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2,996 results on '"Wade D."'

1. Competition between inside-out unfolding and pathogenic aggregation in an amyloid-forming β-propeller

Author

Emily G. Saccuzzo, Mubark D. Mebrat, Hailee F. Scelsi, Minjoo Kim, Minh Thu Ma, Xinya Su, Shannon E. Hill, Elisa Rheaume, Renhao Li, Matthew P. Torres, James C. Gumbart, Wade D. Van Horn, and Raquel L. Lieberman

Subjects
Science
Abstract

Abstract Studies of folded-to-misfolded transitions using model protein systems reveal a range of unfolding needed for exposure of amyloid-prone regions for subsequent fibrillization. Here, we probe the relationship between unfolding and aggregation for glaucoma-associated myocilin. Mutations within the olfactomedin domain of myocilin (OLF) cause a gain-of-function, namely cytotoxic intracellular aggregation, which hastens disease progression. Aggregation by wild-type OLF (OLFWT) competes with its chemical unfolding, but only below the threshold where OLF loses tertiary structure. Representative moderate (OLFD380A) and severe (OLFI499F) disease variants aggregate differently, with rates comparable to OLFWT in initial stages of unfolding, and variants adopt distinct partially folded structures seen along the OLFWT urea-unfolding pathway. Whether initiated with mutation or chemical perturbation, unfolding propagates outward to the propeller surface. In sum, for this large protein prone to amyloid formation, the requirement for a conformational change to promote amyloid fibrillization leads to direct competition between unfolding and aggregation.

Published
2024
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2. Increasing availability of reference mitochondrial genomes for imperiled fishes in western North America for environmental DNA assay design and species monitoring

Author

Tracy A. Diver, Steven M. Mussmann, Melody J. Saltzgiver, Alexis S. Harrison, Wade D. Wilson, Jason A. Coombs, and Aaron P. Maloy

Subjects
endangered fishes, mitochondrial genomes, environmental DNA, assay design, genomic resources, General. Including nature conservation, geographical distribution, QH1-199.5
Published
2024
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3. Uracil-DNA glycosylase efficiency is modulated by substrate rigidity

Author

Paul B. Orndorff, Souvik Poddar, Aerial M. Owens, Nikita Kumari, Bryan T. Ugaz, Samrat Amin, Wade D. Van Horn, Arjan van der Vaart, and Marcia Levitus

Subjects
Medicine, Science
Abstract

Abstract Uracil DNA-glycosylase (UNG) is a DNA repair enzyme that removes the highly mutagenic uracil lesion from DNA using a base flipping mechanism. Although this enzyme has evolved to remove uracil from diverse sequence contexts, UNG excision efficiency depends on DNA sequence. To provide the molecular basis for rationalizing UNG substrate preferences, we used time-resolved fluorescence spectroscopy, NMR imino proton exchange measurements, and molecular dynamics simulations to measure UNG specificity constants (k cat/K M) and DNA flexibilities for DNA substrates containing central AUT, TUA, AUA, and TUT motifs. Our study shows that UNG efficiency is dictated by the intrinsic deformability around the lesion, establishes a direct relationship between substrate flexibility modes and UNG efficiency, and shows that bases immediately adjacent to the uracil are allosterically coupled and have the greatest impact on substrate flexibility and UNG activity. The finding that substrate flexibility controls UNG efficiency is likely significant for other repair enzymes and has major implications for the understanding of mutation hotspot genesis, molecular evolution, and base editing.

Published
2023
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4. Hinge-shift mechanism as a protein design principle for the evolution of β-lactamases from substrate promiscuity to specificity

Author

Tushar Modi, Valeria A. Risso, Sergio Martinez-Rodriguez, Jose A. Gavira, Mubark D. Mebrat, Wade D. Van Horn, Jose M. Sanchez-Ruiz, and S. Banu Ozkan

Subjects
Science
Abstract

TEM-1 β-lactamase evolved from ancestral enzymes that degraded a variety of β-lactam antibiotics with moderate efficiency and degrades β-lactam antibiotics with a strong preference for penicillins. Here authors developed a computational approach to rationally mold a protein flexibility profile on the basis of a hinge-shift mechanism and show a putative Precambrian β-lactamase that mimics the modern TEM-1 β-lactamase with only 21 amino acid replacements.

Published
2021
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5. Evidence that the TRPV1 S1-S4 membrane domain contributes to thermosensing

Author

Minjoo Kim, Nicholas J. Sisco, Jacob K. Hilton, Camila M. Montano, Manuel A. Castro, Brian R. Cherry, Marcia Levitus, and Wade D. Van Horn

Subjects
Science
Abstract

The TRPV1 ion channel is a heat-sensing receptor that is also activated by vanilloid compounds, but the molecular underpinnings of thermosensing have remained elusive. Here authors use in solution NMR on the isolated human TRPV1 S1-S4 domain and show that this domain undergoes a non-denaturing temperature-dependent transition with a high thermosensitivity.

Published
2020
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6. Placental Transfusion for Asphyxiated Infants

Author

Anup C. Katheria, Wade D. Rich, Sunita Bava, and Satyan Lakshminrusimha

Subjects
placental transfusion, cord milking, delayed cord clamping, newborn, asphyxia, Pediatrics, RJ1-570
Abstract

The current recommendation for umbilical cord management of non-vigorous infants (limp, pale, and not breathing) who need resuscitation at birth is to immediately clamp the umbilical cord. This recommendation is due in part to insufficient evidence for delayed cord clamping (DCC) or umbilical cord milking (UCM). These methods may provide a neuroprotective mechanism that also facilitates cardiovascular transition for non-vigorous infants at birth.

Published
2019
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7. Waived Consent in Perinatal/Neonatal Research—When Is It Appropriate?

Author

Wade D. Rich and Anup C. Katheria

Subjects
informed consent, resuscitation, neonalal, waiver, ethics, Pediatrics, RJ1-570
Abstract

Informed consent is a process ensuring that subjects enrolled in research are appropriately informed of the risks and benefits. While this process is well-defined when it is possible and practical to obtain consent prior to the research intervention, it can be less clear in cases of deferred or waived consent. Defining minimal risk, such as when research is attempting to determine which of two currently practiced interventions is safest and/or most effective, is critical to moving forward in establishing appropriate care in newborns. For perinatal/neonatal research the challenge lies between the ethical justification for approaching women in labor or under medication vs. the scientific integrity of excluding a number of subjects that may potentially benefit the most from an intervention. Researchers must work with their IRBs as well as families who have participated in trials to determine the most appropriate method for obtaining informed consent from expectant parents. Clinical researchers and IRBs ultimately need to find a middle ground for the appropriate use of deferred or waived consent.

Published
2019
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9. PIRT the TRP Channel Regulating Protein Binds Calmodulin and Cholesterol-Like Ligands

Author

Nicholas J. Sisco, Dustin D. Luu, Minjoo Kim, and Wade D. Van Horn

Subjects
pirt, trp channels, pip2, calmodulin, β-estradiol, nuclear magnetic resonance, microscale thermophoresis, Microbiology, QR1-502
Abstract

Transient receptor potential (TRP) ion channels are polymodal receptors that have been implicated in a variety of pathophysiologies, including pain, obesity, and cancer. The capsaicin and heat sensor TRPV1, and the menthol and cold sensor TRPM8, have been shown to be modulated by the membrane protein PIRT (Phosphoinositide-interacting regulator of TRP). The emerging mechanism of PIRT-dependent TRPM8 regulation involves a competitive interaction between PIRT and TRPM8 for the activating phosphatidylinositol 4,5-bisphosphate (PIP2) lipid. As many PIP2 modulated ion channels also interact with calmodulin, we investigated the possible interaction between PIRT and calmodulin. Using microscale thermophoresis (MST), we show that calmodulin binds to the PIRT C-terminal α-helix, which we corroborate with a pull-down experiment, nuclear magnetic resonance-detected binding study, and Rosetta-based computational studies. Furthermore, we identify a cholesterol-recognition amino acid consensus (CRAC) domain in the outer leaflet of the first transmembrane helix of PIRT, and with MST, show that PIRT specifically binds to a number of cholesterol-derivatives. Additional studies identified that PIRT binds to cholecalciferol and oxytocin, which has mechanistic implications for the role of PIRT regulation of additional ion channels. This is the first study to show that PIRT specifically binds to a variety of ligands beyond TRP channels and PIP2.

Published
2020
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10. The role of maternal age and context-dependent maternal effects in the offspring provisioning of a long-lived marine teleost

Author

Linsey M. Arnold, Wade D. Smith, Paul D. Spencer, Allison N. Evans, Scott A. Heppell, and Selina S. Heppell

Subjects
maternal effects, reproductive strategies, offspring provisioning, population dynamics, marine teleosts, Science
Abstract

Despite evidence of maternal age effects in a number of teleost species, there have been challenges to the assertion that maternal age intrinsically influences offspring quality. From an evolutionary perspective, maternal age effects result in young females paradoxically investing in less fit offspring despite a greater potential fitness benefit that might be gained by allocating this energy to individual somatic growth. Although a narrow range of conditions could lead to a maternal fitness benefit via the production of lower quality offspring, evolutionary theorists suggest these conditions are seldom met and that the reported maternal age effects are more likely products of the environmental context. Our goal was to determine if maternal effects operated on offspring provisioning in a long-lived rockfish (genus Sebastes), and to evaluate any such effects as an intrinsic function of maternal age or a context-dependent effect of the offspring release environment. We found that offspring provisioning is a function of both maternal age and the timing of offspring release; older females exhibit increased provisioning over younger females throughout the spawning season despite a decrease in provisioning across all maternal ages as the season progresses. These findings suggest a role for both maternal age effects and a potential context-dependent maternal effect in population productivity, carrying important implications when modelling population persistence and resilience.

Published
2018
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13. The Survival of Pinus ponderosa Saplings Subjected to Increasing Levels of Fire Behavior and Impacts on Post-Fire Growth

Author

Wade D. Steady, Raquel Partelli Feltrin, Daniel M. Johnson, Aaron M. Sparks, Crystal A. Kolden, Alan F. Talhelm, James A. Lutz, Luigi Boschetti, Andrew T. Hudak, Andrew S. Nelson, and Alistair M. S. Smith

Subjects
fire severity, growth, yield, succession, Physics, QC1-999
Abstract

Improved predictions of tree species mortality and growth metrics following fires are important to assess fire impacts on forest succession, and ultimately forest growth and yield. Recent studies have shown that North American conifers exhibit a ‘toxicological dose-response’ relationship between fire behavior and the resultant mortality or recovery of the trees. Prior studies have not been conclusive due to potential pseudo-replication in the experimental design and time-limited observations. We explored whether dose-response relationships are observed in ponderosa pine (Pinus ponderosa) saplings exposed to surface fires of increasing fire behavior (as quantified by Fire Radiative Energy—FRE). We confirmed equivalent dose-response relationships to the prior studies that were focused on other conifer species. The post-fire growth in the saplings that survived the fires decreased with increasing FRE dosages, while the percentage mortality in the sapling dosage groups increased with the amount of FRE applied. Furthermore, as with lodgepole pine (Pinus contorta), a low FRE dosage could be applied that did not yield mortality in any of the replicates (r = 10). These results suggest that land management agencies could use planned burns to reduce fire hazard while still maintaining a crop of young saplings. Incorporation of these results into earth-system models and growth and yield models could help reduce uncertainties associated with the impacts of fire on timber growth, forest resilience, carbon dynamics, and ecosystem economics.

Published
2019
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17. CryoFold: Determining protein structures and data-guided ensembles from cryo-EM density maps

Author

Shekhar, Mrinal, Terashi, Genki, Gupta, Chitrak, Sarkar, Daipayan, Debussche, Gaspard, Sisco, Nicholas J, Nguyen, Jonathan, Mondal, Arup, Vant, John, Fromme, Petra, Van Horn, Wade D, Tajkhorshid, Emad, Kihara, Daisuke, Dill, Ken, Perez, Alberto, and Singharoy, Abhishek

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Engineering, Materials Engineering, Nanotechnology, Bioengineering, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Aetiology, 1.4 Methodologies and measurements, Underpinning research, Generic health relevance, Macromolecular and materials chemistry, Materials engineering
Abstract

Cryo-electron microscopy (EM) requires molecular modeling to refine structural details from data. Ensemble models arrive at low free-energy molecular structures, but are computationally expensive and limited to resolving only small proteins that cannot be resolved by cryo-EM. Here, we introduce CryoFold - a pipeline of molecular dynamics simulations that determines ensembles of protein structures directly from sequence by integrating density data of varying sparsity at 3-5 Å resolution with coarse-grained topological knowledge of the protein folds. We present six examples showing its broad applicability for folding proteins between 72 to 2000 residues, including large membrane and multi-domain systems, and results from two EMDB competitions. Driven by data from a single state, CryoFold discovers ensembles of common low-energy models together with rare low-probability structures that capture the equilibrium distribution of proteins constrained by the density maps. Many of these conformations, unseen by traditional methods, are experimentally validated and functionally relevant. We arrive at a set of best practices for data-guided protein folding that are controlled using a Python GUI.

Published
2021

19. DEA-based benchmarking for performance evaluation in pay-for-performance incentive plans

Author

Cook, Wade D., Ramón, Nuria, Ruiz, José L., Sirvent, Inmaculada, and Zhu, Joe

Subjects
Mathematics - Optimization and Control
Abstract

Incentive plans involve payments for performance relative to some set of goals. In this paper, we extend Data Envelopment Analysis (DEA) to the evaluation of performance in the specific context of pay-for-performance incentive plans. The approach proposed ensures that the evaluation of performance of decision making units (DMUs) that follow the implementation of incentive plans, is made in terms of targets that are attainable, as well as representing best practices. A model is developed that adjusts the benchmarking to the goals through the corresponding payment of incentives, thus DEA targets are established taking into consideration the improvement strategies that were set out in the incentive plans. To illustrate, we examine an application concerned with the financing of public Spanish universities.

Published
2018
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20. Placental Transfusion for Asphyxiated Infants

Author

Katheria, Anup C, Rich, Wade D, Bava, Sunita, and Lakshminrusimha, Satyan

Subjects
Reproductive Medicine, Biomedical and Clinical Sciences, Stem Cell Research - Umbilical Cord Blood/ Placenta, Perinatal Period - Conditions Originating in Perinatal Period, Infant Mortality, Pediatric, Preterm, Low Birth Weight and Health of the Newborn, Stem Cell Research - Umbilical Cord Blood/ Placenta - Human, Stem Cell Research, Cardiovascular, Reproductive health and childbirth, placental transfusion, cord milking, delayed cord clamping, newborn, asphyxia, Paediatrics and Reproductive Medicine, Other Medical and Health Sciences, Paediatrics
Abstract

The current recommendation for umbilical cord management of non-vigorous infants (limp, pale, and not breathing) who need resuscitation at birth is to immediately clamp the umbilical cord. This recommendation is due in part to insufficient evidence for delayed cord clamping (DCC) or umbilical cord milking (UCM). These methods may provide a neuroprotective mechanism that also facilitates cardiovascular transition for non-vigorous infants at birth.

Published
2019

24. Evaluating Efficiency in Nonhomogeneous Environments

Author

Avilés-Sacoto, Sonia Valeria, Cook, Wade D., Güemes-Castorena, David, Zhu, Joe, Price, Camille C., Series Editor, Zhu, Joe, Associate Editor, Hillier, Frederick S., Founding Editor, Aparicio, Juan, editor, Lovell, C. A. Knox, editor, and Pastor, Jesus T., editor

Published
2020
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28. A parallel stranded G‐quadruplex composed of threose nucleic acid (TNA)

Author

Liao, Jen‐yu, Anosova, Irina, Bala, Saikat, Van Horn, Wade D, and Chaput, John C

Subjects
Macromolecular and Materials Chemistry, Chemical Sciences, Genetics, Circular Dichroism, G-Quadruplexes, Magnetic Resonance Spectroscopy, Native Polyacrylamide Gel Electrophoresis, Nucleic Acid Conformation, Nucleic Acids, Oligonucleotides, Tetroses, quadruplex, synthetic genetics, xeno-nucleic acids, Biological Sciences, Biophysics, Biological sciences, Chemical sciences
Abstract

G-rich sequences can adopt four-stranded helical structures, called G-quadruplexes, that self-assemble around monovalent cations like sodium (Na+ ) and potassium (K+ ). Whether similar structures can be formed from xeno-nucleic acid (XNA) polymers with a shorter backbone repeat unit is an unanswered question with significant implications on the fold space of functional XNA polymers. Here, we examine the potential for TNA (α-l-threofuranosyl nucleic acid) to adopt a four-stranded helical structure based on a planar G-quartet motif. Using native polyacrylamide gel electrophoresis (PAGE), circular dichroism (CD) and solution-state nuclear magnetic resonance (NMR) spectroscopy, we show that despite a backbone repeat unit that is one atom shorter than the backbone repeat unit found in DNA and RNA, TNA can self-assemble into stable G-quadruplex structures that are similar in thermal stability to equivalent DNA structures. However, unlike DNA, TNA does not appear to discriminate between Na+ and K+ ions, as G-quadruplex structures form equally well in the presence of either ion. Together, these findings demonstrate that despite a shorter backbone repeat unit, TNA is capable of self-assembling into stable G-quadruplex structures.

Published
2017

40. Structural Insights into Conformation Differences between DNA/TNA and RNA/TNA Chimeric Duplexes

Author

Anosova, Irina, Kowal, Ewa A, Sisco, Nicholas J, Sau, Sujay, Liao, Jen‐yu, Bala, Saikat, Rozners, Eriks, Egli, Martin, Chaput, John C, and Van Horn, Wade D

Subjects
Genetics, Base Pairing, DNA, RNA, Tetroses, conformation analysis, nucleic acid dynamics, RNA evolution, TNA, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Organic Chemistry
Abstract

Threose nucleic acid (TNA) is an artificial genetic polymer capable of heredity and evolution, and is studied in the context of RNA chemical etiology. It has a four-carbon threose backbone in place of the five-carbon ribose of natural nucleic acids, yet forms stable antiparallel complementary Watson-Crick homoduplexes and heteroduplexes with DNA and RNA. TNA base-pairs more favorably with RNA than with DNA but the reason is unknown. Here, we employed NMR, ITC, UV, and CD to probe the structural and dynamic properties of heteroduplexes of RNA/TNA and DNA/TNA. The results indicate that TNA templates the structure of heteroduplexes, thereby forcing an A-like helical geometry. NMR measurement of kinetic and thermodynamic parameters for individual base pair opening events reveal unexpected asymmetric "breathing" fluctuations of the DNA/TNA helix. The results suggest that DNA is unable to fully adapt to the conformational constraints of the rigid TNA backbone and that nucleic acid breathing dynamics are determined from both backbone and base contributions.

Published
2016

41. The structural diversity of artificial genetic polymers

Author

Anosova, Irina, Kowal, Ewa A, Dunn, Matthew R, Chaput, John C, Van Horn, Wade D, and Egli, Martin

Subjects
Biotechnology, Genetics, Nucleic Acid Conformation, Nucleic Acids, Polymers, Environmental Sciences, Biological Sciences, Information and Computing Sciences, Developmental Biology
Abstract

Synthetic genetics is a subdiscipline of synthetic biology that aims to develop artificial genetic polymers (also referred to as xeno-nucleic acids or XNAs) that can replicate in vitro and eventually in model cellular organisms. This field of science combines organic chemistry with polymerase engineering to create alternative forms of DNA that can store genetic information and evolve in response to external stimuli. Practitioners of synthetic genetics postulate that XNA could be used to safeguard synthetic biology organisms by storing genetic information in orthogonal chromosomes. XNA polymers are also under active investigation as a source of nuclease resistant affinity reagents (aptamers) and catalysts (xenozymes) with practical applications in disease diagnosis and treatment. In this review, we provide a structural perspective on known antiparallel duplex structures in which at least one strand of the Watson-Crick duplex is composed entirely of XNA. Currently, only a handful of XNA structures have been archived in the Protein Data Bank as compared to the more than 100 000 structures that are now available. Given the growing interest in xenobiology projects, we chose to compare the structural features of XNA polymers and discuss their potential to access new regions of nucleic acid fold space.

Published
2016

46. A Low Cost Remote Sensing System Using PC and Stereo Equipment

Author

Campbell, Joel F., Flood, Michael A., Prasad, Narasimha S., and Hodson, Wade D.

Subjects
Physics - Physics Education, Physics - Instrumentation and Detectors
Abstract

A system using a personal computer, speaker, and a microphone is used to detect objects, and make crude measurements using a carrier modulated by a pseudorandom noise (PN) code. This system can be constructed using a personal computer and audio equipment commonly found in the laboratory or at home, or more sophisticated equipment that can be purchased at reasonable cost. We demonstrate its value as an instructional tool for teaching concepts of remote sensing and digital signal processing., Comment: Accepted for publication in American Journal of Physics

Published
2011
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