bacteria

Recently, we noted that John Sanford was speaking at NIH on human health and mutations. Philip Cunningham writes to mention a 2017 paper by Sanford and S. T. Cordova, Nylonase Genes and Proteins – Distribution, Conservation, and Possible Origins on whether the ba cteria that digest nylon evolved new genes: We began this work hoping to better understanding the various claims regarding the de novo origin of certain nylonase genes. The idea that nylonases would have arisen very recently, de novo, was based upon the widely-held assumption that nylonases would have been essentially non-existent prior to the artificial manufacture of nylon. This basic assumption would not be justified if there were any nylonlike polymers in nature, or if nylonase activity Read More ›

The researchers claim it is a first: … a new paper from a group at the University of Oxford is now raising some eyebrows for its claims of the successful entanglement of bacteria with photons—particles of light. Led by the quantum physicist Chiara Marletto and published in October in the Journal of Physics Communications, the study is an analysis of an experiment conducted in 2016 by David Coles from the University of Sheffield and his colleagues. In that experiment Coles and company sequestered several hundred photosynthetic green sulfur bacteria between two mirrors, progressively shrinking the gap between the mirrors down to a few hundred nanometers—less than the width of a human hair. By bouncing white light between the mirrors, the Read More ›

Careful study showed that this was not the result of contamination: In a surprise to scientists, cyanobacteria have been found thriving nearly 2,000 feet below the strange landscape, where sunlight, water, and nutrients are scarce. Researchers previously thought these microbes could survive only while basking in the sun’s rays, although they are otherwise a versatile bunch; researchers have found them alive nearly everywhere on Earth. … Control samples helped the team determine that the microbes did not come from contamination due to the drilling fluid nor from processing in the lab. And the cyanobacteria were not found in random locations, as you might expect if the samples had been doused in contaminated liquid. Instead, they were congregating along the fractures Read More ›

Seen from below: Professor Hugenholtz said the scientific community generally agrees that evolutionary relationships are the most natural way to classify organisms, but bacterial taxonomy is riddled with errors, due to historical difficulties. “This is mainly because microbial species have very few distinctive physical features, meaning that there are thousands of historically misclassified species,” he said. “It’s also compounded by the fact that we can’t yet grow the great majority of microorganisms in the laboratory, so have been unaware of them until quite recently.” Dr. Donovan Parks, the lead software developer on the project, is excited about the recent advancement of genome sequencing technology, and how it’s helping reconstruct the bacterial tree of life. … The research team then used Read More ›