Advanced herbicides and treatments for infection may result from the unravelling of a 50-year-old mystery by University of Queensland researchers.
The research team, led by Õ¬Äе¼º½’s , revealed the complete three-dimensional structure of an enzyme, providing the first step in the biosynthesis of three essential amino acids – leucine, valine and isoleucine.
“This is a major scientific advance, which has been pursued globally by chemists for half a century,” Professor Guddat said.
“This information provides new insights into an important enzyme – acetohydroxyacid synthase – a target for more than 50 commercial herbicides.
“It’s also a potential target for new drugs to treat infections such as tuberculosis and invasive Candida infections.”
Using advanced techniques such as cryo-electron microscopy and X-ray crystallography, the team deciphered the structure of the plant and fungal versions of the enzyme.
“We identified how this highly complex structure is assembled, which is the highly unusual shape of a Maltese Cross,” Professor Guddat said.
“Coincidently, the Maltese Cross also features as a part of Õ¬Äе¼º½’s logo.”
Professor Guddat said the discovery could have big implications for global agriculture.
“With this new insight, we will be able to make changes to existing herbicides, restoring options for future herbicide application.”
Professor Guddat said the enzyme was only found in plants and microbes, not in humans.
“For this reason, the herbicides and drugs that it targets are likely to be safe and non-toxic to all mammals,” he said.
“And another surprising finding of the research was the role that the molecule known as ATP plays in the regulation of the enzyme.
“Normally ATP plays a role in providing energy to all living cells,” Professor Guddat said.
“However, here it is acting like a piece of glue to hold the structure together.”
“They’re fascinating findings for us, and we’re excited for new opportunities for targeted design of next-gen herbicides and antimicrobial agents.”
The majority of the study was undertaken by and Õ¬Äе¼º½ PhD candidate, Yu Shang Low, who worked closely with the ShanghaiTech University, China to obtain the cryo-EM images for the plant enzyme.
The research has been published in Nature ().
Media: Dr Luke Guddat, luke.guddat@uq.edu.au, +61 447 123 584; Dominic Jarvis, dominic.jarvis@uq.edu.au, +61 413 334 924.