Your search keyword '"K. Pham"' showing total 10 results

1. Epigenetic Segregation of Microbial Genomes from Complex Samples Using Restriction Endonucleases HpaII and McrB

Author

Helen E. Barnes, Paula King, Long K. Pham, Guohong Liu, R. Allyn Forsyth, Robert T. Yamamoto, Dan Sphar, Christopher Q. Weston, and Shannon Waltz

Subjects

0301 basic medicine, DNA, Bacterial, Genetics, Microbial, DNA, Plant, HpaII, 030106 microbiology, lcsh:Medicine, Genomics, Biology, Deoxyribonuclease HpaII, Substrate Specificity, 03 medical and health sciences, chemistry.chemical_compound, Humans, Genomic library, DNA, Fungal, lcsh:Science, Gene Library, Genetics, Multidisciplinary, Escherichia coli Proteins, Microbiota, lcsh:R, Sputum, DNA Restriction Enzymes, Sequence Analysis, DNA, DNA Methylation, DNA, Protozoan, Restriction enzyme, 5-Methylcytosine, 030104 developmental biology, chemistry, Metagenomics, DNA methylation, DNA, Viral, Metagenome, CpG Islands, lcsh:Q, Research Article

Abstract

We describe continuing work to develop restriction endonucleases as tools to enrich targeted genomes of interest from diverse populations. Two approaches were developed in parallel to segregate genomic DNA based on cytosine methylation. First, the methyl-sensitive endonuclease HpaII was used to bind non-CG methylated DNA. Second, a truncated fragment of McrB was used to bind CpG methylated DNA. Enrichment levels of microbial genomes can exceed 100-fold with HpaII allowing improved genomic detection and coverage of otherwise trace microbial genomes from sputum. Additionally, we observe interesting enrichment results that correlate with the methylation states not only of bacteria, but of fungi, viruses, a protist and plants. The methods presented here offer promise for testing biological samples for pathogens and global analysis of population methylomes.

Published

2016

2. Correction: Longitudinal Metagenomic Analysis of Hospital Air Identifies Clinically Relevant Microbes

Author

Shannon Waltz, Douglas Conrad, R. Allyn Forsyth, Paula King, Dan Sphar, Robert T. Yamamoto, Randy Taplitz, Long K. Pham, and Francesca J. Torriani

Subjects

Multidisciplinary, General Science & Technology, Computer science, lcsh:R, lcsh:Medicine, computer.software_genre, Bioinformatics, Pipeline (software), Metagenomics, Section (archaeology), lcsh:Q, Data mining, lcsh:Science, computer

Abstract

The Materials and Methods section does not describe the ZovaSeq pipeline used to analyze the data in sufficient detail. The attached Supporting Information file provides additional information about the version of ZovaSeq used for King et al. 2016 [1], which is currently available for use from Zova Systems (contact moc.smetsysavoz@otomamay.trebor; also see https://lnkd.in/gxkRCVV). ZovaSeq has since been updated and further optimized.

Published

2016

3. Longitudinal Metagenomic Analysis of Hospital Air Identifies Clinically Relevant Microbes

Author

Long K. Pham, R. Allyn Forsyth, Robert T. Yamamoto, Douglas Conrad, Shannon Waltz, Randy Taplitz, Paula King, Francesca J. Torriani, Dan Sphar, and Chang, Yung-Fu

Subjects

0301 basic medicine, Molecular biology, Stenotrophomonas maltophilia, Air Microbiology, lcsh:Medicine, DNA cloning, Pathology and Laboratory Medicine, Molecular biology assays and analysis techniques, Biochemistry, Genome, Opportunistic Pathogens, Stenotrophomonas Maltophilia, Medicine and Health Sciences, 2.2 Factors relating to the physical environment, Cluster Analysis, Genomic library, Longitudinal Studies, DNA libraries, Aetiology, lcsh:Science, Cross Infection, Multidisciplinary, biology, Shotgun sequencing, Air, High-Throughput Nucleotide Sequencing, Genomics, Hospitals, Bacterial Pathogens, Nucleic acids, Aspergillus, Medical Microbiology, Stenotrophomonas, Pathogens, Infection, Sequence Analysis, Research Article, Genotype, General Science & Technology, Sequence analysis, Microbial Consortia, 030106 microbiology, Computational biology, Research and Analysis Methods, Microbiology, 03 medical and health sciences, Genetics, Humans, DNA filter assay, Molecular Biology Techniques, Sequencing Techniques, Microbial Pathogens, Shotgun Sequencing, Biology and life sciences, lcsh:R, Human Genome, Penicillium, Organisms, Fungi, Correction, Computational Biology, Sequence Analysis, DNA, DNA, Genome Analysis, Genomic Libraries, biology.organism_classification, Molds (Fungi), 030104 developmental biology, Metagenomics, Metagenome, lcsh:Q, Cloning

Abstract

We describe the sampling of sixty-three uncultured hospital air samples collected over a six-month period and analysis using shotgun metagenomic sequencing. Our primary goals were to determine the longitudinal metagenomic variability of this environment, identify and characterize genomes of potential pathogens and determine whether they are atypical to the hospital airborne metagenome. Air samples were collected from eight locations which included patient wards, the main lobby and outside. The resulting DNA libraries produced 972 million sequences representing 51 gigabases. Hierarchical clustering of samples by the most abundant 50 microbial orders generated three major nodes which primarily clustered by type of location. Because the indoor locations were longitudinally consistent, episodic relative increases in microbial genomic signatures related to the opportunistic pathogens Aspergillus, Penicillium and Stenotrophomonas were identified as outliers at specific locations. Further analysis of microbial reads specific for Stenotrophomonas maltophilia indicated homology to a sequenced multi-drug resistant clinical strain and we observed broad sequence coverage of resistance genes. We demonstrate that a shotgun metagenomic sequencing approach can be used to characterize the resistance determinants of pathogen genomes that are uncharacteristic for an otherwise consistent hospital air microbial metagenomic profile.

Published

2016

4. Giardia flagellar motility is not directly required to maintain attachment to surfaces

Author

Jonathan K Pham, David J. Richter, Scott C. Dawson, Susan A. House, and Sibley, L David

Subjects

lcsh:Immunologic diseases. Allergy, Morpholino, Cell division, Quantitative Parasitology, Annexins, Immunology, Protozoan Proteins, Motility, Bioengineering, Biology, Flagellum, medicine.disease_cause, Models, Biological, Microbiology, Morpholinos, Green fluorescent protein, 03 medical and health sciences, Models, Virology, Molecular Cell Biology, Cell Adhesion, Genetics, medicine, Animals, Humans, Giardia lamblia, Trophozoites, Microbial Pathogens, Molecular Biology, lcsh:QH301-705.5, Ventral disc, 030304 developmental biology, Peristalsis, 0303 health sciences, 030306 microbiology, Biological, Cell biology, lcsh:Biology (General), Medical Microbiology, Flagella, Gene Knockdown Techniques, Parasitology, lcsh:RC581-607, Research Article

Abstract

Giardia trophozoites attach to the intestinal microvilli (or inert surfaces) using an undefined “suction-based” mechanism, and remain attached during cell division to avoid peristalsis. Flagellar motility is a key factor in Giardia's pathogenesis and colonization of the host small intestine. Specifically, the beating of the ventral flagella, one of four pairs of motile flagella, has been proposed to generate a hydrodynamic force that results in suction-based attachment via the adjacent ventral disc. We aimed to test this prevailing “hydrodynamic model” of attachment mediated by flagellar motility. We defined four distinct stages of attachment by assessing surface contacts of the trophozoite with the substrate during attachment using TIRF microscopy (TIRFM). The lateral crest of the ventral disc forms a continuous perimeter seal with the substrate, a cytological indication that trophozoites are fully attached. Using trophozoites with two types of molecularly engineered defects in flagellar beating, we determined that neither ventral flagellar beating, nor any flagellar beating, is necessary for the maintenance of attachment. Following a morpholino-based knockdown of PF16, a central pair protein, both the beating and morphology of flagella were defective, but trophozoites could still initiate proper surface contacts as seen using TIRFM and could maintain attachment in several biophysical assays. Trophozoites with impaired motility were able to attach as well as motile cells. We also generated a strain with defects in the ventral flagellar waveform by overexpressing a dominant negative form of alpha2-annexin::GFP (D122A, D275A). This dominant negative alpha2-annexin strain could initiate attachment and had only a slight decrease in the ability to withstand normal and shear forces. The time needed for attachment did increase in trophozoites with overall defective flagellar beating, however. Thus while not directly required for attachment, flagellar motility is important for positioning and orienting trophozoites prior to attachment. Drugs affecting flagellar motility may result in lower levels of attachment by indirectly limiting the number of parasites that can position the ventral disc properly against a surface and against peristaltic flow., Author Summary Giardia is a widespread, single-celled, intestinal parasite that infects millions of people and animals each year. Colonization of the small intestine is a critical part of Giardia's life cycle in any host. This colonization is initiated when cells attach to the intestinal wall via a specialized suction cup-like structure, the ventral disc. In the host, Giardia moves by beating four pairs of flagella; movement of the ventral pair has been implicated in attachment. This study shows that the beating of the flagella is not important for attachment, but rather for positioning Giardia close to the intestinal wall prior to attachment, and thus disproves the commonly held model of giardial attachment. This work implies that drugs targeting Giardia motility could prevent or slow attachment, leading to lower rates of infection.

Published

2011

5. Selective Microbial Genomic DNA Isolation Using Restriction Endonucleases

Author

Kimberly T. Helzer, Helen E. Barnes, Dan Sphar, Christopher Q. Weston, R. Allyn Forsyth, Laura Day, Robert T. Yamamoto, Shannon Waltz, Guohong Liu, Paula King, and Long K. Pham

Subjects

DNA, Bacterial, Molecular biology, Science, Genomics, Microbial Genomics, Biology, Biomolecular isolation, Microbiology, DNA sequencing, Microbial Ecology, chemistry.chemical_compound, Genetics, Escherichia coli, Genomic library, Genome Sequencing, Sequencing Techniques, Gram Negative Bacteria, Multidisciplinary, Biology and life sciences, Ecology, Bacterial Genomics, High-Throughput Nucleotide Sequencing, Bacteriology, DNA Restriction Enzymes, Bacterial Genomes, DNA isolation, DNA extraction, genomic DNA, Restriction enzyme, Molecular biology techniques, chemistry, Biochemistry, Medical Microbiology, Metagenomics, Medicine, Microbiome, Genome, Bacterial, DNA, Research Article

Abstract

To improve the metagenomic analysis of complex microbiomes, we have repurposed restriction endonucleases as methyl specific DNA binding proteins. As an example, we use DpnI immobilized on magnetic beads. The ten minute extraction technique allows specific binding of genomes containing the DpnI Gm6ATC motif common in the genomic DNA of many bacteria including γ-proteobacteria. Using synthetic genome mixtures, we demonstrate 80% recovery of Escherichia coli genomic DNA even when only femtogram quantities are spiked into 10 µg of human DNA background. Binding is very specific with less than 0.5% of human DNA bound. Next Generation Sequencing of input and enriched synthetic mixtures results in over 100-fold enrichment of target genomes relative to human and plant DNA. We also show comparable enrichment when sequencing complex microbiomes such as those from creek water and human saliva. The technique can be broadened to other restriction enzymes allowing for the selective enrichment of trace and unculturable organisms from complex microbiomes and the stratification of organisms according to restriction enzyme enrichment.

Published

2014

6. Exposure to Mycobacterium remodels alveolar macrophages and the early innate response to Mycobacterium tuberculosis infection

Author

Dat Mai, Ana Jahn, Tara Murray, Michael Morikubo, Pamelia N. Lim, Maritza M. Cervantes, Linh K. Pham, Johannes Nemeth, Kevin Urdahl, Alan H. Diercks, Alan Aderem, and Alissa C. Rothchild

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2024

7. Epigenetic Segregation of Microbial Genomes from Complex Samples Using Restriction Endonucleases HpaII and McrB.

Author

Guohong Liu, Christopher Q Weston, Long K Pham, Shannon Waltz, Helen Barnes, Paula King, Dan Sphar, Robert T Yamamoto, and R Allyn Forsyth

Subjects

Medicine, Science

Abstract

We describe continuing work to develop restriction endonucleases as tools to enrich targeted genomes of interest from diverse populations. Two approaches were developed in parallel to segregate genomic DNA based on cytosine methylation. First, the methyl-sensitive endonuclease HpaII was used to bind non-CG methylated DNA. Second, a truncated fragment of McrB was used to bind CpG methylated DNA. Enrichment levels of microbial genomes can exceed 100-fold with HpaII allowing improved genomic detection and coverage of otherwise trace microbial genomes from sputum. Additionally, we observe interesting enrichment results that correlate with the methylation states not only of bacteria, but of fungi, viruses, a protist and plants. The methods presented here offer promise for testing biological samples for pathogens and global analysis of population methylomes.

Published

2016

8. Marine litter distribution and density in European seas, from the shelves to deep basins.

Author

Christopher K Pham, Eva Ramirez-Llodra, Claudia H S Alt, Teresa Amaro, Melanie Bergmann, Miquel Canals, Joan B Company, Jaime Davies, Gerard Duineveld, François Galgani, Kerry L Howell, Veerle A I Huvenne, Eduardo Isidro, Daniel O B Jones, Galderic Lastras, Telmo Morato, José Nuno Gomes-Pereira, Autun Purser, Heather Stewart, Inês Tojeira, Xavier Tubau, David Van Rooij, and Paul A Tyler

Subjects

Medicine, Science

Abstract

Anthropogenic litter is present in all marine habitats, from beaches to the most remote points in the oceans. On the seafloor, marine litter, particularly plastic, can accumulate in high densities with deleterious consequences for its inhabitants. Yet, because of the high cost involved with sampling the seafloor, no large-scale assessment of distribution patterns was available to date. Here, we present data on litter distribution and density collected during 588 video and trawl surveys across 32 sites in European waters. We found litter to be present in the deepest areas and at locations as remote from land as the Charlie-Gibbs Fracture Zone across the Mid-Atlantic Ridge. The highest litter density occurs in submarine canyons, whilst the lowest density can be found on continental shelves and on ocean ridges. Plastic was the most prevalent litter item found on the seafloor. Litter from fishing activities (derelict fishing lines and nets) was particularly common on seamounts, banks, mounds and ocean ridges. Our results highlight the extent of the problem and the need for action to prevent increasing accumulation of litter in marine environments.

Published

2014

9. Novel structural components of the ventral disc and lateral crest in Giardia intestinalis.

Author

Kari D Hagen, Matthew P Hirakawa, Susan A House, Cindi L Schwartz, Jonathan K Pham, Michael J Cipriano, Moises J De La Torre, Albert C Sek, Gary Du, Brystal M Forsythe, and Scott C Dawson

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Giardia intestinalis is a ubiquitous parasitic protist that is the causative agent of giardiasis, one of the most common protozoan diarrheal diseases in the world. Giardia trophozoites attach to the intestinal epithelium using a specialized and elaborate microtubule structure, the ventral disc. Surrounding the ventral disc is a less characterized putatively contractile structure, the lateral crest, which forms a continuous perimeter seal with the substrate. A better understanding of ventral disc and lateral crest structure, conformational dynamics, and biogenesis is critical for understanding the mechanism of giardial attachment to the host. To determine the components comprising the ventral disc and lateral crest, we used shotgun proteomics to identify proteins in a preparation of isolated ventral discs. Candidate disc-associated proteins, or DAPs, were GFP-tagged using a ligation-independent high-throughput cloning method. Based on disc localization, we identified eighteen novel DAPs, which more than doubles the number of known disc-associated proteins. Ten of the novel DAPs are associated with the lateral crest or outer edge of the disc, and are the first confirmed components of this structure. Using Fluorescence Recovery After Photobleaching (FRAP) with representative novel DAP::GFP strains we found that the newly identified DAPs tested did not recover after photobleaching and are therefore structural components of the ventral disc or lateral crest. Functional analyses of the novel DAPs will be central toward understanding the mechanism of ventral disc-mediated attachment and the mechanism of disc biogenesis during cell division. Since attachment of Giardia to the intestine via the ventral disc is essential for pathogenesis, it is possible that some proteins comprising the disc could be potential drug targets if their loss or disruption interfered with disc biogenesis or function, preventing attachment.

Published

2011

10. Giardia flagellar motility is not directly required to maintain attachment to surfaces.

Author

Susan A House, David J Richter, Jonathan K Pham, and Scott C Dawson

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Giardia trophozoites attach to the intestinal microvilli (or inert surfaces) using an undefined "suction-based" mechanism, and remain attached during cell division to avoid peristalsis. Flagellar motility is a key factor in Giardia's pathogenesis and colonization of the host small intestine. Specifically, the beating of the ventral flagella, one of four pairs of motile flagella, has been proposed to generate a hydrodynamic force that results in suction-based attachment via the adjacent ventral disc. We aimed to test this prevailing "hydrodynamic model" of attachment mediated by flagellar motility. We defined four distinct stages of attachment by assessing surface contacts of the trophozoite with the substrate during attachment using TIRF microscopy (TIRFM). The lateral crest of the ventral disc forms a continuous perimeter seal with the substrate, a cytological indication that trophozoites are fully attached. Using trophozoites with two types of molecularly engineered defects in flagellar beating, we determined that neither ventral flagellar beating, nor any flagellar beating, is necessary for the maintenance of attachment. Following a morpholino-based knockdown of PF16, a central pair protein, both the beating and morphology of flagella were defective, but trophozoites could still initiate proper surface contacts as seen using TIRFM and could maintain attachment in several biophysical assays. Trophozoites with impaired motility were able to attach as well as motile cells. We also generated a strain with defects in the ventral flagellar waveform by overexpressing a dominant negative form of alpha2-annexin::GFP (D122A, D275A). This dominant negative alpha2-annexin strain could initiate attachment and had only a slight decrease in the ability to withstand normal and shear forces. The time needed for attachment did increase in trophozoites with overall defective flagellar beating, however. Thus while not directly required for attachment, flagellar motility is important for positioning and orienting trophozoites prior to attachment. Drugs affecting flagellar motility may result in lower levels of attachment by indirectly limiting the number of parasites that can position the ventral disc properly against a surface and against peristaltic flow.

Published

2011