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Articles 1 - 24 of 24
Full-Text Articles in Life Sciences
Antimicrobial Peptide Development: From Massively Parallel Peptide Sequencing To Bioinformatic Motif Identification, Alexander K. Erikson
Antimicrobial Peptide Development: From Massively Parallel Peptide Sequencing To Bioinformatic Motif Identification, Alexander K. Erikson
Theses and Dissertations
The isolation, purification, and clinical deployment of antibiotics is one of the major drivers of decrease in morbidity and mortality from infectious bacteria in the 20th century. The rapid, ubiquitous deployment of antibiotics encouraged swift development and distribution of antibiotic resistance. New, novel techniques, technologies, and ultimately therapeutic antimicrobial compounds will be required to counter the rise of antibiotic resistant microbes. Historically, mimicking naturally occurring compounds has been the most fruitful method for discovering new antibiotics; unsurprisingly, many recent efforts have focused on expanding the cultivation and detection of previously unknown microbes and compounds, respectively. Other techniques explore developing compounds …
Incidence Of Antibiotic Resistance And Plasmid Content In Freshwater Beach Sand And Water And Clinical Urinary Tract Infection Escherichia Coli Isolates, Robert F. White
Incidence Of Antibiotic Resistance And Plasmid Content In Freshwater Beach Sand And Water And Clinical Urinary Tract Infection Escherichia Coli Isolates, Robert F. White
Biology Theses
Antibiotic-resistant (AR) bacteria have been found in environmental ecosystems including beach sand and water, and pose a serious threat to the mitigation of human and animal disease. The presence of antibiotic residues in the environment, fueled by wastewater effluent and agricultural runoff, may produce selective pressure on introduced microbes such as Escherichia coli, leading to the production of AR populations. This study characterized and compared the antibiotic resistance patterns and plasmid content of E. coli isolated from a freshwater beach and clinical urinary tract infection (UTI) samples. A higher level of antibiotic resistance was expected in clinical (UTI) Escherichia coli …
Structural And Functional Characterization Of L-Enduracididine Biosynthetic Enzymes, Nemanja Vuksanovic
Structural And Functional Characterization Of L-Enduracididine Biosynthetic Enzymes, Nemanja Vuksanovic
Theses and Dissertations
The mannopeptimycins produced by Streptomyces hygroscopicus are non-ribosomal peptide antibiotics with activity against a number of Gram-positive pathogens, including drug-resistant strains like methicillin-resistant Staphylococcus aureus (MRSA) and vancomycin-resistant enterococci (VRE). Attempts to synthesize more potent mannopeptimycin analogues have so far not been successful. One reason this has proven difficult is that the mannopeptimycins contain the unusual non-proteinogenic amino acid L-enduracididine (L-End), or its hydroxylated derivative β-hydroxy enduracididine (βhEnd,). This amino acid is not commercially available and, while synthetic routes have been developed, they are multi-step processes starting from an advanced intermediate. Understanding enzymatic synthesis of L-End is an important goal, …
Design And Synthesis Of Novel Analogs As Potential Antitubercular Agents, Peggy Mccluggage
Design And Synthesis Of Novel Analogs As Potential Antitubercular Agents, Peggy Mccluggage
Honors Theses
Tuberculosis (TB) is an infectious, airborne disease which primarily infects the lungs. One-third of the world’s population is currently estimated to be infected with Mycobacterium tuberculosis (Mtb), the causative agent for TB [1]. Current treatment for this disease requires at least six months of taking multiple antibiotics with undesirable side effects [2]. Difficulty in complying to this regimen as well as the prevalence of HIV/AIDS has led to antimicrobial resistance seen in Mtb. In order to combat the Multi-Drug Resistant and Extensively-Drug Resistant strains of the disease-causing bacteria, preventative care and novel antibiotics are urgently needed [3]. The purpose for …
Phospholipid Remodeling Via Exogenous Polyunsaturated Fatty Acid Uptake Modulates Stress Resistance In Vibrio Cholerae, William Strike
Phospholipid Remodeling Via Exogenous Polyunsaturated Fatty Acid Uptake Modulates Stress Resistance In Vibrio Cholerae, William Strike
Honors Theses
Antibiotic-resistant pathogens represent an escalating threat to public health worldwide, substantially increasing the burden of healthcare and community-acquired infections. Several factors contribute to the emergence and spread of this threat, including but not limited to improper antibiotic use and prescriptions in health-care settings and the community, increasing global travel and migration from countries that have higher levels of antibiotic-resistant pathogens, and a lack of new antibiotics under development. According to the World Health Organization, rising rates of resistance among Gram-negative bacteria (such as Vibrio cholerae) are of particular concern. These bacteria have evolved a number of endogenous membrane remodeling strategies …
Escherichia Coli Antimicrobial Resistance Variability In Water Runoff And Soil From A Remnant Native Prairie, And Improved Pasture, And A Cultivated Agricultural Watershed, Maitreyee Mukherjee, Terry Gentry, Heidi Mjelde, John P. Brooks, Daren Harmel, Lucas Gregory, Kevin Wagner
Escherichia Coli Antimicrobial Resistance Variability In Water Runoff And Soil From A Remnant Native Prairie, And Improved Pasture, And A Cultivated Agricultural Watershed, Maitreyee Mukherjee, Terry Gentry, Heidi Mjelde, John P. Brooks, Daren Harmel, Lucas Gregory, Kevin Wagner
Faculty Publications
Although many previous studies have examined patterns of antimicrobial resistance (AMR) and multidrug resistance (MDR) from domestic animals and farm environments, comparatively little is known about the environmental sources and natural reservoirs of AMR and MDR. In this study, we collected stormwater runoff and soil samples from three watersheds in Texas. Escherichia coli (E. coli) were enumerated, isolated, and analyzed for resistance patterns. E. coli from all sites, irrespective of land use, displayed the presence of AMR/MDR. Higher levels of AMR/MDR were observed in water compared to soil. More isolates were resistant to cephalothin than other antibiotics. For …
Antimicrobial Properties Of An Unknown Microorganism Isolated From The Local Environment, Danielle Duryea
Antimicrobial Properties Of An Unknown Microorganism Isolated From The Local Environment, Danielle Duryea
Undergraduate Honors Thesis Projects
Bacterial species that cause disease can usually be combatted with antibiotics; but as the years pass, more and more bacterial pathogens are becoming resistant to these treatments. In fact, the Center for Disease Control has identified eighteen classes of bacteria ranging from urgent to concerning threats due antibiotic resistance (2019), warning the advance of an antibiotic resistance crisis in which untreatable bacterial infections will become a leading cause of death (Bennadi, 2014). The Small World Initiative is a program created in 2012 at Yale University to address the antibiotic crisis through a crowdsourcing effort where undergraduate students are encouraged to …
Identification Of Uncommon Antibiotic-Producing Illinois Soil Isolates, Lesly Muniz, Dr. Lori Scott
Identification Of Uncommon Antibiotic-Producing Illinois Soil Isolates, Lesly Muniz, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
This project is a collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of educators and students focused on student sourcing antibiotic discovery from the soil. We researched tester strains B. subtilis and E. coli from the soil isolates obtained. We further verified if the isolates were common antibiotic bacteria. Unfortunately, this project heavily relied on biochemical tests, colony morphology, and Gram stains to reject or fail to reject our hypothesis. Our goal was to discover new antibiotic-producing bacteria that could be beneficial in combating ESKAPE strains. A proper PCR and DNA extraction would be required …
Isolated Antibiotic Producing Bacteria In Local Soil Samples Determined To Be Bacillus, Cassidy Potter, Dr. Lori Scott
Isolated Antibiotic Producing Bacteria In Local Soil Samples Determined To Be Bacillus, Cassidy Potter, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
Nosocomial pathogens are multi-drug resistant to antibiotics that fight bacterial infections posing danger to the public health, the most dangerous of them being the ESKAPE pathogens (Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter spp.). This project is a collabortaion with the TIny Earth Project Initiative (TEPI), which is a global network of educators and students focused on studentsourcing antibiotic discovery from the soil. TEPI allows student-led research on local soil samples from Bettendorf, IA to discover potential novel antibiotic producing bacteria that could potentially treat ESKAPE pathogens and reduce public health risk. Two soil isolates …
Isolating Antibiotic-Producing Bacteria From Soil, Michelle Santiago, Dr. Lori Scott
Isolating Antibiotic-Producing Bacteria From Soil, Michelle Santiago, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
As the antibiotic crisis becomes stronger, we are in need of finding more novel antibiotics. This project is a collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of educators and students focused on student sourcing antibiotic discovery from soil. The soil isolates were determined to be part of the Bacillus and Pseudomonas genus.
Putative Antibiotic Producer: A Pseudomonas Genus With Antibiotic Properties, John Tworek, Dr. Lori Scott
Putative Antibiotic Producer: A Pseudomonas Genus With Antibiotic Properties, John Tworek, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
There is a series antibiotic crisis in the world with catastrophic consequences if action is not take. Many diseases caused by bacteria are becoming untreatable because of the amount of pathogens resistant to the effect of antibiotics. The most prolific bacteria are the ESKAPE bacteria. They are nonsocomial pathogens that exhibit multi-drug resistance and virulence. My project will be working alongside the Tiny Earth Project (TEPI) to educate the public about the antibiotic crisis as well as obtaining a soil sample to possible discover new antibiotics. The DNA sequencing data retrieved from soil isolates against the two ESKAPE tester strains …
Screening For Antibiotic-Producers In Soil From A Garden, Long Tran, Dr. Lori Scott
Screening For Antibiotic-Producers In Soil From A Garden, Long Tran, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
Multidrug-resistant pathogens are the leading cause of nosocomial infection, which killed more than 30,000 people in the United States every year. Among these, ESKAPE strains bugs, which comprise six highly drug-resistant bacteria, pose the greatest challenge to the healthcare system. In order to fight the antibiotic-resistant crises, novel antibiotic-producers must be discovered. This project is a collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of educators and students focused on student sourcing antibiotic discovery from the soil. Pseudomonas was revealed to produce a zone of inhibition against Bacillus subtilis on LB media. The next step …
Unknown Soil Isolates From Urban Park As Antibiotic Producers, Sydney Parra, Dr. Lori Scott
Unknown Soil Isolates From Urban Park As Antibiotic Producers, Sydney Parra, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
Antibiotics play an important role in combating bacterial infections. Recently, antibiotic resistance has increased which has pushed scientist to find new and effective antibiotic drugs. Students conducted research on potential antibiotic producers from soil samples in the Quad Cities region. The purpose of the study was to find novel antibiotic producers from bacteria in soil and test soil isolates against two strains of bacteria, B. subtilis and E. coli. Two unknown soil isolate strains were found to be potential antibiotic producers against B. subtilis. Future studies are needed to conduct gene sequencing on these two …
Pseudomonas And Bacillus As Potential Sources Of Novel Antibiotics, Cory Jayne, Dr. Lori Scott
Pseudomonas And Bacillus As Potential Sources Of Novel Antibiotics, Cory Jayne, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
With an increase in antibiotic resistance within the medical field the need for novel antibiotics is evident. Through collaboration with the Tiny Earth Project Initiative, we hope to find novel antibiotics through bacteria found in soil. We were able to successfully isolate two microbes that showed broad spectrum antibiotics against both Staphylococcus epidermis and Bacillus subtilis. Through further exploration and collaboration with the Tiny Earth Project Initiative, we might be able to discover novel antibiotics.
Antibiotic Producing Microbes Found In Soil, Rediat Ephrem, Dr. Lori Scott
Antibiotic Producing Microbes Found In Soil, Rediat Ephrem, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
The antibiotic crisis is a growing concern as more and more diseases are becoming untreatable due to antibiotic resistance. Of all antibiotic resistant bacteria, the ESKAPE strains are the most dangerous because of their association with higher mortality rates and multidrug resistance. In this study, ESKAPE-like strains will be studied as they are similar to the ESKAPE strains and provide comparable data in a safe manner. Soil samples are evaluated to test the presence of any microbes that may be antibiotic producers. This project is in collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of …
Pseudomonas And Bacillus Soil Isolates Produce Antibiotics, Chelsea Brandt, Dr. Lori Scott
Pseudomonas And Bacillus Soil Isolates Produce Antibiotics, Chelsea Brandt, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
The recent emergence of antibiotic resistance bacterial strains presents a significant challenge and threat to human healthcare. While new methods of treatment such as bacteriophage therapy and combinations of existing antibiotics are being researched, the human population is in dire need of new antibiotics to replace those that are ineffective. This research addresses this need by identifying antibiotic producing bacteria in a soil sample from Davenport, IA. This project is a collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of educators and students focused on studentsourcing antibiotic discovery from soil. Microbiology lab techniques and 16S …
Identification Of Antibiotic Producing Soil Bacteria Against Bacillus Subtilis, Morgan Brockhouse, Dr. Lori Scott
Identification Of Antibiotic Producing Soil Bacteria Against Bacillus Subtilis, Morgan Brockhouse, Dr. Lori Scott
Identifying and Characterizing Novel Antibiotic Producing Microbes From the Soil
This project is a collaboration with the Tiny Earth Project Initiative (TEPI), which is a global network of educators and students focused on student-sourcing antibiotic discovery from soil. Individual strains of soil bacteria were isolated and produced antibiotic against Bacillus subtilis. Two of these samples were sequenced using the 16S rRNA gene to reveal they are very closely related to the genus Pseudomonas.
Frontotemporal Dementia Nonsense Mutation Of Progranulin Rescued By Aminoglycosides, Lisha Kuang, Kei Hashimoto, Eric J. Huang, Matthew S. Gentry, Haining Zhu
Frontotemporal Dementia Nonsense Mutation Of Progranulin Rescued By Aminoglycosides, Lisha Kuang, Kei Hashimoto, Eric J. Huang, Matthew S. Gentry, Haining Zhu
Molecular and Cellular Biochemistry Faculty Publications
Frontotemporal dementia (FTD) is an early onset dementia and is characterized by progressive atrophy of the frontal and/or temporal lobes. FTD is highly heritable with mutations in progranulin accounting for 5-26% of cases in different populations. Progranulin is involved in endocytosis, secretion and lysosomal processes, but its function under physiological and pathological conditions remains to be defined. Many FTD-causing nonsense progranulin mutations contain a premature termination codon (PTC), thus progranulin haploinsufficiency has been proposed as a major disease mechanism. Currently, there is no effective FTD treatment or therapy.
Aminoglycosides are a class of antibiotics that possess a less known function …
Insights Into Acinetobacter Baumannii: A Review Of Microbiological, Virulence, And Resistance Traits In A Threatening Nosocomial Pathogen, Carole Ayoub Moubareck, Dalal Hammoudi Halat
Insights Into Acinetobacter Baumannii: A Review Of Microbiological, Virulence, And Resistance Traits In A Threatening Nosocomial Pathogen, Carole Ayoub Moubareck, Dalal Hammoudi Halat
All Works
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. Being a multidrug-resistant and an invasive pathogen, Acinetobacter baumannii is one of the major causes of nosocomial infections in the current healthcare system. It has been recognized as an agent of pneumonia, septicemia, meningitis, urinary tract and wound infections, and is associated with high mortality. Pathogenesis in A. baumannii infections is an outcome of multiple virulence factors, including porins, capsules, and cell wall lipopolysaccharide, enzymes, biofilm production, motility, and iron-acquisition systems, among others. Such virulence factors help the organism to resist stressful environmental conditions and enable development of severe infections. Parallel …
A Study Of Consumer Perception Of Antibiotic Resistance And Antibiotic Use In Ireland, Andrea Todea
A Study Of Consumer Perception Of Antibiotic Resistance And Antibiotic Use In Ireland, Andrea Todea
Theses
The purpose of this study was to assess the knowledge of Irish consumers regarding antibiotic use in Ireland. Data was obtained on antibiotic use, frequency, associated source and general awareness regarding antibiotics and antibiotic resistance. A cross-sectional survey was designed to analyse consumer’s perception and knowledge of antibiotic and antibiotic resistance. A total of 763 completed questionnaires were collected. The questionnaire was targeted for general public, based in Ireland. Fifty-seven percent of respondents are trying to completely avoid antibiotics, unless absolutely necessary. Half of respondents (50%) took antibiotics in the last 12 months. The majority of respondents obtained antibiotics through …
Evaluating The Route Of Antibiotic Administration And Its Effect On Nursery Pig Growth Performance, W. M. Hutchens, M. D. Tokach, S. S. Dritz, J. C. Woodworth, J. M. Derouchey, R. D. Goodband, H. I. Calderón, K. Habib, V. Ishengoma, T. G. Nagaraja, R. G. Amachawadi
Evaluating The Route Of Antibiotic Administration And Its Effect On Nursery Pig Growth Performance, W. M. Hutchens, M. D. Tokach, S. S. Dritz, J. C. Woodworth, J. M. Derouchey, R. D. Goodband, H. I. Calderón, K. Habib, V. Ishengoma, T. G. Nagaraja, R. G. Amachawadi
Kansas Agricultural Experiment Station Research Reports
This experiment was conducted to determine the influence of the route of antibiotic administration (in-feed vs. in-water) on nursery pig growth performance. A total of 2,592 pigs (L337 × 1050, PIC Hendersonville, TN; initially 14.5 lb) were used in a 28-d trial. Pigs were weaned at 21 d of age and placed in a commercial research facility with 27 pigs per pen. After a 7-d pre-trial period, pens of pigs were assigned to weight blocks in a randomized complete block design. There were 12 replications per treatment with pen as experimental unit for in-feed medication treatments and a pair of …
Antifungal Defense Molecules From Bacterial Symbionts Of North American Trachymyrmex Ants, Georgia Scherer
Antifungal Defense Molecules From Bacterial Symbionts Of North American Trachymyrmex Ants, Georgia Scherer
CMC Senior Theses
Defensive symbioses, in which microbes provide molecular defenses for an animal host, hold great potential as untapped sources of therapeutically useful antibiotics. Fungus-growing ants use antifungal defenses from bacterial symbionts to suppress pathogenic fungi in their nests. Preliminary chemical investigations of symbiotic bacteria from this large family of ants have uncovered novel antifungal molecules with therapeutic potential, such as dentigerumycin and selvamicin.
In this study, the bacterial symbionts of North American Trachymyrmex fungus-growing ants are investigated for antifungal molecules. Plate-based bioassays using ecologically-relevant fungal pathogens confirmed that these bacteria have antifungal activity. In order to purify and identify the antifungal …
Development Of Small Molecule Antibiotics Against A Conserved Rna Gene Regulatory Element In Gram-Positive Bacteria, Ville Yrjö Petteri Väre
Development Of Small Molecule Antibiotics Against A Conserved Rna Gene Regulatory Element In Gram-Positive Bacteria, Ville Yrjö Petteri Väre
Legacy Theses & Dissertations (2009 - 2024)
Bacterial infections and the rise of antibiotic resistance, especially multidrug resistant strains, have generated a clear need for discovery of novel therapeutics. Most antibiotics in use today are derivatives of previous antibiotics to which resistance mechanisms already exist, and traditionally they have a single target: either a protein or rRNA. Gram-positive bacteria regulate the expression of several essential genes or operons using a mechanism called the T-box. The T-box is a structurally conserved riboswitch-like gene regulator in the 5’-untranslated region (UTR) of numerous essential genes of Gram-positive bacteria. T-boxes are stabilized by cognate, unacylated tRNA ligands, allowing the formation of …
An Evaluation Of Co-Culture Parameters Effecting Antibiotic Production In Soil Microbes, Rebecca Lindow
An Evaluation Of Co-Culture Parameters Effecting Antibiotic Production In Soil Microbes, Rebecca Lindow
Master's Theses and Doctoral Dissertations
The rise of infections caused by antibiotic resistant bacteria, compounded by a reduction in antibiotic discovery and development, jeopardizes human health. Historically, antibiotics derive from secondary metabolites produced by soil microbes in pure culture, but recent genetic evidence suggests that microbes can produce more secondary metabolites than are currently observed. The modified crowded plate technique directly identifies antibiotic-producing soil microbes that were co-plated with a target pathogen. Here, this technique was refined by testing the effect of a D-alanine auxotrophic target pathogen rather than a prototrophic pathogen as well as investigating conditions most conducive to antibiotic production. Antibiotic producing conditions …