Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 10 of 10
Full-Text Articles in Life Sciences
Mechanistic Insights Into Glucan Phosphatase Activity Against Polyglucan Substrates, David A. Meekins, Madushi Raththagala, Kyle D. Auger, Benjamin D. Turner, Diana Santelia, Oliver Kötting, Matthew S. Gentry, Craig W. Vander Kooi
Mechanistic Insights Into Glucan Phosphatase Activity Against Polyglucan Substrates, David A. Meekins, Madushi Raththagala, Kyle D. Auger, Benjamin D. Turner, Diana Santelia, Oliver Kötting, Matthew S. Gentry, Craig W. Vander Kooi
Molecular and Cellular Biochemistry Faculty Publications
Glucan phosphatases are central to the regulation of starch and glycogen metabolism. Plants contain two known glucan phosphatases, Starch EXcess4 (SEX4) and Like Sex Four2 (LSF2), which dephosphorylate starch. Starch is water-insoluble and reversible phosphorylation solubilizes its outer surface allowing processive degradation. Vertebrates contain a single known glucan phosphatase, laforin, that dephosphorylates glycogen. In the absence of laforin, water-soluble glycogen becomes insoluble, leading to the neurodegenerative disorder Lafora Disease. Because of their essential role in starch and glycogen metabolism glucan phosphatases are of significant interest, yet a comparative analysis of their activities against diverse glucan substrates has not been established. …
Thermodynamics Of Binding By Calmodulin Correlates With Target Peptide Α-Helical Propensity, Tori B. Dunlap, Jessime M. Kirk, Emily A. Pena, Meghan S. Yoder, Trevor P. Creamer
Thermodynamics Of Binding By Calmodulin Correlates With Target Peptide Α-Helical Propensity, Tori B. Dunlap, Jessime M. Kirk, Emily A. Pena, Meghan S. Yoder, Trevor P. Creamer
Center for Structural Biology Faculty Publications
In this work, we have examined contributions to the thermodynamics of calmodulin (CaM) binding from the intrinsic propensity for target peptides to adopt an α-helical conformation. CaM target sequences are thought to commonly reside in disordered regions within proteins. Using the ability of TFE to induce α-helical structure as a proxy, the six peptides studied range from having almost no propensity to adopt α-helical structure through to a very high propensity. This despite all six peptides having similar CaM-binding affinities. Our data indicate there is some correlation between the deduced propensities and the thermodynamics of CaM binding. This finding implies …
Fus-Nls/Transportin 1 Complex Structure Provides Insights Into The Nuclear Targeting Mechanism Of Fus And The Implications In Als, Chunyan Niu, Jiayu Zhang, Feng Gao, Liuqing Yang, Minze Jia, Haining Zhu, Weimin Gong
Fus-Nls/Transportin 1 Complex Structure Provides Insights Into The Nuclear Targeting Mechanism Of Fus And The Implications In Als, Chunyan Niu, Jiayu Zhang, Feng Gao, Liuqing Yang, Minze Jia, Haining Zhu, Weimin Gong
Molecular and Cellular Biochemistry Faculty Publications
The C-terminal nuclear localization sequence of FUsed in Sarcoma (FUS-NLS) is critical for its nuclear import mediated by transportin (Trn1). Familial amyotrophic lateral sclerosis (ALS) related mutations are clustered in FUS-NLS. We report here the structural, biochemical and cell biological characterization of the FUS-NLS and its clinical implications. The crystal structure of the FUS-NLS/Trn1 complex shows extensive contacts between the two proteins and a unique α-helical structure in the FUS-NLS. The binding affinity between Trn1 and FUS-NLS (wide-type and 12 ALS-associated mutants) was determined. As compared to the wide-type FUS-NLS (K(D) = 1.7 nM), each ALS-associated mutation caused a decreased …
Role Of Sequence And Structure Of The Hendra Fusion Protein Fusion Peptide In Membrane Fusion, Everett Clinton Smith, Sonia M. Gregory, Lukas K. Tamm, Trevor P. Creamer, Rebecca Ellis Dutch
Role Of Sequence And Structure Of The Hendra Fusion Protein Fusion Peptide In Membrane Fusion, Everett Clinton Smith, Sonia M. Gregory, Lukas K. Tamm, Trevor P. Creamer, Rebecca Ellis Dutch
Molecular and Cellular Biochemistry Faculty Publications
Viral fusion proteins are intriguing molecular machines that undergo drastic conformational changes to facilitate virus-cell membrane fusion. During fusion a hydrophobic region of the protein, termed the fusion peptide (FP), is inserted into the target host cell membrane, with subsequent conformational changes culminating in membrane merger. Class I fusion proteins contain FPs between 20 and 30 amino acids in length that are highly conserved within viral families but not between. To examine the sequence dependence of the Hendra virus (HeV) fusion (F) protein FP, the first eight amino acids were mutated first as double, then single, alanine mutants. Mutation of …
Active Site Mutations Change The Cleavage Specificity Of Neprilysin., Travis Sexton, Lisa J. Hitchcook, David W. Rodgers, Luke H. Bradley, Louis B. Hersh
Active Site Mutations Change The Cleavage Specificity Of Neprilysin., Travis Sexton, Lisa J. Hitchcook, David W. Rodgers, Luke H. Bradley, Louis B. Hersh
Molecular and Cellular Biochemistry Faculty Publications
Neprilysin (NEP), a member of the M13 subgroup of the zinc-dependent endopeptidase family is a membrane bound peptidase capable of cleaving a variety of physiological peptides. We have generated a series of neprilysin variants containing mutations at either one of two active site residues, Phe563 and Ser546. Among the mutants studied in detail we observed changes in their activity towards leucine5-enkephalin, insulin B chain, and amyloid β1-40. For example, NEPF563I displayed an increase in preference towards cleaving leucine5-enkephalin relative to insulin B chain, while mutant NEPS546E was less discriminating …
Structural Basis For Activation Of Calcineurin By Calmodulin, Julie Rumi-Masante, Farai I. Rusinga, Terrence E. Lester, Tori B. Dunlap, Todd D. Williams, A. Keith Dunker, David D. Weis, Trevor P. Creamer
Structural Basis For Activation Of Calcineurin By Calmodulin, Julie Rumi-Masante, Farai I. Rusinga, Terrence E. Lester, Tori B. Dunlap, Todd D. Williams, A. Keith Dunker, David D. Weis, Trevor P. Creamer
Center for Structural Biology Faculty Publications
The highly conserved phosphatase calcineurin (CaN) plays vital roles in numerous processes including T-cell activation, development and function of the central nervous system, and cardiac growth. It is activated by the calcium sensor calmodulin (CaM). CaM binds to a regulatory domain (RD) within CaN, causing a conformational change that displaces an autoinhibitory domain (AID) from the active site, resulting in activation of the phosphatase. This is the same general mechanism by which CaM activates CaM-dependent protein kinases. Previously published data have hinted that the RD of CaN is intrinsically disordered. In this work, we demonstrate that the RD is unstructured …
Identification Of The Allosteric Regulatory Site Of Insulysin, Nicholas Noinaj, Sonia K. Bhasin, Eun Suk Song, Kirsten E. Scoggin, Maria A. Juliano, Luiz Juliano, Louis B. Hersh, David W. Rodgers
Identification Of The Allosteric Regulatory Site Of Insulysin, Nicholas Noinaj, Sonia K. Bhasin, Eun Suk Song, Kirsten E. Scoggin, Maria A. Juliano, Luiz Juliano, Louis B. Hersh, David W. Rodgers
Molecular and Cellular Biochemistry Faculty Publications
BACKGROUND: Insulin degrading enzyme (IDE) is responsible for the metabolism of insulin and plays a role in clearance of the Aβ peptide associated with Alzheimer's disease. Unlike most proteolytic enzymes, IDE, which consists of four structurally related domains and exists primarily as a dimer, exhibits allosteric kinetics, being activated by both small substrate peptides and polyphosphates such as ATP.
PRINCIPAL FINDINGS: The crystal structure of a catalytically compromised mutant of IDE has electron density for peptide ligands bound at the active site in domain 1 and a distal site in domain 2. Mutating residues in the distal site eliminates allosteric …
Systematic Two-Hybrid And Comparative Proteomic Analyses Reveal Novel Yeast Pre-Mrna Splicing Factors Connected To Prp19, Liping Ren, Janel R. Mclean, Tony R. Hazbun, Stanley Fields, Craig Vander Kooi, Melanie D. Ohi, Kathleen L. Gould
Systematic Two-Hybrid And Comparative Proteomic Analyses Reveal Novel Yeast Pre-Mrna Splicing Factors Connected To Prp19, Liping Ren, Janel R. Mclean, Tony R. Hazbun, Stanley Fields, Craig Vander Kooi, Melanie D. Ohi, Kathleen L. Gould
Molecular and Cellular Biochemistry Faculty Publications
Prp19 is the founding member of the NineTeen Complex, or NTC, which is a spliceosomal subcomplex essential for spliceosome activation. To define Prp19 connectivity and dynamic protein interactions within the spliceosome, we systematically queried the Saccharomyces cerevisiae proteome for Prp19 WD40 domain interaction partners by two-hybrid analysis. We report that in addition to S. cerevisiae Cwc2, the splicing factor Prp17 binds directly to the Prp19 WD40 domain in a 1:1 ratio. Prp17 binds simultaneously with Cwc2 indicating that it is part of the core NTC complex. We also find that the previously uncharacterized protein Urn1 (Dre4 in Schizosaccharomyces pombe) directly …
A Monomeric Variant Of Insulin Degrading Enzyme (Ide) Loses Its Regulatory Properties, Eun Suk Song, David W. Rodgers, Louis B. Hersh
A Monomeric Variant Of Insulin Degrading Enzyme (Ide) Loses Its Regulatory Properties, Eun Suk Song, David W. Rodgers, Louis B. Hersh
Molecular and Cellular Biochemistry Faculty Publications
BACKGROUND: Insulin degrading enzyme (IDE) is a key enzyme in the metabolism of both insulin and amyloid beta peptides. IDE is unique in that it is subject to allosteric activation which is hypothesized to occur through an oligomeric structure.
METHODOLOGY/PRINCIPAL FINDINGS: IDE is known to exist as an equilibrium mixture of monomers, dimers, and higher oligomers, with the dimer being the predominant form. Based on the crystal structure of IDE we deleted the putative dimer interface in the C-terminal region, which resulted in a monomeric variant. Monomeric IDE retained enzymatic activity, however instead of the allosteric behavior seen with wild …
Evidence That Talin Alternative Splice Variants From Ciona Intestinalis Have Different Roles In Cell Adhesion, Richard H. Singiser, Richard O. Mccann
Evidence That Talin Alternative Splice Variants From Ciona Intestinalis Have Different Roles In Cell Adhesion, Richard H. Singiser, Richard O. Mccann
Molecular and Cellular Biochemistry Faculty Publications
BACKGROUND: Talins are large, modular cytoskeletal proteins found in animals and amoebozoans such as Dictyostelium discoideum. Since the identification of a second talin gene in vertebrates, it has become increasingly clear that vertebrate Talin1 and Talin2 have non-redundant roles as essential links between integrins and the actin cytoskeleton in distinct plasma membrane-associated adhesion complexes. The conserved C-terminal I/LWEQ module is important for talin function. This structural element mediates the interaction of talins with F-actin. The I/LWEQ module also targets mammalian Talin1 to focal adhesion complexes, which are dynamic multicomponent assemblies required for cell adhesion and cell motility. Although Talin1 is …