Your search keyword '"Butler, Rory"' showing total 4 results

1. Robotic pendant drop: containerless liquid for μs-resolved, AI-executable XPCS.

Author

Ozgulbas DY, Jensen D Jr, Butler R, Vescovi R, Foster IT, Irvin M, Nakaye Y, Chu M, Dufresne EM, Seifert S, Babnigg G, Ramanathan A, and Zhang Q

Abstract

The dynamics and structure of mixed phases in a complex fluid can significantly impact its material properties, such as viscoelasticity. Small-angle X-ray Photon Correlation Spectroscopy (SA-XPCS) can probe the spontaneous spatial fluctuations of the mixed phases under various in situ environments over wide spatiotemporal ranges (10 -6 -10 3  s /10 -10 -10 -6  m). Tailored material design, however, requires searching through a massive number of sample compositions and experimental parameters, which is beyond the bandwidth of the current coherent X-ray beamline. Using 3.7-μs-resolved XPCS synchronized with the clock frequency at the Advanced Photon Source, we demonstrated the consistency between the Brownian dynamics of ~100 nm diameter colloidal silica nanoparticles measured from an enclosed pendant drop and a sealed capillary. The electronic pipette can also be mounted on a robotic arm to access different stock solutions and create complex fluids with highly-repeatable and precisely controlled composition profiles. This closed-loop, AI-executable protocol is applicable to light scattering techniques regardless of the light wavelength and optical coherence, and is a first step towards high-throughput, autonomous material discovery., (© 2023. Changchun Institute of Optics, Fine Mechanics and Physics (CIOMP), CAS.)

Published

2023

2. Supervised extraction of near-complete genomes from metagenomic samples: A new service in PATRIC.

Author

Parrello B, Butler R, Chlenski P, Pusch GD, and Overbeek R

Subjects

Cluster Analysis, Humans, Sequence Analysis, DNA methods, Metagenome, Metagenomics methods

Abstract

Large amounts of metagenomically-derived data are submitted to PATRIC for analysis. In the future, we expect even more jobs submitted to PATRIC will use metagenomic data. One in-demand use case is the extraction of near-complete draft genomes from assembled contigs of metagenomic origin. The PATRIC metagenome binning service utilizes the PATRIC database to furnish a large, diverse set of reference genomes. We provide a new service for supervised extraction and annotation of high-quality, near-complete genomes from metagenomically-derived contigs. Reference genomes are assigned to putative draft genome bins based on the presence of single-copy universal marker roles in the sample, and contigs are sorted into these bins by their similarity to reference genomes in PATRIC. Each set of binned contigs represents a draft genome that will be annotated by RASTtk in PATRIC. A structured-language binning report is provided containing quality measurements and taxonomic information about the contig bins. The PATRIC metagenome binning service emphasizes extraction of high-quality genomes for downstream analysis using other PATRIC tools and services. Due to its supervised nature, the binning service is not appropriate for mining novel or extremely low-coverage genomes from metagenomic samples., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

3. The PATRIC Bioinformatics Resource Center: expanding data and analysis capabilities.

Author

Davis JJ, Wattam AR, Aziz RK, Brettin T, Butler R, Butler RM, Chlenski P, Conrad N, Dickerman A, Dietrich EM, Gabbard JL, Gerdes S, Guard A, Kenyon RW, Machi D, Mao C, Murphy-Olson D, Nguyen M, Nordberg EK, Olsen GJ, Olson RD, Overbeek JC, Overbeek R, Parrello B, Pusch GD, Shukla M, Thomas C, VanOeffelen M, Vonstein V, Warren AS, Xia F, Xie D, Yoo H, and Stevens R

Subjects

Algorithms, Animals, Caenorhabditis elegans genetics, Chickens genetics, Drosophila melanogaster genetics, Host-Pathogen Interactions genetics, Humans, Internet, Macaca mulatta genetics, Metagenomics, Mice, National Institute of Allergy and Infectious Diseases (U.S.), Phenotype, Phylogeny, Rats, Swine genetics, United States, Zebrafish genetics, Bacteria genetics, Computational Biology methods, Databases, Genetic

Abstract

The PathoSystems Resource Integration Center (PATRIC) is the bacterial Bioinformatics Resource Center funded by the National Institute of Allergy and Infectious Diseases (https://www.patricbrc.org). PATRIC supports bioinformatic analyses of all bacteria with a special emphasis on pathogens, offering a rich comparative analysis environment that provides users with access to over 250 000 uniformly annotated and publicly available genomes with curated metadata. PATRIC offers web-based visualization and comparative analysis tools, a private workspace in which users can analyze their own data in the context of the public collections, services that streamline complex bioinformatic workflows and command-line tools for bulk data analysis. Over the past several years, as genomic and other omics-related experiments have become more cost-effective and widespread, we have observed considerable growth in the usage of and demand for easy-to-use, publicly available bioinformatic tools and services. Here we report the recent updates to the PATRIC resource, including new web-based comparative analysis tools, eight new services and the release of a command-line interface to access, query and analyze data., (Published by Oxford University Press on behalf of Nucleic Acids Research 2019.)

Published

2020

4. A machine learning-based service for estimating quality of genomes using PATRIC.

Author

Parrello B, Butler R, Chlenski P, Olson R, Overbeek J, Pusch GD, Vonstein V, and Overbeek R

Subjects

Metagenomics standards, Software, Databases, Genetic, Genome, Archaeal, Genome, Bacterial, Machine Learning, Metagenomics methods

Abstract

Background: Recent advances in high-volume sequencing technology and mining of genomes from metagenomic samples call for rapid and reliable genome quality evaluation. The current release of the PATRIC database contains over 220,000 genomes, and current metagenomic technology supports assemblies of many draft-quality genomes from a single sample, most of which will be novel., Description: We have added two quality assessment tools to the PATRIC annotation pipeline. EvalCon uses supervised machine learning to calculate an annotation consistency score. EvalG implements a variant of the CheckM algorithm to estimate contamination and completeness of an annotated genome.We report on the performance of these tools and the potential utility of the consistency score. Additionally, we provide contamination, completeness, and consistency measures for all genomes in PATRIC and in a recent set of metagenomic assemblies., Conclusion: EvalG and EvalCon facilitate the rapid quality control and exploration of PATRIC-annotated draft genomes.

Published

2019