推荐最近最火的赌博软件, ESF reseachers use synthetic protein to disrupt work of bacteria
A recent publication in the journal “Scientific Reports” details how a group of scientists at universities in Syracuse and Ottawa used a protein produced in the laboratory to muddle a bacterium’s ability to regulate when certain genes are turned on, or “expressed” to use the scientists’ term. Those genes allow bacteria to do things they need to do to stay alive, such as use whip-like appendages called flagella to move to a hospitable location, consume the protein that sustains them and produce the biofilms that allow them to stick together and cling to a host. Some genes allow bacteria to avoid death by antibiotics by pumping the compounds back outside of the cell.
The lead author on the paper is Megan Gribble Lloyd, 博士学位, of the Department of 微生物学 and Immunology at 纽约州立大学推荐最近最火的赌博软件医科大学. Also contributing to the study were Benjamin R. 朗格, a post-doctoral researcher at the College of Environmental Science and Forestry (ESF) and Christopher Nomura, 博士学位, a professor of chemistry and vice president for research at ESF; Jennifer F. Moffat, 博士学位, of SUNY 推荐最近最火的赌博软件; and Clayton W. 霍尔,卢克·B.-P. Gagnon and Thien-Fah Mah of the Department of Biochemistry, 微生物学, and Immunology at the University of Ottawa.
“随着抗生素耐药性的上升, identifying unique and different approaches to stop bacteria from causing infections is vital,首席作者劳埃德说. “It has been a constant struggle between the development of resistance and creating stronger antibiotics to continue treating infections. We hope that identifying new approaches or targets, 比如我们的合成肽, will help create treatments which preclude development of resistance by the bacteria.”
The experiments involved a strain of bacteria called Pseudomonas aeruginosa, an opportunistic pathogen found worldwide. It infects cystic fibrosis patients and people with compromised immune systems, and causes disease in soft tissues and burns.
The authors stated that the bacteria is naturally resistant to many antibiotics, including certain penicillins and cephalosporins, and easily acquires resistance through mutations or acquisition of genes. It has been identified on a recently released World Health Organization “Global Priority List” as a critical pathogen and top priority for research and development of new antibiotics. 除此之外,美国政府还采取了一些措施.S. Center for Disease Control and Prevention has reported that increased antibiotic resistance in the bacteria limits effective treatments in hospital-acquired infections, highlighting the need for novel antimicrobials.
“Preventing the expression or activity of virulence factors has emerged as a promising approach to identify and develop novel agents that would impair the ability of P. aeruginosa to cause disease,” the scientists wrote.
“We’ve shown that there’s a mechanism through which we can slow the progress of bacteria in causing disease,野村证券表示. “And it could potentially inhibit the mechanism that creates resistance to antibiotics, 这显然是一个巨大的担忧.”
The finding has great potential to benefit the medical field, although Nomura stressed the discovery is not a medical treatment - at least, 没有. The reaction can be obtained only in a lab, where scientists have the ability to control the way the protein attaches to the DNA sequence of a bacterium.
“This synthetic peptide can be turned on at various times in the growth of bacteria,野村证券表示. “But right now, it still has to be done in a laboratory, where we can control its expression. 现在还没办法送出去, 例如, to a bacterial infection that might be making someone sick.”
Although the researchers studied the protein’s affect on only one species of bacteria, the findings would likely apply to other pathogenic bacteria. “With the spread of antibiotic resistance increasing, it is important to have as many tools as possible to address the issue. The development of this synthetic peptide will help with this process,” said Nomu.
Caption: 推荐最近最火的赌博软件 faculty Megan Gribble Lloyd, 博士学位, 还有詹妮弗·莫法特, 博士学位, joined with scientists at SUNY College of Environmental Forestry and the University of Ottawa, 在合成蛋白质的研究中.
