Archive for February, 2016

Researchers use GFP nano antibody to study organ growth

Single-domain nano antibodies have a broad range of applications in biochemistry due to their small size, high affinity, and high specificity. Now, a team of researchers from the University of Basel and the University of Zurich has demonstrated that nano antibodies can be used for research in complex living organisms such as Drosophila, uncovering another new and exciting application for nano antibodies.

The team used nano antibodies to develop an assay for studying morphogens, molecules that regulate the pattern of tissue growth and the positions of various cell types within tissue. Morphogens form long-range concentration gradients from a localized source, ultimately determining the fate and arrangement of cells that respond to that gradient. Drosophila is a classic model system for understanding how morphogens regulate organ development. One morphogen called Dpp controls uniform proliferation and growth of the wing imaginal disc. Yet because Dpp is an extracellular, diffusible protein, it is difficult to immobilize in situ. Therefore, despite over 20 years of studying the role of Dpp as a morphogen, the lack of a dynamic system for controlling Dpp gradients has prevented researchers from understanding precisely how Dpp governs development of the wing disc.

By developing a novel synthetic system using nano antibodies, the researchers were able to modulate the concentration gradient of Dpp at the protein level. Their system—coined “morphotrap”—uses a membrane-bound GFP nano antibody to “trap” GFP-tagged Dpp at different locations along the wing imaginal disc. By tethering Dpp in a controlled spatial manner, researchers were able to determine how Dpp gradients affect wing disc development. They discovered that the gradient of Dpp is required for the patterning of the wing disc but not for lateral growth, disproving one of the field’s popular theories that address the role of Dpp. In addition to resolving the controversy with respect to the role of Dpp as a morphogen, this study pioneers a new method for using nano antibodies in situ.

“Dpp spreading is required for medial but not for lateral wing disc growth.”
Harmansa S., Hamaratoglu F., Affolter M., Caussinus E.
Nature. 2015 Nov 19;527(7578):317-22. doi: 10.1038/nature15712. Epub 2015 Nov 9.

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