Your search keyword '"Christopher J. Ehrhardt"' showing total 45 results

1. Use of hormone-specific antibody probes for differential labeling of contributor cell populations in trace DNA mixtures

Author

Jennifer M. Miller, Christin Lee, Sarah Ingram, Vamsi K. Yadavalli, Susan A. Greenspoon, and Christopher J. Ehrhardt

Subjects

Pathology and Forensic Medicine

Published

2022

2. Comparison of three quantitative approaches for estimating time-since-deposition from autofluorescence and morphological profiles of cell populations from forensic biological samples

Author

Amanda Elswick Gentry, Sarah Ingram, M. Katherine Philpott, Kellie J. Archer, and Christopher J. Ehrhardt

Abstract

Determining when DNA recovered from a crime scene transferred from its biological source, i.e., a sample’s ‘time-since-deposition’ (TSD), can provide critical context for biological evidence. Yet, there remains no analytical techniques for TSD that are validated for forensic casework. In this study, we investigate whether morphological and autofluorescence measurements of forensically-relevant cell populations generated with Imaging Flow Cytometry (IFC) can be used to predict the TSD of ‘touch’ or trace biological samples. To this end, three different prediction frameworks for estimating the number of day(s) for TSD were evaluated: the elastic net, gradient boosting machines (GBM), and generalized linear mixed model (GLMM) LASSO. Additionally, we transformed these continuous predictions into a series of binary classifiers to evaluate the potential utility for forensic casework. Results showed that GBM and GLMM-LASSO showed the highest accuracy, with mean absolute error estimates in a hold-out test set of 29 and 21 days, respectively. Binary classifiers for these models correctly binned 94-96% and 98-99% of the age estimates as over/under 7 or 180 days, respectively. This suggests that predicted TSD using IFC measurements coupled to one or, possibly, a combination binary classification decision rules, may provide probative information for trace biological samples encountered during forensic casework.

Published

2023

3. Differentiation of vaginal cells from epidermal cells using morphological and autofluorescence properties: Implications for sexual assault casework involving digital penetration

Author

Sarah Ingram, Arianna DeCorte, M. Katherine Philpott, Taylor Moldenhauer, Sonja Stadler, Cory Steinberg, Jonathan Millman, and Christopher J. Ehrhardt

Subjects

Genetics, Pathology and Forensic Medicine

Published

2022

4. Novel cellular signatures for determining time since deposition for trace DNA evidence

Author

Sarah Ingram, M. Katherine Philpott, and Christopher J. Ehrhardt

Subjects

Genetics, Pathology and Forensic Medicine

Published

2022

5. 3D Printing of Antibacterial Polymer Devices Based on Nitric Oxide Release from Embedded S-Nitrosothiol Crystals

Author

Nastassja Lewinski, Yuanhang Yang, David Gascoyne, Wuwei Li, Hong Zhao, Xuewei Wang, Gary M. Lucas, and Christopher J. Ehrhardt

Subjects

chemistry.chemical_classification, Materials science, business.industry, Biochemistry (medical), Biomedical Engineering, 3D printing, General Chemistry, Polymer, Nitric oxide, Biomaterials, chemistry.chemical_compound, chemistry, Chemical engineering, business, S-Nitrosothiols

Published

2021

6. Atomic force microscopy as a biophysical tool for nanoscale forensic investigations

Author

Vamsi K. Yadavalli and Christopher J. Ehrhardt

Subjects

Interaction forces, Spatial Visualization, Computer science, Atomic force microscopy, 010401 analytical chemistry, Force spectroscopy, Nanotechnology, Context (language use), Forensic Medicine, Microscopy, Atomic Force, 01 natural sciences, Specimen Handling, 0104 chemical sciences, Pathology and Forensic Medicine, Characterization (materials science), 03 medical and health sciences, 0302 clinical medicine, Imaging Tool, Blood Stains, Humans, 030216 legal & forensic medicine, Nanoscopic scale

Abstract

The atomic force microscope (AFM) has found its way to the arsenal of tools available to the forensic practitioner for the analysis of samples at the nano and microscales. As a non-destructive probing tool that requires minimal sample preparation, the AFM is very attractive, particularly in the case of minimal or precious sample. To date, the use of the AFM has primarily been in the arena of imaging where it has been complementary to other microscopic examination tools. Forensic applications in the visual examination of evidence such as blood stains, questioned documents, and hair samples have been reported. While a number of reviews have focused on the use of AFM as an imaging tool for forensic analyses, here we not only discuss these works, but also point to a versatile enhancement in the capabilities of this nanoscale tool - namely its use for force spectroscopy. In this mode, the AFM can determine elastic moduli, adhesion forces, energy dissipation, and the interaction forces between cognate ligands, that can be spatially mapped to provide a unique spatial visualization of properties. Our goals in this review are to provide a context for this capability of the AFM, explain its workings, cover some exemplary works pertaining to forensic sciences, and present a critical analysis on the advantages and disadvantages of this modality. Equipped with this high-resolution tool, imaging and biophysical analysis by the AFM can provide a unique complement to other tools available to the researcher for the analysis and characterization of forensic evidence.

Published

2021

7. Nanoscale visualization of extracellular DNA on cell surfaces

Author

Anita Olsen, Christopher J. Ehrhardt, and Vamsi K. Yadavalli

Subjects

medicine.anatomical_structure, Materials science, Atomic force microscopy, Cell, medicine, Biophysics, General Earth and Planetary Sciences, Nanoscopic scale, Extracellular dna, General Environmental Science, Visualization

Published

2020

8. Use of hormone-specific antibody probes for differential labeling of contributor cell populations in trace DNA mixtures

Author

Jennifer M, Miller, Christin, Lee, Sarah, Ingram, Vamsi K, Yadavalli, Susan A, Greenspoon, and Christopher J, Ehrhardt

Subjects

Humans, Dihydrotestosterone, Testosterone, DNA, Flow Cytometry, DNA Fingerprinting, Antibodies, Microsatellite Repeats

Abstract

A significant proportion of casework analyzed by forensic science laboratories is often "touch" or trace forensic DNA evidence, which is deposited through physical contact and is comprised of sloughed epidermal cells. These samples can be challenging to analyze due to low DNA concentrations, frequent degradation, and the presence of cells from multiple individuals in the same sample. To address these challenges, we investigated a new approach for characterizing trace evidence prior to DNA profiling that labels epidermal cells with antibody probes targeting hormone molecules testosterone and dihydrotestosterone (DHT). The goal was to test whether cell populations derived from separate individuals showed different binding efficiencies to hormone probes and, thus, could be used to detect the presence of multiple cell populations. Additionally, we investigated whether antibody probes could be used to isolate contributor cell populations from an epidermal cell mixture and facilitate deconvolution of mixed DNA profiles recovered from touch/trace evidence. Results showed that cell populations from some individuals could differentiated in trace samples based on fluorescence histograms following probe labeling. However, certain pairs of contributors showed largely or completely overlapping histogram profiles and could not be resolved. Preliminary efforts to separate cell populations that could be differentiated with hormone probes with fluorescence-activated cell sorting (FACS) coupled to DNA profiling and probabilistic modeling indicated that it is possible to enrich contributor cell populations from touch/trace samples and produce more probative DNA profiles compared to the original mixture sample. The variability in labeling, differentiation, and physical separation of cell populations may be impacted by similarities in biochemical profiles across some contributors as well as imbalance of contributor DNA quantities in certain mixtures as is typical in casework involving touch/trace evidence. Ultimately, screening and separation of trace DNA samples with this approach may be presumptive and constrained by sample-specific parameters of the original mixture.

Published

2022

9. 3D Printing of Antibacterial Polymer Devices Based on Nitric Oxide Release from Embedded

Author

Wuwei, Li, Yuanhang, Yang, Christopher J, Ehrhardt, Nastassja, Lewinski, David, Gascoyne, Gary, Lucas, Hong, Zhao, and Xuewei, Wang

Subjects

Polymers, Printing, Three-Dimensional, Silicones, Nitric Oxide Donors, S-Nitroso-N-Acetylpenicillamine, Nitric Oxide, Anti-Bacterial Agents

Abstract

Controlled release of drugs from medical implants is an effective approach to reducing foreign body reactions and infections. We report here on a one-step 3D printing strategy to create drug-eluting polymer devices with a drug-loaded bulk and a drug-free coating. The spontaneously formed drug-free coating dramatically reduces the surface roughness of the implantable devices and serves as a protective layer to suppress the burst release of drugs. A high viscosity liquid silicone that can be extruded based on its shear-thinning property and quickly vulcanize upon exposure to ambient moisture is used as the ink for 3D printing.

Published

2022

10. Evaluation of Bluestar ® Forensic Magnum and Other Traditional Blood Detection Methods on Bloodstained Wood Subjected to a Variety of Burn Conditions

Author

Christopher J. Ehrhardt, Catherine C. Connon, Eric J. Hazelrigg, and Autumn R. Vineyard

Subjects

Accelerant, business.industry, 010401 analytical chemistry, Smothering, 01 natural sciences, 0104 chemical sciences, Pathology and Forensic Medicine, Luminol, Toxicology, Forensic science, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, chemistry, Genetics, Medicine, 030216 legal & forensic medicine, business

Abstract

Accurate blood detection is a primary concern for forensic scientists, especially in highly compromised situations. In this study, blood was added to wood blocks and subjected to a variety of fire treatments: the absence or presence of accelerant, burn time (1, 3, or 5 min), and extinguishment method (smothering or dousing with water). Burned blocks were given a qualitative burn score, followed by removal of half of the char from each block and subsequent testing of each half for blood using luminol (13% positive; n = 96), Bluestar® Forensic Magnum (5.2% positive; n = 96), and combined phenolphthalein tetramethylbenzidine test (0% positive; n = 192). Luminol and Bluestar® Forensic Magnum performed similarly, both outperforming PTMB. Additionally, positive results were more likely from samples that were smothered, had a low burn score, and had more concentrated blood solutions (neat or 1:2). Overall, it is extremely unlikely that blood would be detected on combustible substrates exposed to direct fire.

Published

2018

11. Simplification of complex DNA profiles using front end cell separation and probabilistic modeling

Author

Susan A. Greenspoon, Nancy A. Stokes, Christopher J. Ehrhardt, Cristina Stanciu, and Emily R. Brocato

Subjects

0301 basic medicine, Fraction (chemistry), Cell Separation, Real-Time Polymerase Chain Reaction, Article, Antibodies, Fluorescence, Pathology and Forensic Medicine, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Labelling, Genetics, Cell separation, medicine, Humans, 030216 legal & forensic medicine, Models, Statistical, medicine.diagnostic_test, Chemistry, Probabilistic logic, DNA, Cell Fraction, Cell sorting, Flow Cytometry, DNA Fingerprinting, 030104 developmental biology, DNA profiling, Molecular Probes, Biological system, Blood Chemical Analysis, Microsatellite Repeats

Abstract

Forensic samples comprised of cell populations from multiple contributors often yield DNA profiles that can be extremely challenging to interpret. This frequently results in decreased statistical strength of an individual’s association to the mixture and the loss of probative data. The purpose of this study was to test a front-end cell separation workflow on complex mixtures containing as many as five contributors. Our approach involved selectively labelling certain cell populations in dried whole blood mixture samples with fluorescently labeled antibody probe targeting the HLA-A*02 allele, separating the mixture using Fluorescence Activated Cell Sorting (FACS) into two fractions that are enriched in A*02 positive and A*02 negative cells, and then generating DNA profiles for each fraction. We then tested whether antibody labelling and cell sorting effectively reduced the complexity of the original cell mixture by analyzing STR profiles quantitatively using the probabilistic modeling software, TrueAllele® Casework. Results showed that antibody labelling and FACS separation of target populations yielded simplified STR profiles that could be more easily interpreted using conventional procedures. Additionally, TrueAllele® analysis of STR profiles from sorted cell fractions increased statistical strength for the association of most of the original contributors interpreted from the original mixtures.

Published

2018

12. Testing Hormone-specific Antibody Probes for Presumptive Detection and Separation of Contributor Cell Populations in Trace DNA Mixtures

Author

Emily R. Brocato, Susan A. Greenspoon, Christopher J. Ehrhardt, Jennifer M. Miller, and Vamsi K. Yadavalli

Subjects

0303 health sciences, education.field_of_study, biology, Chemistry, Population, Cell, Cell Fraction, Fluorescence, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine.anatomical_structure, DNA profiling, Biochemistry, Extracellular, medicine, biology.protein, 030216 legal & forensic medicine, Antibody, education, DNA, 030304 developmental biology

Abstract

“Touch” or trace DNA evidence represent a significant proportion of samples analyzed by forensic science laboratories. Because these samples frequently contain multiple contributors and are often challenging to analyze due to low DNA concentrations and frequent degradation, front end techniques to simplify the mixture prior to DNA profiling could significantly impact case processing and enhance success rates. The goal of this study was to investigate whether targeting hormone molecules within the cell with antibody probes could be used to selectively label and then physically isolate contributor cell populations in trace biological samples. The separation of male and female cells into distinct fractions could reduce the complexity of the mixture prior to DNA profiling. To accomplish this, we first tested the specificity of fluorescently labelled anti-testosterone and anti-dihydrotestosterone antibody probes to epidermal cells from both male and female individuals. Results show that male and female cell populations can be effectively labeled using anti-testosterone and anti-dihydrotestosterone antibody probes and that distinct differences in binding efficiency and resulting median fluorescence of cell populations were observed between several individuals. These differences were then used to design sorting criteria for physically isolating each cell population in two-person epidermal cell mixtures using fluorescence activated cell sorting (FACS). DNA profiling of separated fractions in combination with probabilistic modeling demonstrated that some cell mixtures could be enriched for one contributor in separated cell fractions and yielded statistically more discriminating profiles compared to those generated from the original mixtures. Other mixtures tested showed less evidence of effective cell separation possibly due to a number of factors including imbalance of contributor DNA ratio, intra-sex variation of antibody binding efficiency, and contributions of extracellular or cell-free DNA in the mixture sample. Screening and separation of trace DNA samples with this approach may be presumptive and ultimately constrained by specific parameters of the original mixture, however, antibody binding optimization may mitigate some of these influences.

Published

2019

13. Synthesis of chitosan coated metal organic frameworks (MOFs) for increasing vancomycin bactericidal potentials against resistant S. aureus strain

Author

Samina Perveen, Massimo F. Bertino, Salim Saifullah, Muhammad Raza Shah, Muhammad Imran, Christopher J. Ehrhardt, Tasmina Kanwal, Iqra Ghaffar, and Vamsi K. Yadavalli

Subjects

Staphylococcus aureus, Materials science, Surface Properties, Metal ions in aqueous solution, Static Electricity, Bioengineering, 02 engineering and technology, Microbial Sensitivity Tests, 010402 general chemistry, medicine.disease_cause, 01 natural sciences, Biomaterials, Chitosan, chemistry.chemical_compound, Inhibitory Concentration 50, Chitin, Coated Materials, Biocompatible, X-Ray Diffraction, Vancomycin, Drug Resistance, Bacterial, Spectroscopy, Fourier Transform Infrared, medicine, Particle Size, Metal-Organic Frameworks, Calorimetry, Differential Scanning, fungi, 021001 nanoscience & nanotechnology, Antimicrobial, Combinatorial chemistry, 0104 chemical sciences, Anti-Bacterial Agents, chemistry, Mechanics of Materials, Drug delivery, Thermogravimetry, 0210 nano-technology, Hybrid material, Porosity, medicine.drug

Abstract

Multiple drug resistant (MDR) has become a major issue in developing countries. MDR bacterial infections lead to significant increase in morbidity, mortality and cost of prolonged treatments. Therefore, designing of strategies for improving the antimicrobial potential of the therapeutic agents are highly required. Metal organic frameworks (MOFs) are highly tunable hybrid material, consist of metal ions linked together by organic bridging ligands have been used as an efficient drug delivery carrier because of their biodegradability, low toxicity and structure integrity upon loading and functionalizing process. Current study was based on the synthesis of chitosan coated MOFs with enhanced contact with S. aureus cell surface. Chitosan is deacetylated derivative of chitin and capable for non-bonding interaction with negatively charged bacterial cell leading to enhanced contact of MOFs with S. aureus. Chitosan coated MOFs were characterized with various techniques such as atomic force microscopy, scanning electron microscopy, DLS, FT-IR, TGA, DSC and Powder X-ray diffraction. They were also studied for their efficacy on resistant S. aureus, results revealed that Vancomycin bactericidal activity significantly increased upon loading in chitosan coated MOFs and caused increased inhibition of resistant S. aureus. AFM analysis of S. aureus strains clearly revealed complete distortion of morphology by treating with chitosan modified drug loaded MOFs. Findings of the current study suggest the potential of chitosan coated MOFs for reversing bacterial resistance against Vancomycin and provide new perspectives for improved antibiotic therapy of infections associated with MDR.

Published

2019

14. Customizable 3D printed diffusion chambers for studies of bacterial pathogen phenotypes in complex environments

Author

Muhammed Raza Shah, Kanwal Mohammad Iqbal, Vamsi K. Yadavalli, Terrie Simmons-Ehrhardt, Lyddia C. Wilson, Christopher J. Ehrhardt, and Massimo F. Bertino

Subjects

Microbiology (medical), Abiotic component, Biotic component, biology, Chemistry, Bacillus cereus, Contamination, biology.organism_classification, Escherichia coli O157, Microbiology, Microbial ecology, Culture Techniques, Printing, Three-Dimensional, Diffusion Chambers, Culture, Single-Cell Analysis, Biological system, Molecular Biology, Soil microbiology, Pathogen, Bacteria, Soil Microbiology

Abstract

Gaps in our understanding of the natural ecology and survival mechanisms of pathogenic bacteria in complex microenvironments such as soil typically occur due to the difficulty in characterizing biochemical profiles and morphological characteristics as they exist in environmental samples. Conversely, accurate simulation of the abiotic and biotic chemistries of soil habitats within the laboratory is often a significant challenge. Herein, we present the fabrication of customizable and precisely engineered 3D printed diffusion chambers that can be used to incubate bacterial cultures directly in soil matrices within a controlled laboratory experiment, and study the dynamics between bacterial cells and soil components. As part of the design process, different types of 3D printing materials were evaluated for ease of sterilization, structural integrity throughout the experiment, as well as cost/ease of production. To demonstrate potential applications for environmental studies, the diffusion chamber was used to incubate cultures of Bacillus cereus T-strain and Escherichia coli strain O157 directly in soil matrices. We show that the chamber facilitates diffusion of abiotic/biotic components of the soil with target cells without contamination from in situ microbial communities, while allowing for single cell and ensemble level phenotypic analyses of bacteria cultured with and without soil matrices.

Published

2019

15. Technical note: Survey of extracellular and cell-pellet-associated DNA from ‘touch’/trace samples

Author

Anita Olsen, Vamsi K. Yadavalli, Mary Tootham, Mekhi Miller, M. Katherine Philpott, and Christopher J. Ehrhardt

Subjects

Male, Cell, Cell Fractionation, Pathology and Forensic Medicine, chemistry.chemical_compound, Pellet, medicine, Extracellular, Fluorescence microscope, Humans, Reproducibility of Results, DNA, Flow Cytometry, DNA Fingerprinting, Fluorescence, Cell Pellet, medicine.anatomical_structure, Epidermal Cells, Microscopy, Fluorescence, chemistry, Cell-free fetal DNA, Touch, Biophysics, Female, Law

Abstract

The goal of this study was to characterize the reproducibility of extracellular and cell pellet associated DNA yields recovered from handled substrates. Results showed that extracellular DNA yields were extremely variable between contributors—ranging between 0 and >10ng—and tended to dwarf cell pellet yields, which varied between 0 and ∼230 pg. DNA yields across multiple samples from the same contributor on different days showed similar levels of variability in both DNA fractions, indicating that extracellular DNA yield is largely influenced by extrinsic and/or environmental factors and is not a contributor-specific attribute. Microscopic surveys of cells from the pellet fraction as well as fingerprints from the same contributor samples were conducted following treatment with fluorescent DNA stain. Nearly all imaged cells exhibited diffuse fluorescence across the cell without discernable evidence of nuclei. This is consistent with the limited nature of DNA recovery from the pellet fraction and the prevalence of extracellular DNA in these samples.

Published

2021

16. The effect of growth temperature on the nanoscale biochemical surface properties of Yersinia pestis

Author

Christopher J. Ehrhardt, Cristina Stanciu, Vamsi K. Yadavalli, and Congzhou Wang

Subjects

0301 basic medicine, biology, Surface Properties, Yersinia pestis, Chemistry, Atomic force microscopy, Temperature, Virulence, Nanotechnology, Cellular level, Microscopy, Atomic Force, biology.organism_classification, Adaptation, Physiological, Biochemistry, Analytical Chemistry, 03 medical and health sciences, Functional mapping, 030104 developmental biology, Biophysics, Nanoparticles, Pathogen, Nanoscopic scale, Bacteria

Abstract

Yersinia pestis, the causative agent of plague, has been responsible for several recurrent, lethal pandemics in history. Currently, it is an important pathogen to study owing to its virulence, adaptation to different environments during transmission, and potential use in bioterrorism. Here, we report on the changes to Y. pestis surfaces in different external microenvironments, specifically culture temperatures (6, 25, and 37 °C). Using nanoscale imaging coupled with functional mapping, we illustrate that changes in the surfaces of the bacterium from a morphological and biochemical standpoint can be analyzed simultaneously using atomic force microscopy. The results from functional mapping, obtained at a single cell level, show that the density of lipopolysaccharide (measured via terminal N-acetylglucosamine) on Y. pestis grown at 37 °C is only slightly higher than cells grown at 25 °C, but nearly three times higher than cells maintained at 6 °C for an extended period of time, thereby demonstrating that adaptations to different environments can be effectively captured using this technique. This nanoscale evaluation provides a new microscopic approach to study nanoscale properties of bacterial pathogens and investigate adaptations to different external environments.

Published

2016

17. Real-Time Observation of Antimicrobial Polycation Effects on Escherichia coli: Adapting the Carpet Model for Membrane Disruption to Quaternary Copolyoxetanes

Author

Sithara S. Nair, Vamsi K. Yadavalli, Dennis E. Ohman, Kenneth J. Wynne, Congzhou Wang, Olga Yu. Zolotarskaya, and Christopher J. Ehrhardt

Subjects

0301 basic medicine, Polyurethanes, Antimicrobial peptides, 02 engineering and technology, Microscopy, Atomic Force, medicine.disease_cause, Cell membrane, Surface-Active Agents, 03 medical and health sciences, chemistry.chemical_compound, Escherichia coli, Electrochemistry, medicine, Polylysine, General Materials Science, Spectroscopy, biology, Cell Membrane, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, biology.organism_classification, Anti-Bacterial Agents, Nanopore, 030104 developmental biology, medicine.anatomical_structure, Membrane, chemistry, Biochemistry, Cytoplasm, Biophysics, lipids (amino acids, peptides, and proteins), 0210 nano-technology, Bacteria

Abstract

Real-time atomic force microscopy (AFM) was used for analyzing effects of the antimicrobial polycation copolyoxetane P[(C12)-(ME2Ox)-50/50], C12-50 on the membrane of a model bacterium, Escherichia coli (ATCC# 35218). AFM imaging showed cell membrane changes with increasing C12-50 concentration and time including nanopore formation and bulges associated with outer bacterial membrane disruption. A macroscale bactericidal concentration study for C12-50 showed a 4 log kill at 15 μg/mL with conditions paralleling imaging (1 h, 1x PBS, physiological pH, 25 °C). The dramatic changes from the control image to 1 h after introducing 15 μg/mL C12-50 are therefore reasonably attributed to cell death. At the highest concentration (60 μg/mL) further cell membrane disruption results in leakage of cytoplasm driven by detergent-like action. The sequence of processes for initial membrane disruption by the synthetic polycation C12-50 follows the carpet model posited for antimicrobial peptides (AMPs). However, the nanoscale details are distinctly different as C12-50 is a synthetic, water-soluble copolycation that is best modeled as a random coil. In a complementary AFM study, chemical force microscopy shows that incubating cells with C12-50 decreased the hydrophobicity across the entire cell surface at an early stage. This finding provides additional evidence indicating that C12-50 polycations initially bind with the cell membrane in a carpet-like fashion. Taken together, real time AFM imaging elucidates the mechanism of antimicrobial action for copolyoxetane C12-50 at the single cell level. In future work this approach will provide important insights into structure-property relationships and improved antimicrobial effectiveness for synthetic amphiphilic polycations.

Published

2016

18. Evaluation of whole cell fixation methods for the analysis of nanoscale surface features of Yersinia pestis KIM

Author

Christopher J. Ehrhardt, Cristina Stanciu, Vamsi K. Yadavalli, and Congzhou Wang

Subjects

0301 basic medicine, Histology, Virulence, Biology, Biocontainment, biology.organism_classification, Cell morphology, Fixation method, Pathology and Forensic Medicine, Microbiology, 03 medical and health sciences, Biosafety, 030104 developmental biology, Yersinia pestis, Biosafety level, Bacterial cellular morphologies

Abstract

Summary Manipulation of viable Yersinia pestis (etiologic agent of plague) in the laboratory usually necessitates elevated biosafety and biocontainment procedures, even with avirulent or vaccine strains. To facilitate downstream biochemical or physical analyses in a Biosafety Level 1 laboratory environment, effective inactivation without affecting its intrinsic properties is critical. Here, we report on the morphological and biochemical changes to Y. pestis surfaces following four different fixation methods that render the cells nonviable. The results, obtained at the single cell level, demonstrate that methanol inactivation is best able to preserve bacterial morphology and bioactivity, enabling subsequent analysis. This nanoscale evaluation of the effects of inactivation on cell morphology and surface bioactivity may provide a crucial preparatory approach to study virulent pathogens in the lab setting using high-resolution microscopic techniques such as atomic force microscopy.

Published

2016

19. Review of: Microbial forensics , 3rd ed

Author

Christopher J. Ehrhardt

Subjects

Genetics, Pathology and Forensic Medicine

Published

2020

20. Nanoscale Phenotypic Textures of Yersinia pestis Across Environmentally-Relevant Matrices

Author

Muhammed Raza Shah, Christopher J. Ehrhardt, Vamsi K. Yadavalli, Massimo F. Bertino, and Kanwal Mohammad Iqbal

Subjects

Microbiology (medical), Yersinia pestis, Phospholipid, medicine.disease_cause, Microbiology, Article, 03 medical and health sciences, chemistry.chemical_compound, soil culture, Virology, medicine, lcsh:QH301-705.5, Unsaturated fatty acid, Fatty acid methyl ester, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, atomic force microscopy, biology, 030306 microbiology, Fatty acid, Pathogenic bacteria, nanoscale, biology.organism_classification, Phenotype, 3D printed culture chamber, Membrane, lcsh:Biology (General), chemistry, Biophysics

Abstract

The persistence of bacterial pathogens within environmental matrices plays an important role in the epidemiology of diseases, as well as impacts biosurveillance strategies. However, the adaptation potentials, mechanisms for survival, and ecological interactions of pathogenic bacteria such as Yersinia pestis are largely uncharacterized owing to the difficulty of profiling their phenotypic signatures. In this report, we describe studies on Y. pestis organisms cultured within soil matrices, which are among the most important reservoirs for their propagation. Morphological (nanoscale) and phenotypic analysis are presented at the single cell level conducted using Atomic Force Microscopy (AFM), coupled with biochemical profiles of bulk populations using Fatty Acid Methyl Ester Profiling (FAME). These studies are facilitated by a novel, customizable, 3D printed diffusion chamber that allows for control of the external environment and easy harvesting of cells. The results show that incubation within soil matrices lead to reduction of cell size and an increase in surface hydrophobicity. FAME profiles indicate shifts in unsaturated fatty acid compositions, while other fatty acid components of the phospholipid membrane or surface lipids remained consistent across culturing conditions, suggesting that phenotypic shifts may be driven by non-lipid components of Y. pestis.

Published

2020

21. Open-Source Tools for Dense Facial Tissue Depth Mapping of Computed Tomography Models

Author

Terrie, Simmons-Ehrhardt, Catyana, Falsetti, Anthony B, Falsetti, and Christopher J, Ehrhardt

Subjects

Adult, Aged, 80 and over, Male, Stereolithography, Skull, Middle Aged, Imaging, Three-Dimensional, Face, Forensic Anthropology, Humans, Female, Tomography, X-Ray Computed, Software, Aged

Abstract

Computed tomography (CT) scans provide anthropologists with a resource to generate three-dimensional (3D) digital skeletal material to expand quantification methods and build more standardized reference collections. The ability to visualize and manipulate the bone and skin of the face simultaneously in a 3D digital environment introduces a new way for forensic facial approximation practitioners to access and study the face. Craniofacial relationships can be quantified with landmarks or with surface-processing software that can quantify the geometric properties of the entire 3D facial surface. This article describes tools for the generation of dense facial tissue depth maps (FTDMs) using deidentified head CT scans of modern Americans from the Cancer Imaging Archive public repository and the open-source program Meshlab. CT scans of 43 females and 63 males from the archive were segmented and converted to 3D skull and face models using Mimics and exported as stereolithography files. All subsequent processing steps were performed in Meshlab. Heads were transformed to a common orientation and coordinate system using the coordinates of nasion, left orbitale, and left and right porion. Dense FTDMs were generated on hollowed, cropped face shells using the Hausdorff sampling filter. Two new point clouds consisting of the 3D coordinates for both skull and face were colorized on an RGB (red-green-blue) scale from 0.0 (red) to 40.0-mm (blue) depth values and exported as polygon (PLY) file format models with tissue depth values saved in the "vertex quality" field. FTDMs were also split into 1.0-mm increments to facilitate viewing of common depths across all faces. In total, 112 FTDMs were generated for 106 individuals. Minimum depth values ranged from 1.2 mm to 3.4 mm, indicating a common range of starting depths for most faces regardless of weight, as well as common locations for these values over the nasal bones, lateral orbital margins, and forehead superior to the supraorbital border. Maximum depths were found in the buccal region and neck, excluding the nose. Individuals with multiple scans at visibly different weights presented the greatest differences within larger depth areas such as the cheeks and neck, with little to no difference in the thinnest areas. A few individuals with minimum tissue depths at the lateral orbital margins and thicker tissues over the nasal bones (3.0 mm) suggested the potential influence of nasal bone morphology on tissue depths. This study produced visual quantitative representations of the face and skull for forensic facial approximation research and practice that can be further analyzed or interacted with using free software. The presented tools can be applied to preexisting CT scans, traditional or cone beam, adult or subadult individuals, with or without landmarks, and regardless of head orientation, for forensic applications as well as for studies of facial variation and facial growth. In contrast with other facial mapping studies, this method produced both skull and face points based on replicable geometric relationships, producing multiple data outputs that are easily readable with software that is openly accessible.

Published

2018

22. Evaluation of Bluestar

Author

Autumn R, Vineyard, Eric J, Hazelrigg, Christopher J, Ehrhardt, and Catherine C, Connon

Subjects

Luminescent Agents, Time Factors, Blood Stains, Benzidines, Humans, Indicators and Reagents, Luminol, Phenolphthalein, Forensic Medicine, Wood, Fires

Abstract

Accurate blood detection is a primary concern for forensic scientists, especially in highly compromised situations. In this study, blood was added to wood blocks and subjected to a variety of fire treatments: the absence or presence of accelerant, burn time (1, 3, or 5 min), and extinguishment method (smothering or dousing with water). Burned blocks were given a qualitative burn score, followed by removal of half of the char from each block and subsequent testing of each half for blood using luminol (13% positive; n = 96), Bluestar

Published

2018

23. Rapid differentiation of epithelial cell types in aged biological samples using autofluorescence and morphological signatures

Author

Emily R. Brocato, M. Katherine Philpott, Christopher J. Ehrhardt, and Catherine C. Connon

Subjects

0301 basic medicine, Male, Fluorescence-lifetime imaging microscopy, Pathology, Cellular differentiation, Buccal swab, lcsh:Medicine, Social Sciences, 01 natural sciences, Epithelium, Bright Field Microscopy, Spectrum Analysis Techniques, Fluorescence Microscopy, Animal Cells, Medicine and Health Sciences, lcsh:Science, Cells, Cultured, Microscopy, Multidisciplinary, medicine.diagnostic_test, Optical Imaging, Light Microscopy, Cell Differentiation, Flow Cytometry, Clinical Laboratory Sciences, medicine.anatomical_structure, Aspect Ratio, Spectrophotometry, Physical Sciences, Female, Cytophotometry, Cellular Types, Anatomy, Research Article, medicine.medical_specialty, Imaging Techniques, Geometry, Biology, Research and Analysis Methods, Flow cytometry, Specimen Handling, 03 medical and health sciences, Diagnostic Medicine, Fluorescence Imaging, medicine, Humans, Cell Size, Forensics, Mouth, lcsh:R, 010401 analytical chemistry, Bright-field microscopy, Biology and Life Sciences, Epithelial Cells, Buccal administration, Cell Biology, 0104 chemical sciences, Autofluorescence, 030104 developmental biology, Biological Tissue, Epidermal Cells, lcsh:Q, Law and Legal Sciences, Mathematics, Developmental Biology

Abstract

Establishing the tissue source of epithelial cells within a biological sample is an important capability for forensic laboratories. In this study we used Imaging Flow Cytometry (IFC) to analyze individual cells recovered from buccal, epidermal, and vaginal samples that had been dried between 24 hours and more than eight weeks. Measurements capturing the size, shape, and fluorescent properties of cells were collected in an automated manner and then used to build a multivariate statistical framework for differentiating cells based on tissue type. Results showed that epidermal cells could be distinguished from vaginal and buccal cells using a discriminant function analysis of IFC measurements with an average classification accuracy of ~94%. Ultimately, cellular measurements such as these, which can be obtained non-destructively, may provide probative information for many types of biological samples and complement results from standard genetic profiling techniques.

Published

2018

24. Separation of uncompromised whole blood mixtures for single source STR profiling using fluorescently-labeled human leukocyte antigen (HLA) probes and fluorescence activated cell sorting (FACS)

Author

M. Katherine Philpott, Cristina Stanciu, Lee Dean, Jamie Sturgill, Sarah J. Seashols-Williams, Tracey Dawson Cruz, Christopher J. Ehrhardt, and Ye Jin Kwon

Subjects

Cell type, Population, Cell, Human leukocyte antigen, Biology, Pathology and Forensic Medicine, chemistry.chemical_compound, HLA-A2 Antigen, Genetics, medicine, Humans, education, Alleles, Fluorescent Dyes, education.field_of_study, Forensic Sciences, Flow Cytometry, DNA Fingerprinting, Molecular biology, medicine.anatomical_structure, STR analysis, chemistry, DNA profiling, biology.protein, Antibody, Blood Chemical Analysis, DNA, Microsatellite Repeats

Abstract

Analysis of biological mixtures is a significant problem for forensic laboratories, particularly when the mixture contains only one cell type. Contributions from multiple individuals to biologic evidence can complicate DNA profile interpretation and often lead to a reduction in the probative value of DNA evidence or worse, its total loss. To address this, we have utilized an analytical technique that exploits the intrinsic immunological variation among individuals to physically separate cells from different sources in a mixture prior to DNA profiling. Specifically, we applied a fluorescently labeled antibody probe to selectively bind to one contributor in a mixture through allele-specific interactions with human leukocyte antigen (HLA) proteins that are expressed on the surfaces of most nucleated cells. Once the contributor's cells were bound to the probe, they were isolated from the mixture using fluorescence activated cell sorting (FACS)-a high throughput technique for separating cell populations based on their optical properties-and then subjected to STR analysis. We tested this approach on two-person and four-person whole blood mixtures where one contributor possessed an HLA allele (A*02) that was not shared by other contributors to the mixture. Results showed that hybridization of the mixture with a fluorescently-labeled antibody probe complimentary to the A*02 allele's protein product created a cell population with a distinct optical profile that could be easily differentiated from other cells in the mixture. After sorting the cells with FACS, genetic analysis showed that the STR profile of this cell population was consistent with that of the contributor who possessed the A*02 allele. Minor peaks from the A*02 negative contributor(s) were observed but could be easily distinguished from the profile generated from A*02 positive cells. Overall, this indicates that HLA antibody probes coupled to FACS may be an effective approach for generating STR profiles of individual contributors from forensic mixtures.

Published

2015

25. Forensic differentiation of Bacillus cereus spores grown using different culture media using Raman spectroscopy

Author

James M. Robertson, Christopher J. Ehrhardt, Kristina A. Scott, Jessica M. Goss, Jason D. Bannan, and Joshua R. Dettman

Subjects

Spores, Bacterial, Chemical signature, Strain (chemistry), biology, Chemistry, Microorganism, Forensic Sciences, fungi, Bacillus cereus, Analytical chemistry, Repeatability, Spectrum Analysis, Raman, biology.organism_classification, Biochemistry, Endospore, Culture Media, Analytical Chemistry, Spore, symbols.namesake, symbols, Food science, Raman spectroscopy

Abstract

Some microorganisms have been shown to retain a chemical signature indicative of the medium used for culturing. However, the repeatability of medium-specific chemical signatures has not been demonstrated from samples of microorganisms produced in the same batch or in different batches by the same sporulation protocol. Here, the variation in Raman spectra of bacterial endospores repeatedly prepared by the same procedure is compared to the variation between Raman spectra of spores prepared using different media. Bacillus cereus T strain (BcT) samples were correctly classified according to the medium used to induce sporulation for 100 % of spores grown in a controlled manner by the same scientist using Raman spectroscopy and multivariate data analysis. The proof-of-concept results from BcT spores produced in 12 different sporulation media showed correct classification by medium for 98 % of samples (with 100 % classification accuracy for all but one sporulation medium in this data set). Spectral differences were discerned between spores that had been freshly prepared or freeze-dried and spores that had been frozen; however, the differences did not impact the classification of the sporulation medium. Latent variables reduced the classification accuracy of BcT sporulated in G medium by different scientists using different media lots and stored for different periods of time and requires further study.

Published

2015

26. Morphological and mechanical imaging of Bacillus cereus spore formation at the nanoscale

Author

Cristina Stanciu, Congzhou Wang, Christopher J. Ehrhardt, and Vamsi K. Yadavalli

Subjects

Histology, biology, fungi, Morphogenesis, Bacillus cereus, Bacillus, biology.organism_classification, Endospore, Pathology and Forensic Medicine, Spore, Microbiology, Sporogenesis, Biophysics, Bacterial spore, Bacteria

Abstract

Summary Bacteria from the genus Bacillus are able to transform into metabolically dormant states called (endo) spores in response to nutrient deprivation and other harsh conditions. These morphologically distinct spores are fascinating constructs, amongst the most durable cells in nature, and have attracted attention owing to their relevance in food-related illnesses and bioterrorism. Observing the course of bacterial spore formation (sporulation) spatially, temporally and mechanically, from the vegetative cell to a mature spore, is critical for a better understanding of this process. Here, we present a fast and versatile strategy for monitoring both the morphological and mechanical changes of Bacillus cereus bacteria at the nanoscale using atomic force microscopy. Through a strategy of imaging and nanomechanical mapping, we show the morphogenesis of the endospore and released mature endospore. Finally, we investigate individual spores to characterizetheirsurfacemechanically.Theprogressioninelasticity coupled with a similarity of characteristic distributions between the incipient endospores and the formed spores show these distinct stages. Taken together, our data demonstrates the power of atomic force microscopy applied in microbiology for probing this important biological process at the single cell scale.

Published

2015

27. Evaluation of the suitability of cranial measurements obtained from surface-rendered CT scans of living people for estimating sex and ancestry

Author

Christopher J. Ehrhardt, Keith L. Monson, and Terrie Simmons-Ehrhardt

Subjects

medicine.diagnostic_test, business.industry, Measurement precision, Medicine, Radiology, Nuclear Medicine and imaging, Computed tomography, business, Cartography, Cross-validation, Pathology and Forensic Medicine

Abstract

Craniometric data from computed tomography (CT) head scans of 287 living Americans of three descent groups (African, Asian, European) and both sexes were analyzed for measurement precision. Classification accuracy was estimated by a leave-one-out cross validation, and group means were compared to the Forensic Data Bank (FDB). Landmarks were placed on 3D surface models of the skulls to approximate traditional cranial measurements utilized in sex and ancestry estimations. From repeat measurements by one observer on a subset of skulls (n = 14) reflecting 14 different CT protocols, the least precise landmark was euryon (SD ≤ 4.09 mm) and the least precise distances according to the coefficient of reliability (

Published

2019

28. Integration of stable isotope and trace contaminant concentration for enhanced forensic acetone discrimination

Author

James J. Moran, Jon H. Wahl, Christopher J. Ehrhardt, Karen L. Wahl, and Helen W. Kreuzer

Subjects

Carbon Isotopes, Chemical Terrorism, Chemistry(all), Stable isotope ratio, Sample (material), Forensic Sciences, Analytical chemistry, Discriminant Analysis, Ketones, Deuterium, Stable isotope, Mass Spectrometry, Analytical Chemistry, Acetone, chemistry.chemical_compound, Hexanones, Pentanols, chemistry, Trace contaminant analysis, Pentanones, Forensic fingerprinting, Cluster (physics), Humans, TRACE (psycholinguistics)

Abstract

We analyzed 21 neat acetone samples from 15 different suppliers to demonstrate the utility of a coupled stable isotope and trace contaminant strategy for distinguishing forensically-relevant samples. By combining these two pieces of orthogonal data we could discriminate all of the acetones that were produced by the 15 different suppliers. Using stable isotope ratios alone, we were able to distinguish 8 acetone samples, while the remaining 13 fell into four clusters with highly similar signatures. Adding trace chemical contaminant information enhanced discrimination to 13 individual acetones with three residual clusters. The acetones within each cluster shared a common manufacturer and might, therefore, not be expected to be resolved. The data presented here demonstrates the power of combining orthogonal data sets to enhance sample fingerprinting and highlights the role disparate data could play in future forensic investigations.

Published

2013

29. Nanoscale imaging and hydrophobicity mapping of the antimicrobial effect of copper on bacterial surfaces

Author

Congzhou Wang, Vamsi K. Yadavalli, and Christopher J. Ehrhardt

Subjects

0301 basic medicine, Materials science, Surface Properties, 030106 microbiology, General Physics and Astronomy, chemistry.chemical_element, Nanotechnology, Microscopy, Atomic Force, Bacterial cell structure, Metal, 03 medical and health sciences, Structural Biology, Escherichia coli, General Materials Science, Nanoscopic scale, Antimicrobial properties of copper, Cell Biology, Antimicrobial, Copper, Anti-Bacterial Agents, Molecular Imaging, Membrane, chemistry, visual_art, visual_art.visual_art_medium, Biophysics, Chemical stability, Single-Cell Analysis, Hydrophobic and Hydrophilic Interactions

Abstract

Copper has a long historical role in the arena of materials with antimicrobial properties. Various forms of copper ranging from surfaces to impregnation in textiles and particles, have attracted considerable interest owing to their versatility, potency, chemical stability, and low cost. However, the effects and mechanisms of their antimicrobial action is still unclear. In this study, the effect of copper particles on Escherichia coli was studied at the nanoscale using atomic force microscopy (AFM). Time-lapse AFM images at the single cell level show the morphological changes on live E. coli during antimicrobial treatment, in which for the first time, this process was followed in situ on the same cell over time. AFM-based hydrophobicity mapping further showed that incubating cells with Cu decreased the surface hydrophobicity with an increase of incubation time. Specifically, we are able to visualize both morphology and physico-chemical nature of the bacterial cell surface change in response to copper treatment, leading to the membrane damage and cytoplasm leakage. Overall, the time-lapse AFM imaging combined with hydrophobicity mapping approach presented here provides spatio-temporal insight into the antimicrobial mechanisms of copper at the single cell level, and can be applied to design of better metallic antimicrobial materials as well as investigate different microorganisms.

Published

2016

30. Open-Source Tools for Dense Facial Tissue Depth Mapping of Computed Tomography Models

Author

Terrie Simmons-Ehrhardt, Anthony B. Falsetti, Christopher J. Ehrhardt, and Catyana Skory Falsetti

Subjects

Orientation (computer vision), Computer science, business.industry, 010401 analytical chemistry, Forensic anthropology, Nasal bone, 01 natural sciences, 0104 chemical sciences, 03 medical and health sciences, Skull, 0302 clinical medicine, medicine.anatomical_structure, Face (geometry), Facial tissue, Genetics, Forehead, medicine, Nasion, Computer vision, 030216 legal & forensic medicine, Artificial intelligence, business, Genetics (clinical), Ecology, Evolution, Behavior and Systematics

Abstract

Computed tomography (CT) scans provide anthropologists with a resource to generate three-dimensional (3D) digital skeletal material to expand quantification methods and build more standardized reference collections. The ability to visualize and manipulate the bone and skin of the face simultaneously in a 3D digital environment introduces a new way for forensic facial approximation practitioners to access and study the face. Craniofacial relationships can be quantified with landmarks or with surface-processing software that can quantify the geometric properties of the entire 3D facial surface. This article describes tools for the generation of dense facial tissue depth maps (FTDMs) using deidentified head CT scans of modern Americans from the Cancer Imaging Archive public repository and the open-source program Meshlab. CT scans of 43 females and 63 males from the archive were segmented and converted to 3D skull and face models using Mimics and exported as stereolithography files. All subsequent processing steps were performed in Meshlab. Heads were transformed to a common orientation and coordinate system using the coordinates of nasion, left orbitale, and left and right porion. Dense FTDMs were generated on hollowed, cropped face shells using the Hausdorff sampling filter. Two new point clouds consisting of the 3D coordinates for both skull and face were colorized on an RGB (red-green-blue) scale from 0.0 (red) to 40.0-mm (blue) depth values and exported as polygon (PLY) file format models with tissue depth values saved in the "vertex quality" field. FTDMs were also split into 1.0-mm increments to facilitate viewing of common depths across all faces. In total, 112 FTDMs were generated for 106 individuals. Minimum depth values ranged from 1.2 mm to 3.4 mm, indicating a common range of starting depths for most faces regardless of weight, as well as common locations for these values over the nasal bones, lateral orbital margins, and forehead superior to the supraorbital border. Maximum depths were found in the buccal region and neck, excluding the nose. Individuals with multiple scans at visibly different weights presented the greatest differences within larger depth areas such as the cheeks and neck, with little to no difference in the thinnest areas. A few individuals with minimum tissue depths at the lateral orbital margins and thicker tissues over the nasal bones (>3.0 mm) suggested the potential influence of nasal bone morphology on tissue depths. This study produced visual quantitative representations of the face and skull for forensic facial approximation research and practice that can be further analyzed or interacted with using free software. The presented tools can be applied to preexisting CT scans, traditional or cone beam, adult or subadult individuals, with or without landmarks, and regardless of head orientation, for forensic applications as well as for studies of facial variation and facial growth. In contrast with other facial mapping studies, this method produced both skull and face points based on replicable geometric relationships, producing multiple data outputs that are easily readable with software that is openly accessible.

Published

2018

31. Phylogeny and molecular taxonomy of the Bacillus subtilis species complex and description of Bacillus subtilis subsp. inaquosorum subsp. nov

Author

Christopher J. Ehrhardt, Neil P. J. Price, Jason D. Bannan, Alejandro P. Rooney, and James L. Swezey

Subjects

DNA, Bacterial, Genetics, Species complex, biology, Phylogenetic tree, DNA–DNA hybridization, Fatty Acids, Molecular Sequence Data, General Medicine, Bacillus subtilis, Phenotypic trait, Subspecies, 16S ribosomal RNA, biology.organism_classification, DNA, Ribosomal, Microbiology, Bacterial Typing Techniques, Phylogenetics, RNA, Ribosomal, 16S, Botany, Phylogeny, Ecology, Evolution, Behavior and Systematics

Abstract

The Bacillus subtilis species complex is a tight assemblage of closely related species. For many years, it has been recognized that these species cannot be differentiated on the basis of phenotypic characteristics. Recently, it has been shown that phylogenetic analysis of the 16S rRNA gene also fails to differentiate species within the complex due to the highly conserved nature of the gene, yet DNA-DNA hybridization values fall well below 70 % for the same species comparisons. As a complementary approach, we propose that phylogenetic analysis of multiple protein-coding loci can be used as a means to detect and differentiate novel Bacillus taxa. Indeed, our phylogenetic analyses revealed the existence of a previously unknown group of strains closely related to, but distinct from, Bacillus subtilis subsp. spizizenii. Results of matrix-assisted laser desorption ionization-time of flight mass spectrometry analyses revealed that the group produces a novel surfactin-like lipopeptide with mass m/z 1120.8 that is not produced by the other currently recognized subspecies. In addition, the group displayed differences in the total cellular content of the fatty acids C(16 : 0) and iso-C(17 : 1)omega10c that distinguish it from the closely related B. subtilis subsp. spizizenii. Consequently, the correlation of these novel phenotypic traits with the phylogenetic distinctiveness of this previously unknown subspecies group showed that phylogenetic analysis of multiple protein-coding loci can be used as a means to detect and differentiate novel Bacillus taxa. Therefore, we propose that this new group should be recognized as representing a novel taxon, Bacillus subtilis subsp. inaquosorum subsp. nov., with the type strain NRRL B-23052(T) (=KCTC 13429(T)=BGSC 3A28(T)).

Published

2009

32. Allochronic speciation, secondary contact, and reproductive character displacement in periodical cicadas (Hemiptera: Magicicada spp.): genetic, morphological, and behavioural evidence

Author

Karen Slon, Chris Simon, John R. Cooley, Christopher J. Ehrhardt, and David C. Marshall

Subjects

Sympatry, Species complex, biology, Heteropatric speciation, Periodical cicadas, Genetics, Allopatric speciation, Character displacement, Zoology, Incipient speciation, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Magicicada neotredecim

Abstract

Periodical cicadas have proven useful in testing a variety of ecological and evolutionary hypotheses because of their unusual life history, extraordinary abundance, and wide geographical range. Periodical cicadas provide the best examples of synchronous periodicity and predator satiation in the animal kingdom, and are excellent illustrations of habitat partitioning (by the three morphologically distinct species groups), incipient species (the year classes or broods), and cryptic species (a newly discovered 13-year species, Magicicada neotredecim). They are particularly useful for exploring questions regarding speciation via temporal isolation, or allochronic speciation. Recently, data were presented that provided strong support for an instance of allochronic speciation by life-cycle switching. This speciation event resulted in the formation of a new 13-year species from a 17-year species and led to secondary contact between two formerly separated lineages, one represented by the new 13-year cicadas (and their 17-year ancestors), and the other represented by the pre-existing 13-year cicadas. Allozyme frequency data, mitochondrial DNA (mtDNA), and abdominal colour were shown to be correlated genetic markers supporting the life-cycle switching/allochronic speciation hypothesis. In addition, a striking pattern of reproductive character displacement in male call pitch and female pitch preference between the two 13-year species was discovered. In this paper we report a strong association between calling song pitch and mtDNA haplotype for 101 individuals from a single locality within the M. tredecim/M. neotredecim contact zone and a strong association between abdomen colour and mtDNA haplotype. We conclude by reviewing proposed mechanisms for allochronic speciation and reproductive character displacement.

Published

2008

33. Evidence for hydrothermal Archaea within the basaltic flanks of the East Pacific Rise

Author

Christopher J. Ehrhardt, Patricia A. Holden, Michael G. LaMontagne, and Rachel M. Haymon

Subjects

DNA, Bacterial, Geologic Sediments, Hot Temperature, Molecular Sequence Data, Sulfides, Biology, Fault (geology), Fault scarp, Ferric Compounds, Microbiology, Hydrothermal circulation, Paleontology, Oceanic crust, RNA, Ribosomal, 16S, Water Movements, Seawater, Ecosystem, Phylogeny, Ecology, Evolution, Behavior and Systematics, Basalt, geography, Pacific Ocean, geography.geographical_feature_category, Biodiversity, Archaea, Seafloor spreading, Abyssal hill, Ridge (meteorology), Copper

Abstract

Little is known about the fluids or the microbial communities present within potentially vast hydrothermal reservoirs contained in still-hot volcanic ocean crust beneath the flanks of the mid-ocean ridge. During Alvin dives in 2002, organic material attached to basalt was collected at low, near-ambient temperatures from an abyssal hill fault scarp in 0.5 Ma lithosphere on the western ridge flank of the East Pacific Rise. Mineral analysis by X-ray diffractometry and scanning electron microscopy revealed high-temperature (> 110 degrees C) phases chalcopyrite (Cu(5)FeS(4)) and 1C pyrrhotite (Fe(1-x)S) within the fault scarp materials. A molecular survey of archaeal genes encoding 16S rRNA identified a diverse hyperthermophilic community, including groups within Crenarchaeota, Euryarchaeota, and Korarchaeota. We propose that the sulfide, metals and archaeal communities originated within a basalt-hosted subseafloor hydrothermal habitat beneath the East Pacific Rise ridge flank and were transported to the seafloor during a recent episode of hydrothermal venting from the abyssal hill fault. Additionally, inferred metabolisms from the fault scarp community suggest that an ecologically unique high-temperature archaeal biosphere may thrive beneath the young East Pacific Rise ridge flank and that abyssal hill fault scarps may present new opportunities for sampling for this largely unexplored microbial habitat.

Published

2007

34. Morphological and mechanical imaging of Bacillus cereus spore formation at the nanoscale

Author

Congzhou, Wang, Cristina, Stanciu, Christopher J, Ehrhardt, and Vamsi K, Yadavalli

Subjects

Spores, Bacterial, Bacillus cereus, Microscopy, Atomic Force, Elasticity

Abstract

Bacteria from the genus Bacillus are able to transform into metabolically dormant states called (endo) spores in response to nutrient deprivation and other harsh conditions. These morphologically distinct spores are fascinating constructs, amongst the most durable cells in nature, and have attracted attention owing to their relevance in food-related illnesses and bioterrorism. Observing the course of bacterial spore formation (sporulation) spatially, temporally and mechanically, from the vegetative cell to a mature spore, is critical for a better understanding of this process. Here, we present a fast and versatile strategy for monitoring both the morphological and mechanical changes of Bacillus cereus bacteria at the nanoscale using atomic force microscopy. Through a strategy of imaging and nanomechanical mapping, we show the morphogenesis of the endospore and released mature endospore. Finally, we investigate individual spores to characterize their surface mechanically. The progression in elasticity coupled with a similarity of characteristic distributions between the incipient endospores and the formed spores show these distinct stages. Taken together, our data demonstrates the power of atomic force microscopy applied in microbiology for probing this important biological process at the single cell scale.

Published

2014

35. Fatty Acid Profiles for Differentiating Growth Medium Formulations Used to Culture Bacillus cereus T-strain Spores

Author

James M. Robertson, Jason D. Bannan, Christopher J. Ehrhardt, and Devonie L. Murphy

Subjects

chemistry.chemical_classification, Spores, Bacterial, Growth medium, biology, fungi, Fatty Acids, Bacillus cereus, Fatty acid, Discriminant Analysis, biology.organism_classification, Pathology and Forensic Medicine, Spore, Culture Media, chemistry.chemical_compound, chemistry, Biochemistry, Tryptone, Casein, Peptones, Genetics, Soybean Proteins, Soy protein, Fatty acid methyl ester, Biomarkers

Abstract

Microbial biomarkers that indicate aspects of an organism's growth conditions are important targets of forensic research. In this study, we examined fatty acid composition as a signature for the types of complex nutrients in the culturing medium. Bacillus cereus T-strain spores were grown in medium formulations supplemented with one of the following: peptone (meat protein), tryptone (casein protein), soy protein, and brain-heart infusion. Cellular biomass was profiled with fatty acid methyl ester (FAME) analysis. Results showed peptone cultures produced spores enriched in straight-chained lipids. Tryptone cultures produced spores enriched in branched-odd lipids when compared with peptone, soy, and brain-heart formulations. The observed FAME variation was used to construct a set of discriminant functions that could help identify the nutrients in a culturing recipe for an unknown spore sample. Blinded classification tests were most successful for spores grown on media containing peptone and tryptone, showing 88% and 100% correct identification, respectively.

Published

2014

36. Flow cytometry dataset for cells collected from touched surfaces

Author

M. Katherine Philpott, Ye Jin Kwon, Cristina Stanciu, and Christopher J. Ehrhardt

Subjects

0301 basic medicine, Multiple days, Allophycocyanin, General Immunology and Microbiology, medicine.diagnostic_test, forensic science, flow cytometry, epithelial cell, Experimental Biophysical Methods, Articles, Genomics, General Medicine, Human leukocyte antigen, Computational biology, Biology, Data Note, General Biochemistry, Genetics and Molecular Biology, Flow cytometry, 03 medical and health sciences, 030104 developmental biology, Physical separation, Immunology, medicine, touch mixtures, General Pharmacology, Toxicology and Pharmaceutics

Abstract

‘Touch’ or trace cell mixtures submitted as evidence are a significant problem for forensic laboratories as they can render resulting genetic profiles difficult or even impossible to interpret. Optical signatures that distinguish epidermal cell populations from different contributors could facilitate the physical separation of mixture components prior to genetic analysis, and potentially the downstream production of single source profiles and/or simplified mixtures. This dataset comprises the results from antibody hybridization surveys using Human Leukocyte Antigen (HLA) and Cytokeratin (CK) probes, as well as surveys of optical properties of deposited cells, including forward scatter (FSC), side scatter (SSC), and fluorescence emissions in the Allophycocyanin (APC) channel. All analyses were performed on “touch” samples deposited by several different contributors on multiple days to assess inter- and intra-contributor variability.

Published

2016

37. Flow cytometry analysis of epithelial cell populations from touch samples using the BD Influx flow cytometry platform

Author

Ye Jin Kwon, Cristina Stanciu, M. Katherine Philpott, and Christopher J. Ehrhardt

Subjects

0301 basic medicine, Allophycocyanin, Multiple days, General Immunology and Microbiology, medicine.diagnostic_test, General Medicine, Biology, Plant biology, General Biochemistry, Genetics and Molecular Biology, Epithelium, Cell biology, Flow cytometry, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Physical separation, Immunology, medicine, 030216 legal & forensic medicine, General Pharmacology, Toxicology and Pharmaceutics

Abstract

‘Touch’ or trace cell mixtures submitted as evidence are a significant problem for forensic laboratories as they can render resulting genetic profiles difficult or even impossible to interpret. Optical signatures that distinguish epidermal cell populations from different contributors could facilitate the physical separation of mixture components prior to genetic analysis, and potentially the downstream production of single source profiles and/or simplified mixtures. For this dataset, optical properties including forwards scatter (FSC), side scatter (SSC), and fluorescence emissions in the Allophycocyanin (APC) channel were measured in epithelial cell populations from touch samples collected from several different contributors on multiple days to assess inter- and intra-contributor variability.

Published

2016

38. Analysis of red autofluorescence (650-670nm) in epidermal cell populations and its potential for distinguishing contributors to 'touch' biological samples

Author

Eduardo E. Bustamante, Ye Jin Kwon, Christopher J. Ehrhardt, M. Katherine Philpott, and Cristina Stanciu

Subjects

0301 basic medicine, epidermal cell, Touch DNA, forensic science, Cell, Computational biology, autofluorescence, Biology, Intrinsic fluorescence, General Biochemistry, Genetics and Molecular Biology, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, medicine, General Pharmacology, Toxicology and Pharmaceutics, General Immunology and Microbiology, flow cytometry, touch DNA, Experimental Biophysical Methods, Articles, Genomics, General Medicine, Plant biology, DNA extraction, mixture, Research Note, Autofluorescence, 030104 developmental biology, medicine.anatomical_structure, Immunology

Abstract

Interpretation of touch DNA mixtures poses a significant challenge for forensic caseworking laboratories. Front end techniques that facilitate separation of contributor cell populations before DNA extraction are a way to circumvent this problem. The goal of this study was to survey intrinsic fluorescence of epidermal cells collected from touch surfaces and investigate whether this property could potentially be used to discriminate between contributor cell populations in a biological mixture. Analysis of red autofluorescence (650-670nm) showed that some contributors could be distinguished on this basis. Variation was also observed between autofluorescence profiles of epidermal cell populations from a single contributor sampled on different days. This dataset suggests that red autofluorescence may be a useful marker for identifying distinct cell populations in some mixtures. Future efforts should continue to investigate the extrinsic or intrinsic factors contributing to this signature, and to identify additional biomarkers that could complement this system.

Published

2016

39. Integration of gas chromatography mass spectrometry methods for differentiating ricin preparation methods

Author

Jon H. Wahl, Kathryn C. Antolick, Karen L. Wahl, Christopher J. Ehrhardt, Heather A. Colburn, Kristin D. Victry, David S. Wunschel, and Angela M. Melville

Subjects

Ricinoleic acid, Ricin, medicine.disease_cause, Mass spectrometry, Biochemistry, Gas Chromatography-Mass Spectrometry, Analytical Chemistry, Acetone, chemistry.chemical_compound, Electrochemistry, medicine, Environmental Chemistry, Spectroscopy, Chromatography, biology, Toxin, Chemistry, Ricinus, Monosaccharides, Analytic Sample Preparation Methods, Hydrogen-Ion Concentration, biology.organism_classification, Systems Integration, Castor oil, Multivariate Analysis, Seeds, Gas chromatography, Gas chromatography–mass spectrometry, Ricinoleic Acids, medicine.drug

Abstract

The investigation of crimes involving chemical or biological agents is infrequent, but presents unique analytical challenges. The protein toxin ricin is encountered more frequently than other agents and is found in the seeds of Ricinus communis, commonly known as the castor plant. Typically, the toxin is extracted from castor seeds utilizing a variety of different recipes that result in varying purity of the toxin. Moreover, these various purification steps can also leave or differentially remove a variety of exogenous and endogenous residual components with the toxin that may indicate the type and number of purification steps involved. We have applied three gas chromatography – mass spectrometry (GC-MS) based analytical methods to measure the variation in seed carbohydrates and castor oil ricinoleic acid, as well as the presence of solvents used for purification. These methods were applied to the same samples prepared using four previously identified toxin preparation methods, starting from four varieties of castor seeds. The individual data sets for seed carbohydrate profiles, ricinoleic acid, or acetone amount each provided information capable of differentiating different types of toxin preparations across seed types. However, the integration of the data sets using multivariate factor analysis provided a clear distinction of all samples based on the preparation method, independent of the seed source. In particular, the abundance of mannose, arabinose, fucose, ricinoleic acid, and acetone were shown to be important differentiating factors. These complementary tools provide a more confident determination of the method of toxin preparation than would be possible using a single analytical method.

Published

2012

40. Fatty Acids and Lipids

Author

Christopher J. Ehrhardt, James M. Robertson, and Jason D. Bannan

Subjects

chemistry.chemical_compound, Biochemistry, Phylogenetics, Chemistry, Lipid composition, Structural diversity, Organism, Fatty acid methyl ester

Abstract

Lipids are an integral component of the bacterial membrane and show great structural diversity within the cell. While lipid composition has been an important signature of bacterial phylogeny for many decades, it also has the potential to provide information on the resources and procedures used to culture an organism. Chemical factors like nutritional substrates, temperature, and physical dynamics during growth all can influence the types of lipids and their relative ratios inside the cell and potentially leave diagnostic biosignatures that are unique to a specific production process.

Published

2011

41. Archaeal and bacterial communities respond differently to environmental gradients in anoxic sediments of a California hypersaline lake, the Salton Sea

Author

Lilliana I. Moreno, Kristen M. Reifel, Christopher J. Ehrhardt, Brandon K. Swan, and David L. Valentine

Subjects

Geologic Sediments, Salinity, Molecular Sequence Data, Euryarchaeota, Applied Microbiology and Biotechnology, California, Genes, Archaeal, Microbial Ecology, Crenarchaeota, RNA, Ribosomal, 16S, Seawater, Anaerobiosis, Relative species abundance, Ecosystem, Phylogeny, Ecology, biology, Bacteria, Community structure, Genetic Variation, Genes, rRNA, Hypersaline lake, Biodiversity, Sequence Analysis, DNA, biology.organism_classification, Archaea, Terminal restriction fragment length polymorphism, DNA, Archaeal, Water Microbiology, Polymorphism, Restriction Fragment Length, Food Science, Biotechnology

Abstract

Sulfidic, anoxic sediments of the moderately hypersaline Salton Sea contain gradients in salinity and carbon that potentially structure the sedimentary microbial community. We investigated the abundance, community structure, and diversity of Bacteria and Archaea along these gradients to further distinguish the ecologies of these domains outside their established physiological range. Quantitative PCR was used to enumerate 16S rRNA gene abundances of Bacteria , Archaea , and Crenarchaeota . Community structure and diversity were evaluated by terminal restriction fragment length polymorphism (T-RFLP), quantitative analysis of gene (16S rRNA) frequencies of dominant microorganisms, and cloning and sequencing of 16S rRNA. Archaea were numerically dominant at all depths and exhibited a lesser response to environmental gradients than that of Bacteria . The relative abundance of Crenarchaeota was low (0.4 to 22%) at all depths but increased with decreased carbon content and increased salinity. Salinity structured the bacterial community but exerted no significant control on archaeal community structure, which was weakly correlated with total carbon. Partial sequencing of archaeal 16S rRNA genes retrieved from three sediment depths revealed diverse communities of Euryarchaeota and Crenarchaeota , many of which were affiliated with groups previously described from marine sediments. The abundance of these groups across all depths suggests that many putative marine archaeal groups can tolerate elevated salinity (5.0 to 11.8% [wt/vol]) and persist under the anaerobic conditions present in Salton Sea sediments. The differential response of archaeal and bacterial communities to salinity and carbon patterns is consistent with the hypothesis that adaptations to energy stress and availability distinguish the ecologies of these domains.

Published

2009

42. An improved method for nanogold in situ hybridization visualized with environmental scanning electron microscopy

Author

Christopher J. Ehrhardt, Patricia A. Holden, Rachel M. Haymon, and Stefan M. Sievert

Subjects

Histology, Bacteria, Staining and Labeling, Chemistry, Scanning confocal electron microscopy, Metal Nanoparticles, Nanotechnology, Improved method, In situ hybridization, Archaea, Pathology and Forensic Medicine, RNA, Ribosomal, Microscopy, Microscopy, Electron, Scanning, Gold, Metal nanoparticles, Environmental scanning electron microscope, In Situ Hybridization

Abstract

This paper is not subject to U.S. copyright. The definitive version was published in Journal of Microscopy 236 (2009): 5-10, doi:10.1111/j.1365-2818.2009.03207.x.

Published

2009

43. Effects of soluble cadmium salts versus CdSe quantum dots on the growth of planktonic Pseudomonas aeruginosa

Author

Peter K. Stoimenov, Galen D. Stucky, Patricia A. Holden, John H. Priester, Samuel M. Webb, Randall E. Mielke, Jin Ping Zhang, and Christopher J. Ehrhardt

Subjects

Microscopy, Electron, Scanning Transmission, chemistry.chemical_element, Microbiology, chemistry.chemical_compound, X-Ray Diffraction, Quantum Dots, Extracellular, Cadmium Compounds, Environmental Chemistry, Selenium Compounds, Dissolution, Cadmium acetate, Cadmium, biology, Chemistry, Pseudomonas, technology, industry, and agriculture, General Chemistry, equipment and supplies, biology.organism_classification, Plankton, Solubility, Pseudomonas aeruginosa, Biophysics, Metalloid, Reactive Oxygen Species, Bacteria, Intracellular

Abstract

With their increased use, engineered nanomaterials (ENMs) will enterthe environment where they may be altered by bacteria and affect bacterial processes. Metallic ENMs, such as CdSe quantum dots (QDs), are toxic due to the release of dissolved heavy metals, but the effects of cadmium ions versus intact QDs are mostly unknown. Here, planktonic Pseudomonas aeruginosa PG201 bacteria were cultured with similar total cadmium concentrations as either fully dissolved cadmium acetate (Cd(CH3COO)2) or ligand capped CdSe QDs, and cellular morphology, growth parameters, intracellular reactive oxygen species (ROS), along with the metal and metalloid fates were measured. QDs dissolved partially in growth media, but dissolution was less in biotic cultures compared to sterile controls. Dose-dependent growth effects were similar for low concentrations of either cadmium salts or QDs, but effects differed above a concentration threshold of 50 mg/L(total cadmium basis) where (1) the growth of QD-treated cells was more impaired, (2) the membranes of QD-grown cells were damaged, and (3) QD-grown cells contained QD-sized CdSe cytoplasmic inclusions in addition to Se0 and dissolved cadmium. For most concentrations, intracellular ROS were higher for QD-versus cadmium salts-grown bacteria. Taken together, QDs were more toxic to this opportunistic pathogen than cadmium ions, and were affected by cells through QD extracellular stabilization, intracellular enrichment and cell-associated decay.

Published

2009

44. Single cell profiling of surface carbohydrates on Bacillus cereus

Author

Congzhou Wang, Vamsi K. Yadavalli, and Christopher J. Ehrhardt

Subjects

In situ, Cell, Biomedical Engineering, Biophysics, Bacillus cereus, Mannose, Bioengineering, Microscopy, Atomic Force, Biochemistry, Biomaterials, chemistry.chemical_compound, medicine, Research Articles, Spores, Bacterial, biology, Polysaccharides, Bacterial, Lectin, Carbohydrate, biology.organism_classification, medicine.anatomical_structure, Cereus, chemistry, biology.protein, Intracellular, Biotechnology

Abstract

Cell surface carbohydrates are important to various bacterial activities and functions. It is well known that different types of Bacillus display heterogeneity of surface carbohydrate compositions, but detection of their presence, quantitation and estimation of variation at the single cell level have not been previously solved. Here, using atomic force microscopy (AFM)-based recognition force mapping coupled with lectin probes, the specific carbohydrate distributions of N -acetylglucosamine and mannose/glucose were detected, mapped and quantified on single B. cereus surfaces at the nanoscale across the entire cell. Further, the changes of the surface carbohydrate compositions from the vegetative cell to spore were shown. These results demonstrate AFM-based ‘recognition force mapping’ as a versatile platform to quantitatively detect and spatially map key bacterial surface biomarkers (such as carbohydrate compositions), and monitor in situ changes in surface biochemical properties during intracellular activities at the single cell level.

Published

2015

45. Manifestations of hydrothermal discharge from young abyssal hills on the fast-spreading East Pacific Rise flank

Author

Rachel M. Haymon, Ken C. Macdonald, Sara B. Benjamin, and Christopher J. Ehrhardt

Subjects

geography, geography.geographical_feature_category, Geochemistry, Sediment, Geology, Seafloor spreading, Hydrothermal circulation, Paleontology, Impact crater, Lithosphere, Ridge, Abyssal hill, Seabed

Abstract

Spectacular black smokers along the mid-ocean-ridge crest represent a small fraction of total hydrothermal heat loss from ocean lithosphere. Previous models of measured heat flow suggest that 40%–50% of oceanic hydrothermal heat and fluid flux is from young seafloor (0.1–5 Ma) on mid-ocean-ridge flanks. Despite evidence that ridge-flank hydrothermal flux affects crustal properties, ocean chemistry, and the deep-sea biosphere, few ridge-flank vent sites have been discovered. We describe the first known seafloor expressions of hydrothermal discharge from tectonically formed abyssal hills flanking a fast-spreading ridge. Seafloor manifestations of fluid venting from two young East Pacific Rise abyssal hills (0.1 Ma at 10°20′N, 103°33.2′W; 0.5 Ma at 9°27′N, 104°32.3′W) include fault-scarp hydrothermal mineralization and macrofauna; fault-scarp flocculations containing hyperthermophilic microbes; and hilltop sediment mounds and craters possibly created by fluid expulsion. These visible features can be exploited for hydrothermal exploration of the vast abyssal hill terrain flanking the mid-ocean ridge and for access to the subseafloor biosphere. Petrologic evidence suggests that abyssal hills undergo repeated episodes of transitory fluid discharge, possibly linked to seismic events, and that fluid exit temperatures can be briefly high enough to transport copper (≥250 °C).

Published

2005