Natalie J. Mitchell scite author profile

Natalie J. Mitchell

4Publications

41Citation Statements Received

61Citation Statements Given

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Affiliations

University of North Carolina Wilmington, Federal Bureau of Investigation

Publications

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Branched phospholipids render lipid vesicles more susceptible to membrane-active peptides

Mitchell

Seaton

Pokorny

2016

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Iso- and anteiso-branched lipids are abundant in the cytoplasmic membranes of bacteria. Their function is assumed to be similar to that of unsaturated lipids in other organisms – to maintain the membrane in a fluid state. However, the presence of terminally branched membrane lipids is likely to impact other membrane properties as well. For instance, lipid acyl chain structure has been shown to influence the activity of antimicrobial peptides. Moreover, the development of resistance to antimicrobial agents in Staphylococcus aureus is accompanied by a shift in the fatty acid composition towards a higher fraction of anteiso-branched lipids. Little is known about how branched lipids and the location of the branch point affect the activity of membrane-active peptides. We hypothesized that bilayers containing lipids with low phase transition temperatures would tend to exclude peptides and be less susceptible to peptide-induced perturbation than those made from higher temperature melting lipids. To test this hypothesis, we synthesized a series of asymmetric phospholipids that only differ in the type of fatty acid esterified at the sn-2 position of the lipid glycerol backbone. We tested the influence of acyl chain structure on peptide activity by measuring the kinetics of release from dye-encapsulated lipid vesicles made from these synthetic lipids. The results were compared to those obtained using vesicles made from S. aureus and S. sciuri membrane lipids extracts. Anteiso-branched phospholipids, which melt at very low temperatures, produced lipid vesicles that were only slightly less susceptible to peptide-induced dye release than those made from the iso-branched isomer. However, liposomes made from bacterial phospholipid extracts were generally much more resistant to peptide-induced perturbation than those made from any of the synthetic lipids. The results suggest that the increase in the fraction of anteiso-branched fatty acids in antibiotic-resistant strains of S. aureus is unlikely to be the sole factor responsible for the observed increased antibiotic resistance.

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Comprehensive characterization of commercially available canine training aids

Tipple

Caldwell

Kile

et al. 2014

Forensic Science International

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Effective and reliable training aids for victim recovery canine teams is essential for law enforcement and investigative purposes. Without adequate training aids, the rate of recovery for sub surface or surface human remains deposition using canine teams may be adversely affected and result in confusing information. The composition of three commercially available canine training aids that purportedly generate volatile components responsible for the odor of human decomposition is relatively simple and not closely related to those compounds experimentally determined to be present at the site of surface or sub-surface human remains. In this study, these different commercial formulations were chemically characterized using six different sampling approaches, including two applications of direct liquid injection, solid-phase microextraction (SPME), purge and trap, ambient preconcentration/thermal desorption, and cryogenic preconcentration/thermal desorption. Direct liquid injections resulted in the fewest number of detected compounds, while a cryogen based thermal desorption method detected the greatest number of compounds in each formulation. Based solely upon the direct liquid injection analysis, Pseudo™ Scent I was composed of approximately 29±4% and 71±5% of 2-pyrrolidinone and 4-aminobutanoic acid, respectively. This same analysis showed that Pseudo™ Scent II was composed of approximately 11±1, 11±1, 24±5, and 54±7% of putrescine, cadaverine, 2-pyrrolidinone, and 4-aminobutanoic acid, respectively. Headspace analysis was conducted to more closely simulate the process whereby a canine's nose would capture a volatiles profile. More compounds were detected using the headspace sampling method; however, the vast majority was not consistent with current data on human decomposition. Additionally, the three formulations were tested in outdoor and indoor scenarios by a double-blinded canine team, using a certified and specifically trained victim recovery canine with multiple confirmed recoveries, to determine if the formulations would be recognized by that canine as being related to human decomposition. The canine used in this study did not provide a positive response to any of the formulations tested in either test scenario. The implications for locating residual human decomposition odor in the absence of recoverable material are discussed in light of these data.

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Phospholipid Fatty Acid Structure and the Activity of Membrane-Active Peptides

Pokorny

Mitchell

2011

Biophysical Journal

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visualize and characterize the interactions of two different classes of model membranolytic peptides with supported planar lipid bilayers. Our studies provided direct evidence of membrane rearrangement and peptide aggregation by a de novo cationic antimicrobial peptide designed to adopt a helical motif in bacterial membranes. We also obtained in situ evidence of specific secondary structure motifs associated with a membrane-induced fibrillization of peptides derived from haemolytic proteins obtained from sea anemone. This coupled approach provides a unique opportunity to directly link spectroscopic details associated with peptide-membrane interactions with in situ structural insights obtained on nanometer length scales.

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Coccidioidomycosis Detection Using Targeted Plasma and Urine Metabolic Profiling

Gu¹,

Jasbi²,

Mitchell³

et al. 2019

The FASEB Journal

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