The team headed by Dr Jens Noth and Prof Dr Thomas Happe at the Ruhr-Universität Bochum report the results in the journal “Angewandte Chemie”. The researchers intend to lay the foundation for artificial, hydrogen-producing enzymes that will one day be manufactured on an industrial level. Hydrogenases are very efficient producers of the potential energy carrier and can do without the expensive precious metal platinum which is currently required for hydrogen synthesis.
Algae may hold the key to feeding the world’s burgeoning population. Don’t worry; no one is going to make you eat them. But because they are more efficient than most plants at taking in carbon dioxide from the air, algae could transform agriculture.
If their efficiency could be transferred to crops, we could grow more food in less time using less water and less nitrogen fertilizer.
New work from a team led by Carnegie’s Martin Jonikas published in Proceedings of the National Academy of Sciences reveals a protein that is necessary for green algae to achieve such remarkable efficiency. The discovery of this protein is an important first step in harnessing the power of green algae for agriculture.
It all starts with the world’s most abundant enzyme, Rubisco.