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While tackling one of biology's deepest unanswered questions, a Rutgers-led research team has discovered the structure of a protein that may be relevant to the origin of life in the primordial soup of ancient Earth
Image credit: Rutgers University
A Rutgers University-led research team has discovered the structure of a protein that may be linked to the origin of life in the primordial soup of ancient Earth, solving one of biology's deepest unanswered questions
The research was published in the journal Science Advances
Researchers have explored how primitive life on Earth arose from simple inanimate matter
From a molecular perspective, this means that the ability to move electrons is crucial to life
They compared all existing metal-binding protein structures to establish any common features that were present in ancestral proteins, diversified and inherited, creating the series we see today protein
The evolution of protein structure requires an understanding of how new folds arise from preexisting folds, so the researchers devised a computational approach that found that the vast majority of metal-binding proteins in existence today, regardless of which metal they bind Binding, are all somewhat similar, the organism they come from, or the function assigned to the protein as a whole
"We found that the metal-binding cores of existing proteins are indeed similar, although the proteins themselves may not be similar," said the study's lead author Yana Bromberg, a professor in the Department of Biochemistry and Microbiology at Rutgers University
"We know very little about how life arose on this planet, and our work provides a previously
The NASA-funded study also included researchers from the University of Buenos Aires
Magazine
Science Advances
Article Title
Quantifying structural relationships of metal-binding sites suggests origins of biological electron transfer
