Connection | Profiles RNS

Search Result Details

Back to Search Results

This page shows the details of why an item matched the keywords from your search.

Search Results

Baker, Margaret

One or more keywords matched the following properties of Baker, Margaret

Property	Value
overview	Dr. Margaret Baker serves as the University of Hawaii, John A. Burns School of Medicine Proteomics Core Co-Director. She maintains three mass spectrometers, provides consultation for the medical community and other departments, and conducts proteomics experiments. During her predoctoral work, she explored the role of N-glycosylation in a stable peroxidase from palm tree leaves. Plant peroxidases are extensively used in bioresearch and bioanalysis. These enzymes are also capable of synthesizing conductive, biodegradable plastics, and remediation of contaminated industrial wastewater. Plant peroxidases rely on N-glycosylation for full enzyme activity and stability, however, the mechanism is poorly understood. She developed a sensitive technique for mass spectrometry-based amino acid sequencing, published in Analytical Chemistry. Next, she used a mass spectrometry-guided approach to clone the gene and verify the amino acid sequence. They found that windmill palm tree peroxidase is a heterogeneous glycoprotein with 13 sites for N-glycosylation. Next, she studied the site-specific glycosylation of windmill palm tree peroxidase, which was published in Journal of Proteome Research. In this work, she overcame the lack of tools for interpreting plant glycopeptide mass spectrometry data by developing a workflow and bioinformatics tools. The analysis gave an in-depth view of the glycosylation of windmill palm tree peroxidase. Her current research examines the contribution of native glycosylation to windmill palm tree peroxidase function by comparing the native enzyme to those expressed in Nicotiana benthamiana and Pichia pastoris. Differences in glycosylation are hypothesized to affect enzyme stability and activity. Her workflow and tools for analysis of plant glycopeptide mass spectrometry data will be instrumental for interpretation of the results.

Property

Value

overview

Dr. Margaret Baker serves as the University of Hawaii, John A. Burns School of Medicine Proteomics Core Co-Director. She maintains three mass spectrometers, provides consultation for the medical community and other departments, and conducts proteomics experiments. During her predoctoral work, she explored the role of N-glycosylation in a stable peroxidase from palm tree leaves. Plant peroxidases are extensively used in bioresearch and bioanalysis. These enzymes are also capable of synthesizing conductive, biodegradable plastics, and remediation of contaminated industrial wastewater. Plant peroxidases rely on N-glycosylation for full enzyme activity and stability, however, the mechanism is poorly understood. She developed a sensitive technique for mass spectrometry-based amino acid sequencing, published in Analytical Chemistry. Next, she used a mass spectrometry-guided approach to clone the gene and verify the amino acid sequence. They found that windmill palm tree peroxidase is a heterogeneous glycoprotein with 13 sites for N-glycosylation. Next, she studied the site-specific glycosylation of windmill palm tree peroxidase, which was published in Journal of Proteome Research. In this work, she overcame the lack of tools for interpreting plant glycopeptide mass spectrometry data by developing a workflow and bioinformatics tools. The analysis gave an in-depth view of the glycosylation of windmill palm tree peroxidase. Her current research examines the contribution of native glycosylation to windmill palm tree peroxidase function by comparing the native enzyme to those expressed in Nicotiana benthamiana and Pichia pastoris. Differences in glycosylation are hypothesized to affect enzyme stability and activity. Her workflow and tools for analysis of plant glycopeptide mass spectrometry data will be instrumental for interpretation of the results.

One or more keywords matched the following items that are connected to Baker, Margaret

Item Type	Name
Concept	Mass Spectrometry
Concept	Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization
Concept	Spectrometry, Mass, Electrospray Ionization
Academic Article	Cone snail milked venom dynamics--a quantitative study of Conus purpurascens.
Academic Article	Guanidination of tryptic peptides without desalting for matrix-assisted laser desorption/ionization-time-of-flight mass spectrometry analysis.
Academic Article	Analysis of a cone snail's killer cocktail--the milked venom of Conus geographus.
Academic Article	A 'conovenomic' analysis of the milked venom from the mollusk-hunting cone snail Conus textile--the pharmacological importance of post-translational modifications.
Academic Article	Amino acid sequence of anionic peroxidase from the windmill palm tree Trachycarpus fortunei.
Academic Article	Site-Specific N-Glycosylation Characterization of Windmill Palm Tree Peroxidase Using Novel Tools for Analysis of Plant Glycopeptide Mass Spectrometry Data.
Academic Article	Exploring adduct formation between human serum albumin and eleven organophosphate ester flame retardants and plasticizers using MALDI-TOF/TOF and LC-Q/TOF.
Academic Article	Covalent binding of the organophosphate insecticide profenofos to tyrosine on a- and ?-tubulin proteins.
Academic Article	Characterization of Plant Glycoproteins: Analysis of Plant Glycopeptide Mass Spectrometry Data with plantGlycoMS, a Package in the R Statistical Computing Environment.

Search Criteria

Spectrometry Mass
Matrix
Assisted
Laser
Desorption
Ionization