Abstract
Cupriavidus metallidurans is a Gram-negative bacterium that has attracted the attention of the scientific community since its discovery back in 1976. It was initially studied as a model organism for bioremediation processes due to its ability to survive in heavy metal-rich environments. However, in recent years, there is evidence that this bacterium can be a potential pathogen for humans. How C. metallidurans can survive in such different environments is unknown and prompted the following work. Its great adaptability could be explained by the structural and conformational studies of the O-antigen portion of the lipopolysaccharide, the main constituent of the outer membrane of Gram-negative bacteria, which is the one in direct contact with the external environment. Therefore, a combination of chemical and spectroscopic analyses was used to define the O-antigen structure, disclosing that it is a polysaccharide constituted of a linear tetrasaccharide repeating unit that does not resemble other structures already reported for bacteria: [4)-α-d-GalNAc-(1→3)-α-d-Qui2NAc4NHBA-(1→3)-α-l-Rha-(1→3)-α-l-Rha-(1→]. Interestingly, the molecular dynamics studies revealed that the three-dimensional structure of the O-antigen is highly flexible: it might adopt three different right-handed helix conformations described by a two, three, or four-fold symmetry. This conformational behavior could represent the reason behind the survival of C. metallidurans in different environments.
Highlights
Received: 16 December 2021Cupriavidus metallidurans, previously misattributed to the genera Ralstonia, is a Gramnegative bacterium, isolated as far back as 1976 from the wastewater of a zinc factory in Liège, Belgium [1]
The lipopolysaccharide produced by C. metallidurans CH34 strain was isolated by phenol/chloroform/light petroleum (PCP) extraction [10]
It is known that C. metallidurans CH34 lives in different environments, such as those rich in heavy metals [1,2,3] and the human body after nosocomial infection [5,6,7]
Summary
Cupriavidus metallidurans, previously misattributed to the genera Ralstonia, is a Gramnegative bacterium, isolated as far back as 1976 from the wastewater of a zinc factory in Liège, Belgium [1]. Later, this bacterium was found as a dominant microorganism in biofilms on gold grains in the Prophet mine in Queensland, Australia [2]. C. metallidurans is a facultative anaerobe that is unable to use sugars as a carbon source, preferring instead alcohols, carbon dioxide, and hydrogen gas [3] This bacterium is resistant to toxic heavy metals, and for this reason, it is used as model organism to understand this process and for its possible application in the bioremediation.
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