Researchers discover sophisticated mechanism that bacteria use to resist antibiotics
Researchers have discovered a significant and previously unknown mechanism that many bacteria use to resist antibiotics.
Researchers have discovered a significant and previously unknown mechanism that many bacteria use to resist antibiotics.
Molecular & Computational biology
Jul 28, 2022
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207
The past decade has seen enormous advances in the understanding of regulatory noncoding RNAs, according to a Northwestern Medicine review published in Molecular Cell.
Molecular & Computational biology
Jun 13, 2022
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70
Genes are the carriers of our genetic information. They are read in our cells and used to produce ribonucleic acids (RNAs). During this process, termed transcription, the enzyme RNA polymerase II has a decisive influence ...
Molecular & Computational biology
May 4, 2022
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39
Most antibiotics are double-edged swords. Besides killing the pathogen they are prescribed for, they also decimate beneficial bacteria and change the composition of the gut microbiome. As a result, patients become more prone ...
Cell & Microbiology
Apr 6, 2022
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97
Two studies provide a radically new picture of how bacterial cells continually repair damaged sections (lesions) in their DNA.
Molecular & Computational biology
Mar 30, 2022
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32
For many years, scientists have sought to understand what happens when our genes are flipped to the "on" position. Now, scientists at the University of California San Diego and Rutgers University have identified a new protein ...
Molecular & Computational biology
Mar 11, 2022
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274
The basic process of life, known as transcription, is the process by which the genetic information stored in DNA is copied by specific enzymes called RNA polymerases into RNA molecules. Despite a huge progress in our understanding ...
Molecular & Computational biology
Feb 21, 2022
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39
Using the Summit supercomputer at the U.S. Department of Energy's (DOE's) Oak Ridge National Laboratory (ORNL), a Georgia State University (GSU) research team has revealed the structural mechanism of the Cockayne Syndrome ...
Cell & Microbiology
Feb 10, 2022
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32
A folded region lying deep inside enzymes that are central to all forms of life could have formed more easily than previously thought, biologists at RIKEN have found1.
Molecular & Computational biology
Jan 27, 2022
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60
A team of physicists working at the intersection of theory and experiment are shedding new light on the "teamwork" of molecular motors—called RNA polymerases (RNAPs)—that mediate DNA transcription. During transcription, ...
General Physics
Dec 9, 2021
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