Your search keyword '"Debra L. Ellisor"' showing total 11 results

1. Certification of Standard Reference Material® 1936 Great Lakes Sediment

Author

Jennifer Hoguet, Jennifer Ness, Michael B. Ellisor, Jessica L. Reiner, Kevin Huncik, Jacqueline T. Bangma, N. Alan Heckert, and Debra L. Ellisor

Subjects

Hydrology, Sediment, Environmental science, Certification

Published

2021

2. Analysis of seafood reference materials

Author

Benjamin J. Place, James H. Yen, Melissa M. Phillips, and Debra L. Ellisor

Subjects

Veterinary medicine, Biology, Shrimp, Wild caught

Abstract

NIST Reference Material (RM) 8256 Wild-caught Coho Salmon, RM 8257 Aquacultured Coho Salmon, RM 8258 Wild-caught Shrimp and RM 8259 Aquacultured Shrimp were generated for use in authentication, nutrition and food safety-related determinations of crude fat and fatty acids. Each unit consists of two jars containing 6 to 8 g of fresh frozen powder homogenate. RMs of the same type (e.g. fish or shellfish) can be used individually or in tandem for comparative studies. This publication documents the sourcing, measurement results and statistical analysis employed in characterizing each material.

Published

2021

3. Analysis of Seafood Reference Materials: RM 8256, RM 8257, RM 8258 and RM 8259, Wild-Caught Coho Salmon (RM 8256), Aquacultured Coho Salmon (RM 8257), Wild-Caught Shrimp (RM 8258), Aquacultured Shrimp (RM 8259)

Author

Debra L. Ellisor, Benjamin Place, Melissa Phillips, and James Yen

Published

2021

4. Spiking and homogenization of biological matrices for production of reference materials using cryogenic processes

Author

Rebecca S. Pugh, Debra L. Ellisor, and W. Clay Davis

Subjects

Analyte, Traceability, 02 engineering and technology, Tandem mass spectrometry, 01 natural sciences, Biochemistry, Homogenization (chemistry), Article, Analytical Chemistry, Tandem Mass Spectrometry, Animals, Process engineering, business.industry, 010401 analytical chemistry, Reproducibility of Results, Replicate, Oncorhynchus kisutch, Reference Standards, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Cold Temperature, Environmental science, NIST, 0210 nano-technology, business, Quality assurance, Mass fraction, Chromatography, Liquid

Abstract

Biological reference materials (RMs) are essential for quality assurance, traceability of measurement results and for method validation. When addressing new measurement questions or emerging regulatory issues, rigorous large-scale CRM production may not be time efficient or economically practical using current production methods. By amending a relatively small matrix batch with a compound(s) of interest at the homogenization step, the National Institute of Standards and Technology (NIST) can create a custom material on an “as-needed” basis and circumvent the time delay inherent in large-batch production, thereby generating a fit-for-purpose, rapid-response RM. Here, Coho salmon (Oncorhynchus kisutch) was cryohomogenized and spiked with an aquaculture antibiotic and antibiotic metabolite. The resultant material was analyzed using liquid chromatography-high resolution tandem mass spectrometry (LC-HRMS/MS) to determine the effectiveness of the amendment technique in a fresh-frozen matrix by assessing homogeneity and accuracy to the target concentration (e.g. mass fraction). Target mass fractions were achieved for both spike components, with RSDs below 5% in replicate measurements of each compound (n = 8). The stability of the spiked compounds was assessed one year post-production and mass fractions were stable, within 1–6% of the initial measurement results, indicating minimal change to the amended analyte concentrations over time. The results support this method as a promising new technique for custom, small-batch RM generation.

Published

2020

5. Characterization of a Human Liver NIST Reference Material fit for Proteomics Applications

Author

Debra L. Ellisor, Benjamin A. Neely, W. Clay Davis, and Lisa E. Kilpatrick

Subjects

Information retrieval, Human liver, Computer science, NIST, Sample preparation, Proteomics, Characterization (materials science)

Abstract

The National Institute of Standards and Technology (NIST) is creating new, economical, qualitative reference materials and data for proteomics comparisons, benchmarking and harmonization. Here we describe a large dataset from shotgun proteomic analysis of RM 8461 Human Liver for Proteomics, a reference material being developed. Consensus identifications using multiple search engines and sample preparations demonstrate a homogeneous and fit-for-purpose material that can be incorporated into automated or manual sample preparation workflows, with the resulting data used to directly assess complete sample-to-data workflows and provide harmonization and benchmarking between laboratories and techniques. Data are available via PRIDE with identifier PXD013608.

Published

2019

6. Characterization of a human liver reference material fit for proteomics applications

Author

Debra L. Ellisor, Benjamin A. Neely, Lisa E. Kilpatrick, and W. Clay Davis

Subjects

Statistics and Probability, Proteomics, Data Descriptor, Computer science, Sample (material), Proteomic analysis, Library and Information Sciences, Education, Workflow, 03 medical and health sciences, Humans, lcsh:Science, Databases, Protein, 030304 developmental biology, 0303 health sciences, Electronic Data Processing, Information retrieval, Electronic data processing, 030302 biochemistry & molecular biology, Proteins, Benchmarking, Reference Standards, Characterization (materials science), Computer Science Applications, Identifier, Search Engine, Liver, NIST, lcsh:Q, Statistics, Probability and Uncertainty, Information Systems

Abstract

The National Institute of Standards and Technology (NIST) is creating new, economical, qualitative reference materials and data for proteomics comparisons, benchmarking and harmonization. Here we describe a large dataset from shotgun proteomic analysis of RM 8461 Human Liver for Proteomics, a reference material being developed. Consensus identifications using multiple search engines and sample preparations demonstrate a homogeneous and fit-for-purpose material that can be incorporated into automated or manual sample preparation workflows, with the resulting data used to directly assess complete sample-to-data workflows and provide harmonization and benchmarking between laboratories and techniques. Data are available via PRIDE with identifier PXD013608., Measurement(s)peptide sequence-level identification attribute • protein expression profilingTechnology Type(s)liquid chromatography-tandem mass spectrometryFactor Type(s)mass of liver sampleSample Characteristic - OrganismHomo sapiens Machine-accessible metadata file describing the reported data: 10.6084/m9.figshare.11310485

Published

2019

7. Proteomics as a metrological tool to evaluate genome annotation accuracy following de novo genome assembly: a case study using the Atlantic bottlenose dolphin (Tursiops truncatus)

Author

Benjamin A. Neely, Debra L. Ellisor, and Davis Wc

Subjects

Annotation, Sequence assembly, Human genome, Gene Annotation, Genome project, Computational biology, Biology, Proteomics, Bottlenose dolphin, biology.organism_classification, Genome

Abstract

BackgroundThe last decade has witnessed dramatic improvements in whole-genome sequencing capabilities coupled to drastically decreased costs, leading to an inundation of high-quality de novo genomes. For this reason, continued development of genome quality metrics is imperative. The current study utilized the recently updated Atlantic bottlenose dolphin (Tursiops truncatus) genome and annotation to evaluate a proteomics-based metric of genome accuracy.ResultsProteomic analysis of six tissues provided experimental confirmation of 10 402 proteins from 4 711 protein groups, almost 1/3 of the possible predicted proteins in the genome. There was an increased median molecular weight and number of identified peptides per protein using the current T. truncatus annotation versus the previous annotation. Identification of larger proteins with more identified peptides implied reduced database fragmentation and improved gene annotation accuracy. A metric is proposed, NP10, that attempts to capture this quality improvement. When using the new T. truncatus genome there was a 21 % improvement in NP10. This metric was further demonstrated by using a publicly available proteomic data set to compare human genome annotations from 2004, 2013 and 2016, which had a 33 % improvement in NP10.ConclusionsThese results demonstrate that new whole-genome sequencing techniques can rapidly generate high quality de novo genome assemblies and emphasizes the speed of advancing bioanalytical measurements in a non-model organism. Moreover, proteomics may be a useful metrological tool to benchmark genome accuracy, though there is a need for reference proteomic datasets to facilitate this utility in new de novo and existing genomes.

Published

2018

8. Quantitative Analysis of Dopamine Neuron Subtypes Generated from Mouse Embryonic Stem Cells

Author

Diane Hoffman-Kim, Kimberly A. Seymour, Jason T. Machan, Yu-Ting L. Dingle, K Xiong, Mark Zervas, and Debra L. Ellisor

Subjects

0303 health sciences, biology, Anatomy, Calbindin, Embryonic stem cell, Cell biology, 03 medical and health sciences, 0302 clinical medicine, FGF8, medicine.anatomical_structure, nervous system, Cell culture, Dopamine, embryonic structures, biology.protein, medicine, Neuron, Sonic hedgehog, Calretinin, 030217 neurology & neurosurgery, 030304 developmental biology, medicine.drug

Abstract

Dopamine (DA) neuron subtypes modulate specific physiological functions and are involved in distinct neurological disorders. Embryonic stem cell (ESC) derived DA neurons have the potential to aid in the study of disease mechanisms, drug discovery, and possibly cell replacement therapies. DA neurons can be generated from ESCs in vitro, but the subtypes of ESC-derived DA neurons have not been investigated in detail despite the diversity of DA neurons observed in vivo. Due to cell culture heterogeneity, sampling methods applied to ESC-derived cultures can be ambiguous and potentially biased. Therefore, we developed a quantification method to capture the depth of DA neuron production in vitro by estimating the error associated with systematic random sampling. Using this method, we quantified calbindin+ and calretinin+ subtypes of DA neurons generated from mouse ESCs. We found a higher production of the calbindin+ subtype (11−27%) compared to the calretinin+ subtype (2-13%) of DA neuron; in addition, DA neurons expressing neither subtype marker were also generated. We then examined whether exogenous sonic hedgehog (SHH) and fibroblast growth factor 8 (FGF8) affected subtype generation. Our results demonstrate that exogenous SHH and FGF8 did not alter DA neuron subtype generation in vitro. These findings suggest that a deeper understanding DA neuron derivation inclusive of mechanisms that govern the in vitro subtype specification of ESC-derived DA neurons is required.NoteAll research was planned and conducted while members were at Brown UniversityResearch fundingNIH/NCRR/NIGMS RI Hospital COBRE Center for Stem Cell Biology (8P20GM103468-04) (MZ) Brown Institute for Brain Science Pilot Grant (4-63662) (MZ/DHK)

Published

2016

9. Standard Operation Procedures (SOPs) for the Palla VM-KT Vibrating Cryomill: Production of Fresh Frozen Standard Reference and Control Materials (SRMs/CMs) at the NIST Reference Material Production Facilitytitle

Author

Jennifer Ness, Rebecca S. Pugh, Jody R. Evans, Melannie J. Bachman, Debra L. Ellisor, and Amanda J. Moors

Subjects

Engineering, business.industry, Fresh frozen, Mechanical engineering, Production (economics), NIST, business, Process engineering

Published

2016

10. The distribution and stratification of persistent organic pollutants and fatty acids in bottlenose dolphin (Tursiops truncatus) blubber

Author

Lori H. Schwacke, William A. McLellan, Wayne E. McFee, John R. Kucklick, Debra L. Ellisor, and Heather N. Koopman

Subjects

Dorsum, Pollutant, Male, Environmental Engineering, Ecology, Fatty Acids, Stratification (water), Zoology, Sampling depth, Biology, Variable sampling, Bottlenose dolphin, biology.organism_classification, Pollution, Bottle-Nosed Dolphin, Adipose Tissue, Blubber, Environmental Chemistry, Animals, Tissue Distribution, Waste Management and Disposal, Water Pollutants, Chemical

Abstract

Blubber has been used for decades to monitor exposure of marine mammals to persistent organic pollutants (POPs). However, little is known about POP variability as a function of blubber depth and across the body of the animal. Remote blubber biopsy sampling (e.g, projectile biopsy) is the most common technique used to acquire samples from free-swimming animals, yet such techniques may result in variable sampling. It is important to understand whether blubber stratification or body location affects POP concentration or the concentration of other important blubber constituents such as fatty acids (FA). To investigate the influence of sampling depth and location on POP concentration, full depth blubber samples were taken from one stranded bottlenose dolphin ( Tursiops truncatus ) at six different body sites to assess variation in FA distribution and contaminant storage with body location. Three of the samples from different body locations were separated into histologically distinct layers to examine the effect of blubber depth and body location on POPs and FAs. In this individual, both POPs and FAs were heterogeneous with blubber depth and body location. POP concentrations were significantly greater in ventral (average ΣPBDEs 1350 ng/g lipid) and anterior (average ΣPCBs 28700 ng/g lipid) body locations and greater in the superficial blubber layer (average ΣPCBs 35500 ng/g lipid) when compared to the deep (8390 ng/g lipid) and middle (23,700 ng/g lipid) layers. Proportionally more dietary FAs were found in dorsal blubber and in middle and deep layers relative to other locations while the reverse was true for biosynthesized FAs. Stratification was further examined in blubber from the same body location in five additional stranded bottlenose dolphins. Although FAs were stratified with blubber depth, lipid-normalized POPs were not significantly different with depth, indicating that POP concentrations can vary in an individual with blubber depth though the direction of POP stratification is not consistent among individuals.

Published

2013

11. C-30

Author

Melannie J. Bachman, Paul R. Becker, Debra L. Ellisor, Amanda J. Moors, Rebecca S. Pugh, Jody Rhoderick, and Jennifer Ness

Subjects

business.industry, Best practice, Environmental resource management, Environmental research, General Medicine, General Biochemistry, Genetics and Molecular Biology, Sample stability, Specimen collection, Environmental science, NIST, Sample collection, General Agricultural and Biological Sciences, business, Environmental specimen, Quality assurance

Abstract

Formal environmental specimen banking has been recognized internationally as an important component of long-term environmental research and monitoring programs. The National Institute of Standards and Technology (NIST) has been involved in environmental specimen banking for over 30 years through collaborations primarily with other U.S. government agencies as well as with universities and non-profit organizations. Biological (i.e., marine mammal tissue, seabird egg contents, sea turtle tissue, fish tissue, coral, etc.) and environmental (i.e., marine sediment, macroalgae, etc.) specimen collections from individual projects are maintained at the Marine Environmental Specimen Bank (Marine ESB), Hollings Marine Laboratory, Charleston, SC. Carefully designed and standardized protocols for sample collection, processing, and banking have been developed primarily to conduct research on environmental contaminant measurements but specimens have been and could be used for additional purposes, such as genetic studies, biotoxin exposure, and infectious disease research. The carefully designed protocols and procedures for collecting these specimens vary depending on a number of factors, such as specimen type, availability of the specimen, and the collection location, but a best practice guideline is to strictly adhere to these protocols in order to ensure the quality of the sample is not compromised for its intended purpose. Standard Reference Materials (SRMs) and Control Materials (CMs) intended for use in method development and validation as well as for quality assurance and for use in assigning values for selected environmental contaminants are also produced by NIST and provide a resource to ensure sample stability of specimens archived at the Marine ESB.

Published

2014