the Proceedings of the National Academy of Sciences journal. (ANI)