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1. In vitro 0N4R tau fibrils contain a monomorphic β-sheet core enclosed by dynamically heterogeneous fuzzy coat segments

Author

Dregni, Aurelio J, Mandala, Venkata S, Wu, Haifan, Elkins, Matthew R, Wang, Harrison K, Hung, Ivan, DeGrado, William F, and Hong, Mei

Subjects
Dementia, Rare Diseases, Neurosciences, Neurodegenerative, Acquired Cognitive Impairment, Aging, Brain Disorders, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Alzheimer Disease, Amino Acid Sequence, Cryoelectron Microscopy, Cytoskeleton, Humans, Microtubule-Associated Proteins, Microtubules, Nuclear Magnetic Resonance, Biomolecular, Protein Aggregation, Pathological, Protein Binding, Protein Conformation, beta-Strand, Protein Domains, Protein Structure, Secondary, tau Proteins, solid-state NMR, conformational polymorphism, polymorphism
Abstract

Misfolding of the microtubule-binding protein tau into filamentous aggregates is characteristic of many neurodegenerative diseases such as Alzheimer's disease and progressive supranuclear palsy. Determining the structures and dynamics of these tau fibrils is important for designing inhibitors against tau aggregation. Tau fibrils obtained from patient brains have been found by cryo-electron microscopy to adopt disease-specific molecular conformations. However, in vitro heparin-fibrillized 2N4R tau, which contains all four microtubule-binding repeats (4R), was recently found to adopt polymorphic structures. Here we use solid-state NMR spectroscopy to investigate the global fold and dynamics of heparin-fibrillized 0N4R tau. A single set of 13C and 15N chemical shifts was observed for residues in the four repeats, indicating a single β-sheet conformation for the fibril core. This rigid core spans the R2 and R3 repeats and adopts a hairpin-like fold that has similarities to but also clear differences from any of the polymorphic 2N4R folds. Obtaining a homogeneous fibril sample required careful purification of the protein and removal of any proteolytic fragments. A variety of experiments and polarization transfer from water and mobile side chains indicate that 0N4R tau fibrils exhibit heterogeneous dynamics: Outside the rigid R2-R3 core, the R1 and R4 repeats are semirigid even though they exhibit β-strand character and the proline-rich domains undergo large-amplitude anisotropic motions, whereas the two termini are nearly isotropically flexible. These results have significant implications for the structure and dynamics of 4R tau fibrils in vivo.

Published
2019

2. Structural Polymorphism of Alzheimer's β-Amyloid Fibrils as Controlled by an E22 Switch: A Solid-State NMR Study.

Author

Elkins, Matthew R, Wang, Tuo, Nick, Mimi, Jo, Hyunil, Lemmin, Thomas, Prusiner, Stanley B, DeGrado, William F, Stöhr, Jan, and Hong, Mei

Subjects
Humans, Guanidine, Thiazoles, Peptides, Magnetic Resonance Spectroscopy, Temperature, Binding Sites, Protein Conformation, Kinetics, Phenotype, Mutation, Hydrogen-Ion Concentration, Benzothiazoles, Amyloid beta-Peptides, General Chemistry, Chemical Sciences
Abstract

The amyloid-β (Aβ) peptide of Alzheimer's disease (AD) forms polymorphic fibrils on the micrometer and molecular scales. Various fibril growth conditions have been identified to cause polymorphism, but the intrinsic amino acid sequence basis for this polymorphism has been unclear. Several single-site mutations in the center of the Aβ sequence cause different disease phenotypes and fibrillization properties. The E22G (Arctic) mutant is found in familial AD and forms protofibrils more rapidly than wild-type Aβ. Here, we use solid-state NMR spectroscopy to investigate the structure, dynamics, hydration and morphology of Arctic E22G Aβ40 fibrils. (13)C, (15)N-labeled synthetic E22G Aβ40 peptides are studied and compared with wild-type and Osaka E22Δ Aβ40 fibrils. Under the same fibrillization conditions, Arctic Aβ40 exhibits a high degree of polymorphism, showing at least four sets of NMR chemical shifts for various residues, while the Osaka and wild-type Aβ40 fibrils show a single or a predominant set of chemical shifts. Thus, structural polymorphism is intrinsic to the Arctic E22G Aβ40 sequence. Chemical shifts and inter-residue contacts obtained from 2D correlation spectra indicate that one of the major Arctic conformers has surprisingly high structural similarity with wild-type Aβ42. (13)C-(1)H dipolar order parameters, (1)H rotating-frame spin-lattice relaxation times and water-to-protein spin diffusion experiments reveal substantial differences in the dynamics and hydration of Arctic, Osaka and wild-type Aβ40 fibrils. Together, these results strongly suggest that electrostatic interactions in the center of the Aβ peptide sequence play a crucial role in the three-dimensional fold of the fibrils, and by inference, fibril-induced neuronal toxicity and AD pathogenesis.

Published
2016

8. Direct Observation of Cholesterol Dimers and Tetramers in Lipid Bilayers

Author

Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew R, Bandara, Asanga, Pantelopulos, George A, Straub, John E, Hong, Mei, Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew R, Bandara, Asanga, Pantelopulos, George A, Straub, John E, and Hong, Mei

Abstract

© 2021 American Chemical Society. Cholesterol is a ubiquitous component of mammalian cell membranes and affects membrane protein function. Although cholesterol-mediated formation of ordered membrane domains has been extensively studied, molecular-level structural information about cholesterol self-association has been absent. Here, we combine solid-state nuclear magnetic resonance (NMR) spectroscopy with all-atom molecular dynamics simulations to determine the oligomeric structure of cholesterol in phospholipid bilayers. Two-dimensional 13C-13C correlation spectra of differentially labeled cholesterol indicate that cholesterol self-associates in a face-to-face fashion at membrane concentrations from 17 to 44 mol %. 2D 13C and 19F spin-counting experiments allowed us to measure the average oligomeric number of these cholesterol clusters. At low cholesterol concentrations of ∼20%, the average cluster size is centered on dimers. At a high cholesterol concentration of 44%, which is representative of virus lipid envelopes and liquid-ordered domains of cell membranes, both dimers and tetramers are observed. The cholesterol dimers are found in both phase-separated membranes that contain sphingomyelin and in disordered and miscible membranes that are free of sphingomyelin. Molecular dynamics simulations support these experimental observations and moreover provide the lifetimes, stabilities, distributions, and structures of these nanoscopic cholesterol clusters. Taken together, these NMR and MD data strongly suggest that dimers are the basic structural unit of cholesterol in phospholipid bilayers. The direct observation of cholesterol dimers and tetramers provides a revised framework for studying cholesterol interactions with membrane proteins to regulate protein functions and for understanding the pathogenic role of cholesterol in diseases.

Published
2022

13. Determining Cholesterol Binding to Membrane Proteins by Cholesterol 13C Labeling in Yeast and Dynamic Nuclear Polarization NMR

Author

Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, Sergeyev, Ivan V., Hong, Mei, Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, Sergeyev, Ivan V., and Hong, Mei

Abstract

We present a general strategy for determining the cholesterol-binding site of eukaryotic membrane proteins in native-like lipid membranes by NMR spectroscopy. The strategy combines yeast biosynthetic 13C enrichment of cholesterol with detection of protein-cholesterol 13C-13C cross peaks in 2D correlation NMR spectra under the dynamic nuclear polarization (DNP) condition. Low-temperature DNP not only allows high-sensitivity detection of weak protein-cholesterol cross peaks in 2D spectra but also immobilizes cholesterol and protein to enable intermolecular distance measurements. We demonstrate this approach on the influenza M2 protein, which utilizes cholesterol to conduct membrane scission in the last step of virus budding and release from the host cell plasma membrane. A 13C-13C double-quantum filter was employed to significantly simplify the 2D 13C-13C correlation spectra and facilitate the identification of protein-cholesterol cross peaks. A number of cross peaks between the M2 transmembrane residues' side chains and the cholesterol sterol group were detected, which complement recently measured protein contacts to the isooctyl tail of cholesterol to define an extended binding interface. These results provide atomic-level evidence of M2-cholesterol interaction to cause membrane curvature and scission, and the approach is generally applicable to other eukaryotic membrane proteins for understanding the influence of cholesterol on membrane protein function., National Institutes of Health (Grant GM088204)

Published
2020

14. Elucidating ligand-bound structures of membrane proteins using solid-state NMR spectroscopy

Author

Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, Hong, Mei, Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, and Hong, Mei

Abstract

Magic-angle-spinning (MAS) solid-state NMR spectroscopy is a versatile technique to elucidate functionally important protein–ligand interactions in lipid membranes. Here, we review recent solid-state NMR studies of membrane protein interactions with cholesterol, lipids, transported substrates, and peptide ligands. These studies are conducted in synthetic or native lipid bilayers to provide an accurate environment for ligand binding. The solid-state NMR approaches include multinuclear detection to gain comprehensive structural information, distance measurements to locate ligand-binding sites, and dynamic nuclear polarization and 1 H detection to enhance spectral sensitivity. These studies provide novel insights into the mechanisms of virus budding, virus entry into cells, transmembrane signaling, substrate transport, antibacterial action, and many other biological processes., National Institutes of Health (U.S.) (Grant GM088204)

Published
2020

17. Colaboradores

Author

Abraham, Naif Z., Jr, Aoyagi, Katsumi, Ashihara, Yoshihiro, Asirvatham, Jaya Ruth, Axiotis, Constantine A., Bai, Yu, Balis, Ulysses G.J., Banki, Katalin, Bean, Katie V., Beavis, Kathleen G., Bem, Sylva, Ben-Ezra, Jonathan, Bigdeli, Tim B., Bluth, Martin H., Bobr, Aleh, Bock, Jay L., Borowitz, Michael J., Bowne, Wilbur B., Brandt-Rauf, Paul, Bray, Robert, Bredefeld, Cindy L., Briefel, Gary, Broadhurst, M. Jana, Carty, Robert P., Ceribelli, Angela, Chan, Edward K.L., Charnot-Katsikas, Angella, Cherian, Sindhu, Chiang, Spencer, Clapp, William L., Cooling, Laura Lee, Daniels, Lynsey, Davenport, Robertson D., DeCresce, Robert P., Delgado, Julio C., DeSimone, Robert A., DiGuardo, Margaret A., Paola, Jorge A. Di, Downs, Theresa, Elghetany, M. Tarek, Elkins, Matthew B., Fanous, Ayman, Fritzler, Marvin J., Gebel, Howard M., Goldstein, Eve, Graham, Susan S., Grody, Wayne W., Guber, Helena A., Gupta, Gaurav, Hamilton, Robert G., Harrington, Amanda, Harris, Neil Selwyn, He, Rong, Hilbert, Tim, Hirschhorn, Julie Woolworth, Hogan, Catherine A., Holup, Joseph, Homburger, Henry A., Hsu, Yen-Michael S., Hussain, M. Mahmood, Hutchison, Robert E., Iwen, Peter C., Jain, Shilpa, Jeelani, Roohi, Jennette, J. Charles, Jhang, Jeffrey S., Karcher, Donald S., Kasahara, Yasushi, Kaskovich, Samuel W., Kessler, Craig M., Khalili, Marian, Kidd, Jason, Klein, Michael J., Klemm, Katrin M., Krick, Stefanie, Krummey, Scott, Kumánovics, Attila, Kurec, Anthony, LaDoulis, Charles, Lau, Raymond G., Lázár-Molnár, Eszter, Lee, Grace Ming, Lee, Peng, Li, Jing, Lifshitz, Mark S., Lin, Bo, Mageau, Ronald P., Markell, Mariana, Massey, H. Davis, Mathison, Blaine A., Mathur, Sharad C., McPherson, Richard A., McVoy, Lauren A., Merkel, Kimberly, Meyers, Jacquelyn L., Miller, W. Greg, Mintz, Paul D., Mohi, Golam, Mojica, Angela, Nasr, Michel R., Nikolic, Dejan, Nolte, Frederick S., Oh, Man S., Olano, Juan P., Oprea, Mihaela, Ortel, Thomas L., Ouyang, Zheng, Perle, Mary Ann, Peterson, Roseann E., Pincus, Matthew R., Pinsky, Benjamin A., Plourde, Anna R., Pritt, Bobbi S., Rabinowitz, Simon, Raje, Nikita, Rand, Jacob H., Rao, A. Koneti, Riley, Roger S., Roby, Rhonda K., Rodino, Kyle G., Russell, Yan Xue, Sarode, Ravi, Schandl, Cynthia A., Seydhafkan, Shabnam, Siddiqi, Haseeb A., Songdej, Natthapol, Stein, Constance H., Stempak, Lisa M., Sullivan, H. Clifford, Thompson, George R., III, Vajpayee, Neerja, Viswanatha, David S., von Mühlen, Carlos Alberto, Walker, David H., Wang, Hannah, Weedn, Victor W., Weimer, Eric T., Weinstock, Ruth S., Wengenack, Nancy L., Wiederhold, Nathan P., Winter, William E., Winters, Jeffrey L., Wojewoda, Christina M., Wood, Brent L., Woods, Gail L., Zhang, Wenpeng, and Zhang, Yaxia

Published
2023
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20. Contributors

Author

Abraham, Naif Z., Jr, Aoyagi, Katsumi, Ashihara, Yoshihiro, Asirvatham, Jaya Ruth, Axiotis, Constantine A., Bai, Yu, Balis, Ulysses G.J., Banki, Katalin, Bean, Katie V., Beavis, Kathleen G., Bem, Sylva, Ben-Ezra, Jonathan, Bigdeli, Tim B., Bluth, Martin H., Bobr, Aleh, Bock, Jay L., Borowitz, Michael J., Bowne, Wilbur B., Brandt-Rauf, Paul, Bray, Robert, Bredefeld, Cindy L., Briefel, Gary, Broadhurst, M. Jana, Carty, Robert P., Ceribelli, Angela, Chan, Edward K.L., Charnot-Katsikas, Angella, Cherian, Sindhu, Chiang, Spencer, Clapp, William L., Lee Cooling, Laura, Daniels, Lynsey, Davenport, Robertson D., DeCresce, Robert P., Delgado, Julio C., DeSimone, Robert A., DiGuardo, Margaret A., Di Paola, Jorge A., Downs, Theresa, Elghetany, M. Tarek, Elkins, Matthew B., Fanous, Ayman, Fritzler, Marvin J., Gebel, Howard M., Goldstein, Eve, Graham, Susan S., Grody, Wayne W., Guber, Helena A., Gupta, Gaurav, Hamilton, Robert G., Harrington, Amanda, Harris, Neil Selwyn, He, Rong, Hilbert, Tim, Hirschhorn, Julie Woolworth, Hogan, Catherine A., Holup, Joseph, Homburger, Henry A., Hsu, Yen-Michael S., Hussain, M. Mahmood, Hutchison, Robert E., Iwen, Peter C., Jain, Shilpa, Jeelani, Roohi, Jennette, J. Charles, Jhang, Jeffrey S., Karcher, Donald S., Kasahara, Yasushi, Kaskovich, Samuel W., Kessler, Craig M., Khalili, Marian, Kidd, Jason, Klein, Michael J., Klemm, Katrin M., Krick, Stefanie, Krummey, Scott, Kumánovics, Attila, Kurec, Anthony, LaDoulis, Charles, Lau, Raymond G., Lázár-Molnár, Eszter, Lee, Grace Ming, Lee, Peng, Li, Jing, Lifshitz, Mark S., Lin, Bo, Mageau, Ronald P., Markell, Mariana, Massey, H. Davis, Mathison, Blaine A., Mathur, Sharad C., McPherson, Richard A., McVoy, Lauren A., Merkel, Kimberly, Meyers, Jacquelyn L., Miller, W. Greg, Mintz, Paul D., Mohi, Golam, Mojica, Angela, Nasr, Michel R., Nikolic, Dejan, Nolte, Frederick S., Oh, Man S., Olano, Juan P., Oprea, Mihaela, Ortel, Thomas L., Ouyang, Zheng, Perle, Mary Ann, Peterson, Roseann E., Pincus, Matthew R., Pinsky, Benjamin A., Plourde, Anna R., Pritt, Bobbi S., Rabinowitz, Simon, Raje, Nikita, Rand, Jacob H., Rao, A. Koneti, Riley, Roger S., Roby, Rhonda K., Rodino, Kyle G., Russell, Yan Xue, Sarode, Ravi, Schandl, Cynthia A., Seydhafkan, Shabnam, Siddiqi, Haseeb A., Songdej, Natthapol, Stein, Constance H., Stempak, Lisa M., Sullivan, H. Clifford, Thompson, George R., III, Vajpayee, Neerja, Viswanatha, David S., Alberto von Mühlen, Carlos, Walker, David H., Wang, Hannah, Weedn, Victor W., Weimer, Eric T., Weinstock, Ruth S., Wengenack, Nancy L., Wiederhold, Nathan P., Winter, William E., Winters, Jeffrey L., Wojewoda, Christina M., Wood, Brent L., Woods, Gail L., Zhang, Wenpeng, and Zhang, Yaxia

Published
2022
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22. Assessment of Impact of AC Circuit Attributes to Outage Frequency in the WECC System.

Author

Ekisheva, Svetlana, Papic, Milorad, Lauby, Mark G., and Elkins, Matthew

Subjects
DATA transmission systems, ALTERNATING currents, ELECTRIC lines, SUBCHAPTER S corporations, ALTITUDES, FORWARD error correction, SYSTEM failures
Abstract

This paper develops a statistics-based approach for analysis of transmission outage data. The method is applied to the Western Electricity Coordinating Council (WECC) transmission inventory and outage data collected and submitted by member utilities to the North American Electric Reliability Corporation's (NERC) Transmission Availability Data System (TADS). The developed model considers the random nature of Alternating Current (AC) circuit outages and introduces fourteen inventory attributes of the AC circuits as explanatory variables for the outage frequency. The main goal of the paper is to investigate statistical relationships between the number of automatic outages on AC circuits and AC circuit inventory attributes based on the TADS data from 2013–2018, which has proven to be sufficient in obtaining statistically valid results. Concepts associated with the statistical validation of performance indices are discussed with emphasis placed on analysis of distinct types of explanatory variables such as voltage class, mileage, number of terminals, circuits per structure, terrain, elevation, etc. [ABSTRACT FROM AUTHOR]

Published
2021
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25. MAIL BAG.

Author

Fossi, Matteo, Elkins, Matthew, D., Tim, Middleham, Luke, Lisa, Cruise, Tony, Lavery, Carl, Solo, Riggz, and Smith, Sean

Subjects
ARCADE games, RUNNING races, MUSIC videos, VIDEO gamers, VIDEO games
Abstract

This document is a mailbag section from the magazine Retro Gamer. The first letter discusses the writer's love for video game music and asks the magazine's team about their favorite soundtracks. The second letter shares pictures of classic arcade games found at Niagara Falls and suggests an international Arcade Watch feature. The third letter suggests running a competition for Christmas NiGHTS and asks for recommendations on other Christmas-related games. The fourth letter suggests bringing back inside Retro Gamer videos to showcase the content of each issue. The fifth letter expresses appreciation for the sense of community in retro gaming and shares a personal story of receiving help and generosity from fellow gamers. The last section includes reader responses to the question of the most technically impressive Atari 2600 game they've played. [Extracted from the article]

Published
2023

26. Cholesterol-binding site of the influenza M2 protein in lipid bilayers from solid-state NMR

Author

Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, Williams, Jonathan Kyle, Gelenter, Martin David, Dai, Peng, Kwon, Byungsu, Pentelute, Bradley L., Sergeyev, Ivan V., Hong, Mei, Massachusetts Institute of Technology. Department of Chemistry, Elkins, Matthew Ryan, Williams, Jonathan Kyle, Gelenter, Martin David, Dai, Peng, Kwon, Byungsu, Pentelute, Bradley L., Sergeyev, Ivan V., and Hong, Mei

Abstract

The influenza M2 protein not only forms a proton channel but also mediates membrane scission in a cholesterol-dependent manner to cause virus budding and release. The atomic interaction of cholesterol with M2, as with most eukaryotic membrane proteins, has long been elusive. We have now determined the cholesterol-binding site of the M2 protein in phospholipid bilayers using solid-state NMR spectroscopy. Chain-fluorinated cholesterol was used to measure cholesterol proximity to M2 while sterol-deuterated cholesterol was used to measure bound-cholesterol orientation in lipid bilayers. Carbon–fluorine distance measurements show that at a cholesterol concentration of 17 mol%, two cholesterol molecules bind each M2 tetramer. Cholesterol binds the C-terminal transmembrane (TM) residues, near an amphipathic helix, without requiring a cholesterol recognition sequence motif. Deuterium NMR spectra indicate that bound cholesterol is approximately parallel to the bilayer normal, with the rough face of the sterol rings apposed to methyl-rich TM residues. The distance- and orientation-restrained cholesterol-binding site structure shows that cholesterol is stabilized by hydrophobic interactions with the TM helix and polar and aromatic interactions with neighboring amphipathic helices. At the 1:2 binding stoichiometry, lipid31P spectra show an isotropic peak indicative of high membrane curvature. This M2–cholesterol complex structure, together with previously observed M2 localization at phase boundaries, suggests that cholesterol mediates M2 clustering to the neck of the budding virus to cause the necessary curvature for membrane scission. The solid-state NMR approach developed here is generally applicable for elucidating the structural basis of cholesterol’s effects on membrane protein function. Keywords: membrane; ¹⁹F-NMR; deuterium NMR; docking; membrane scission

Published
2018

32. Can elevated lactate and LDH produce a false positive enzymatic ethanol result in live patients presenting to the emergency department?

Author

Nacca, Nicholas, Hodgman, Michael J., Lao, Kirselle, Elkins, Matthew, and Holland, Michael G.

Subjects
LACTATE dehydrogenase, LACTIC acid, GAS chromatography, ETHANOL, NAD (Coenzyme), ACETALDEHYDE, OXIDATION
Abstract

Background:There have been allegations in the courtroom that elevated serum lactic acid in trauma victims can yield a falsely elevated serum ethanol assay. Most hospitals utilize an indirect method of ethanol measurement where a serum sample is added to a mix of alcohol dehydrogenase and oxidized nicotinamide adenine dinucleotide (NAD+). This allows any ethanol in the patient’s serum to be metabolized to acetaldehyde, and in the process results in the reduction of NAD + to NADH. NADH is then measured using spectrophotometry. The courtroom allegation stems from the concept that oxidation of lactate to pyruvate by lactate dehydrogenase (LDH) results in the same molar-for-molar reduction of NAD + to NADH, and could therefore theoretically cause patients with elevated lactate and LDH to have a falsely elevated ethanol concentration. Methods:Patients with elevated lactic acid and LDH concentrations who presented to a university hospital from 20 April 2015 to 13 December 2015 were identified to provide possible test specimens. If a sufficient amount of serum was available, the sample was used to re-run the lactate and LDH concentration simultaneously with an enzymatic ethanol assay. Any samples that had elevated lactic acid and LDH concentrations on this retesting, and also yielded a positive ethanol concentration, were sent for confirmatory gas chromatography testing of ethanol concentrations. A control group of 20 samples with normal lactate and LDH were included. Results:A total of 37 samples were included in the final analysis. Only 4 patients had an elevated enzymatic ethanol concentration, and all 4 also had a measurable GC ethanol concentration. The lactate in this dataset ranged from 2.4 to 24.2 mmol/L, with a mean of 6.53 mmol/L (normal value 0.5–2.2). The LDH ranged from 242 to 8838 U/L with a mean of 1695 U/L (normal value 122–225 U/L). Twenty control samples were run on patients with normal lactate and LDH, none of which yielded a positive enzymatic ethanol result. Conclusions:This data does not support the contention that an elevated LDH and lactate can yield a false positive serum ethanol result as run by enzymatic ethanol assay in live patients presenting to the emergency department. [ABSTRACT FROM PUBLISHER]

Published
2018
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33. Contributors

Author

Abraham, Naif Z., Jr., Aoyagi, Katsumi, Ashihara, Yoshihiro, Banki, Katalin, Beavis, Kathleen G., Bem, Sylva, Bluth, Martin H., Bock, Jay L., Borowitz, Michael J., Bowne, Wilbur B., Brandt-Rauf, Paul W., Briefel, Gary, Cai, Donghong, Caragher, Timothy E., Carty, Robert P., Chan, Edward K.L., Charnot-Katsikas, Angella, Chen, Xueying, Cherian, Sindu, Clapp, William L., Collinsworth, Amy L., Cooling, Laura, Costello, Michael, Davenport, Robertson, DeCresce, Robert, Delgado, Julio C., Downs, Theresa, Elghetany, M. Tarek, Elkins, Matthew, Fagoaga, Omar Roberto, Farag, Amal F., Fritsche, Thomas Richard, Fritzler, Marvin J., Gabali, Ali, Gleeson, Elizabeth, Graham, Susan S., Greco, Nicholas J., Grody, Wayne W., Guber, Helena A., Hall, Geraldine S., Hamilton, Robert G., Harris, Neil S., Hilbert, Tim, Hill, Charles E., Hirschhorn, Julie Woolworth, Homburger, Henry A., Huber, Sally A., Hussain, M. Mahmood, Hutchison, Robert E., Iwen, Peter C., Jain, Shilpa, Jeelani, Roohi, Jennette, J. Charles, Jenny, Nancy S., Jhang, Jeffrey S., Karcher, Donald S., Kasahara, Yasushi, Kessler, Craig M., Kidd, Jason, Klein, Michael J., Klemm, Katrin M., Kumánovics, Attila, Kurec, Anthony, LaDoulis, Charles, LaSala, P. Rocco, Lee, Peng, Lewis, Michael R., Li, Jing, Lifshitz, Mark S., Loeffelholz, Michael, Long, Patrick Michael, Massey, H. Davis, Mathur, Sharad C., Mazur, Lech J., McPherson, Richard A., McVoy, Lauren, Merkel, Kimberly L., Miller, Jonathan L., Miller, W. Greg, Mintz, Paul D., Mitsios, John V., Mohi, Golam, Nadkarni, Prashant, Napolitano, Mariasanta, Nolte, Frederick S., Oh, Man S., Olano, Juan P., Ortel, Thomas L., Patterson, Emily Rupp, Pincus, Matthew R., Piper, Margaret, Pritt, Bobbi S., Rand, Jacob H., Rao, A. Koneti, Riley, Roger S., Roby, Rhonda K., Rossi, Ralph, Salwen, Martin J., Sanford, Kimberly W., Sarafraz-Yazdi, Ehsan, Schexneider, Katherine I., Schmaier, Alvin H., Shaikh, Mohammad F., Siddiqi, Haseeb A., Stein, Constance K., Steinau, Martin, Tierno, Philip M., Jr., Tranchida, Paul, Unger, Elizabeth R., Vajpayee, Neerja, von Mühlen, Carlos Alberto, Walker, David H., Weimer, Eric T., Weindel, Michael, Weinstock, Ruth S., Winter, William E., Winters, Jeffrey L., Wood, Brent L., Woods, Gail L., Xu, Ruliang, Zhang, David Y., and Zhou, Liye

Published
2017
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39. Suggestions for Reform to the Simple Cautioning Procedure.

Author

Hynes, Paul and Elkins, Matthew

Subjects
POLICE power, FAIRNESS, CONFESSION (Law), CRIMINAL law, CIVIL procedure, LAW
Abstract

This article examines the simple police cautioning disposal and argues that at present the theory and practice of the procedure do not coincide, resulting in unfairness, dissatisfaction and grounds for potential challenge. It is suggested that the process should be amended so that a police caution can be offered, with appropriate safeguards in place, prior to an admission being made. [ABSTRACT FROM AUTHOR]

Published
2013

40. Isolation and characterization of a novel gene, xMADML, involved in Xenopus laevis eye development

Author

Elkins, Matthew B. and Henry, Jonathan J.

Abstract

We have identified Xenopus MADM‐like (xMADML), a Xenopus laevis gene related to the murine MADM and the human NRBP genes. xMADML is expressed throughout early development and is expressed most strongly in the developing lens and more weakly in the retina and other anterior tissues. We demonstrate that disruption of xMADML translation by means of morpholino injection results in impaired retina and lens development. Reciprocal transplantation of the presumptive lens ectoderm between morpholino‐injected embryos and those injected solely with a dextran lineage tracer demonstrates that xMADML is necessary in both the lens and the retina for correct development of these eye tissues. Analysis of gene expression after knockdown of xMADML revealed significant alterations in the expression of some genes, including Pax6, xSix3, Sox2, and Sox3, suggesting that xMADML plays a role in regulating gene expression during development of the eye. This investigation is the first in vivo study examining the developmental role of this novel gene and reveals an important role of xMADML in eye tissue development and differentiation. Development Dynamics 235:1845–1857, 2006. © 2006 Wiley‐Liss, Inc.

Published
2006
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41. Determining Cholesterol Binding to Membrane Proteins by Cholesterol 13 C Labeling in Yeast and Dynamic Nuclear Polarization NMR.

Author

Elkins MR, Sergeyev IV, and Hong M

Subjects
Binding Sites, Carbon Isotopes, Cholesterol biosynthesis, Membrane Proteins metabolism, Molecular Conformation, Molecular Docking Simulation, Saccharomyces cerevisiae metabolism, Cholesterol chemistry, Membrane Proteins chemistry, Nuclear Magnetic Resonance, Biomolecular, Saccharomyces cerevisiae chemistry
Abstract

We present a general strategy for determining the cholesterol-binding site of eukaryotic membrane proteins in native-like lipid membranes by NMR spectroscopy. The strategy combines yeast biosynthetic 13 C enrichment of cholesterol with detection of protein-cholesterol 13 C- 13 C cross peaks in 2D correlation NMR spectra under the dynamic nuclear polarization (DNP) condition. Low-temperature DNP not only allows high-sensitivity detection of weak protein-cholesterol cross peaks in 2D spectra but also immobilizes cholesterol and protein to enable intermolecular distance measurements. We demonstrate this approach on the influenza M2 protein, which utilizes cholesterol to conduct membrane scission in the last step of virus budding and release from the host cell plasma membrane. A 13 C- 13 C double-quantum filter was employed to significantly simplify the 2D 13 C- 13 C correlation spectra and facilitate the identification of protein-cholesterol cross peaks. A number of cross peaks between the M2 transmembrane residues' side chains and the cholesterol sterol group were detected, which complement recently measured protein contacts to the isooctyl tail of cholesterol to define an extended binding interface. These results provide atomic-level evidence of M2-cholesterol interaction to cause membrane curvature and scission, and the approach is generally applicable to other eukaryotic membrane proteins for understanding the influence of cholesterol on membrane protein function.

Published
2018
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42. Molecular profiling: gene expression reveals discrete phases of lens induction and development in Xenopus laevis.

Author

Walter BE, Tian Y, Garlisch AK, Carinato ME, Elkins MB, Wolfe AD, Schaefer JJ, Perry KJ, and Henry JJ

Subjects
Animals, Cell Differentiation, Ectoderm metabolism, Gene Library, Homeodomain Proteins genetics, In Situ Hybridization, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction, RNA, Messenger metabolism, Trans-Activators, Up-Regulation, Xenopus laevis genetics, Embryo, Nonmammalian, Embryonic Induction genetics, Gene Expression Profiling, Gene Expression Regulation, Developmental physiology, Lens, Crystalline embryology, Xenopus laevis embryology
Abstract

Purpose: Experimental tissue transplant studies reveal that lens development is directed by a series of early and late inductive interactions. These interactions impart a growing lens-forming bias within competent presumptive lens ectoderm that leads to specification and the commitment to lens fate. Relatively few genes are known which control these events. Identification of additional genes expressed during lens development may reveal key players in these processes and help to characterize these tissue properties., Methods: A large suite of genes has been isolated that are expressed during the process of cornea-lens transdifferentiation (lens regeneration) in Xenopus laevis. Many of these genes are also expressed during embryonic lens development. Genes were selected for expression analysis via in situ hybridization. This group consisted of clones with possible roles in cell determination and differentiation as well as novel clones without previous identities. The spatiotemporal expression of these genes in conjunction with previously described genes were correlated with key events during embryonic lens formation., Results: Eighteen of the thirty clones analyzed via in situ hybridization demonstrated observable expression in the developing lens. These genes were initially expressed in the presumptive lens ectoderm at a variety of timepoints throughout development. Expression is restricted to discrete time intervals during lens development. However, in most cases, expression was maintained throughout lens development after being initially upregulated., Conclusions: The expression of these genes suggests that a genetic hierarchy exists in which an increasing number of genes are upregulated and their expression is maintained throughout lens development. Suites of genes appear to be upregulated at specific timepoints during development, correlating with stages of lens induction, specification, commitment, lens placode formation, and lens differentiation, while suites at additional timepoints suggest that other, previously unreported stages exist as well. This analysis provides a genetic framework for characterizing these processes of lens development.

Published
2004

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