biomimicry tagged posts

Spare parts from small parts: Novel Scaffolds to grow Muscle

Australian biomedical engineers have successfully produced a 3D material that mimics nature to transform cells into muscle. The researchers have for the first time incorporated the natural processes of embryonic development to build a material that can more naturally communicate with stem cells for effective tissue repair. The breakthrough offers hope to people suffering from injuries where their muscles cannot repair themselves due to trauma or disease, and our rapidly aging population.

Led by Dr Richard Williams from RMIT University, in Melbourne Australia, the researchers have combined lab-made peptides with natural proteins and polymers to create a 3D “hydrogel scaffold...

1. The northern clingfish (Gobiesox maeandricus) lives in Pacific Northwest waters, where it seeks out prey in the crashing waves of the intertidal Credit: Petra Ditsche 2. Credit: Christina Linkem

To create prototype suction cups that are capable of glomming onto rough, wet surfaces and staying there, Ditsche has found inspiration in clingfish. On the rocky shores of Washington State, clingfish maneuver over rocks to prey on limpets – dime-sized, snail-like invertebrates. A limpet is covered by a shell shield that hides soft organs, which are fair game if the predatory clingfish can pop it off the rock. Yet the clingfish faces its own foe: heavy forces from incoming waves that threaten to slosh it off the rocks as it searches for food...

SANDIA BIOENGINEERS Marlene and George Bachand show off their new method for encrypting and storing sensitive information in DNA. Digital data storage degrades and can become obsolete and old-school books and paper require lots of space. (Photo by Lonnie Anderson)

Experiments at CERN’s LHC generate 15 million Gb of data per year. That is a lot of digital data to inscribe on hard drives or beam up to the “cloud.” George Bachand, a Sandia National Laboratories bioengineer is exploring a better, more permanent method for encrypting and storing sensitive data: DNA. Compared to digital and analog information storage, DNA is more compact and durable and never becomes obsolete. Tape- and disk-based data storage degrades and can become obsolete, requiring rewriting every decade or so...