Yueming Hu
Arizona State University
16 Papers
3 Citations
Yueming Hu is an academic researcher from Arizona State University. The author has contributed to research in topics: Medicine & Internal medicine. The author has an hindex of 3, co-authored 4 publications.
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Papers
A spin column-free approach to sodium hydroxide-based glycan permethylation.
Yueming Hu,Chad R. Borges +1 more
TL;DR: A spin column-free glycan permethylation procedure that expedites and economizes both intact glycan analysis and linkage analysis of glycans from whole biospecimens is described.
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Biogenesis, Functions, Interactions, and Resources of Non-Coding RNAs in Plants
TL;DR: The biogenesis, biological functions, and interactions with DNA, RNA, protein, and microorganism of five major regulatory ncRNAs in plants are described and tools for analysis and prediction of plant nc RNAs are summarized, as well as databases.
Glycan Node Analysis: A Bottom-up Approach to Glycomics.
TL;DR: Improvements to the permethylation and subsequent liquid/liquid extraction stages provided herein enhance reproducibility and overall yield by facilitating minimal exposure of permethylated glycans to alkaline aqueous conditions.
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Plasma proteoforms of apolipoproteins C-I and C-II are associated with plasma lipids in the Multi-Ethnic Study of Atherosclerosis
Juraj Koska,Jeremy D. Furtado,Yueming Hu,Shripad Sinari,Matthew J. Budoff,Dean Billheimer,Dobrin Nedelkov,Robyn L. McClelland,Peter D. Reaven +8 more
TL;DR: In this article , the role of apoC-I and apo-C-II proteoforms in lipid metabolism is investigated. But, the determinants and role of these proteoform in metabolic pathways are unknown.
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A novel substitution of proline (P32L) destabilises β2-microglobulin inducing hereditary systemic amyloidosis
Tatiana Prokaeva,Tracy Joshi,Elena S. Klimtchuk,Victoria M. Gibson,Brian Spencer,Omar K. Siddiqi,Dobrin Nedelkov,Yueming Hu,John L. Berk,Sarah Cuddy,Surendra Dasari,April Chiu,Lauren Choate,Ellen D. McPhail,Haili Cui,Hui Chen,Eric J. Burks,Vaishali Sanchorawala,Lawreen H. Connors +18 more
TL;DR: In vitro studies of P32L demonstrated thermodynamic and chemical instability and enhanced susceptibility to proteolysis with rapid formation of pre-fibrillar oligomeric structures by N- and C-terminally truncated species under physiological conditions, providing both clinical and experimental evidence supporting the critical role of P 32 residue replacement in β2M amyloid fibrillogenesis.
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