Arsenite Exposure Suppresses Adipogenesis, Mitochondrial Biogenesis And Thermogenesis Via Autophagy Inhibition In Brown Adipose Tissue,
2019
University of Nebraska- Lincoln & University of Wisconsin School of Medicine and Public Health
Arsenite Exposure Suppresses Adipogenesis, Mitochondrial Biogenesis And Thermogenesis Via Autophagy Inhibition In Brown Adipose Tissue, Jiyoung Bae, Yura Jang, Heejeong Kim, Kalika Mahato, Cameron Schaecher, Issac M. Kim, Eunju Kim, Seung-Hyun Ro
Department of Biochemistry: Faculty Publications
Arsenite, a trivalent form of arsenic, is an element that occurs naturally in the environment. Humans are exposed to high dose of arsenite through consuming arsenite-contaminated drinking water and food, and the arsenite can accumulate in the human tissues. Arsenite induces oxidative stress, which is linked to metabolic disorders such as obesity and diabetes. Brown adipocytes dissipating energy as heat have emerging roles for obesity treatment and prevention. therefore, understanding the pathophysiological role of brown adipocytes can provide effective strategies delineating the link between arsenite exposure and metabolic disorders. Our study revealed that arsenite significantly reduced differentiation of murine brown …
Dna Uptake By Type Iv Filaments,
2019
University of Nebraska - Lincoln
Dna Uptake By Type Iv Filaments, Kurt H. Piepenbrink
Department of Biochemistry: Faculty Publications
Bacterial uptake of DNA through type IV filaments is an essential component of natural competence in numerous gram-positive and gram-negative species. Recent advances in the field have broadened our understanding of the structures used to take up extracellular DNA. Here, we review seminal experiments in the literature describing DNA binding by type IV pili, competence pili and the flp pili of Micrococcus luteus; collectively referred to here as type IV filaments. We compare the current state of the field on mechanisms of DNA uptake for these three appendage systems and describe the current mechanistic understanding of both DNA-binding and …
Downregulation Of A Cyp74 Rubber
Particle Protein Increases Natural
Rubber Production In Parthenium
Argentatum,
2019
USDA, Agricultural Research Service
Downregulation Of A Cyp74 Rubber Particle Protein Increases Natural Rubber Production In Parthenium Argentatum, Dante F. Placido, Niu Dong, Chen Dong, Von Mark V. Cruz, David A. Dierig, Rebecca E. Cahoon, Byung-Guk Kang, Trinh Huynh, Maureen Whalen, Grisel Ponciano, Colleen Mcmahan
Department of Biochemistry: Faculty Publications
We report functional genomics studies of a CYP74 rubber particle protein from Parthenium argentatum, commonly called guayule. Previously identified as an allene oxide synthase (AOS), this CYP74 constitutes the most abundant protein found in guayule rubber particles. Transgenic guayule lines with AOS gene expression down-regulated by RNAi (AOSi) exhibited strong phenotypes that included agricultural traits conducive to enhancing rubber yield. AOSi lines had higher leaf and stem biomass, thicker stembark tissues, increased stem branching and improved net photosynthetic rate. Importantly, the rubber content was significantly increased in AOSi lines compared to the wild-type (WT), vector control and …
Visualizing The Invisible: A Guide To Designing, Printing, And Incorporating Dynamic 3d Molecular Models To Teach Structure–Function Relationships,
2019
University of Nebraska - Lincoln
Visualizing The Invisible: A Guide To Designing, Printing, And Incorporating Dynamic 3d Molecular Models To Teach Structure–Function Relationships, Michelle Howell, Karin Van Dijk, Christine S. Booth, Tomáš Helikar, Brain A. Couch, Rebecca Roston
Department of Biochemistry: Faculty Publications
Understanding the intricate relationship between macromolecular structure and function represents a central goal of undergraduate biology education (1–3). In teaching complex three-dimensional (3D) concepts, instructors typically depend on static two-dimensional (2D) textbook images or computer-based visualization software, which can lead to unintended misconceptions (4–6). While chemical and molecular kits exist, these models cannot handle the size and detail of macromolecules. Consequently, students may graduate in the life sciences without understanding how structure underlies function or acquiring skills to translate between 2D and 3D molecular models (5, 7). Building on recent technological advances, 3D printing (3DP) potentiates an era in which …
Genome‐Wide Association And Genomic Prediction For Biomass
Yield In A Genetically Diverse Miscanthus Sinensis Germplasm
Panel Phenotyped At Five Locations In Asia And North America,
2019
University of Illinois at Urbana-Champaign
Genome‐Wide Association And Genomic Prediction For Biomass Yield In A Genetically Diverse Miscanthus Sinensis Germplasm Panel Phenotyped At Five Locations In Asia And North America, Lindsay V. Clark, Maria S. Dwiyanti, Kossonou G. Anzoua, Joe E. Brummer, Bimal Kumar Ghimire, Katarzyna Glowacka, Megan Hall, Kweon Heo, Xiaoli Jin, Alexander E. Lipka, Junhua Peng, Toshihiko Yamada, Ji Hye Yoo, Chang Yeon Yu, Hua Zhao, Stephen P. Long, Erik J. Sacks
Department of Biochemistry: Faculty Publications
To improve the efficiency of breeding of Miscanthus for biomass yield, there is a need to develop genomics‐assisted selection for this long‐lived perennial crop by relating genotype to phenotype and breeding value across a broad range of environments. We present the first genome‐wide association (GWA) and genomic prediction study of Miscanthus that utilizes multilocation phenotypic data. A panel of 568 Miscanthus sinensis accessions was genotyped with 46,177 single nucleotide polymorphisms (SNPs) and evaluated at one subtropical and five temperate locations over 3 years for biomass yield and 14 yield‐component traits. GWA and genomic prediction were performed separately for different years …
Reintegrating Biology Through The Nexus Of Information And Energy,
2019
Colorado State University - Fort Collins
Reintegrating Biology Through The Nexus Of Information And Energy, Kim L. Hoke, Sara L. Zimmer, Mary Jo Ondrechen, Amedee Des Georges, Adam B. Roddy, Nicole R. Buan, Craig E. Williamson
Department of Biochemistry: Faculty Publications
Recent rapid advances in biology have led to diversification and sub-specialization of many fields, as well as a corresponding explosion of new findings. Advances in tools ranging from genomic techniques and high-resolution imaging to automated ecosystem- and biosphere-level sensors, along with correspondingly advanced analytics, have led to critical new insights that are transforming our understanding of biological systems. One of the consequences of these rapid advances has been accelerated splintering of biology into sub-disciplines with highly focused questions, vocabulary, and techniques. This splintering creates barriers to synergy across fields of biology and hinders the insights that could be gained at …
Trade-Offs Shape Carotenoid-Based Color Variation In Redheaded Pine Sawfly (Neodiprion Lecontei) Larvae,
2019
University of Kentucky
Trade-Offs Shape Carotenoid-Based Color Variation In Redheaded Pine Sawfly (Neodiprion Lecontei) Larvae, Maranda Gaines
Lewis Honors College Capstone Collection
Carotenoids serve various ecological roles in animals including coloration, immune responses, and vision. Carotenoid-derived coloration is greatly emphasized in the literature, particularly relating to mate choice and aposematic warning. However, the trade-offs between the color and non-color functions of carotenoids are not thoroughly explored. In the redheaded pine sawfly (Neodiprion lecontei), some larval populations have yellow pigmentation, using carotenoids derived from their diets for aposematic warning coloration. Other larval populations are white in color, having genetically lost the ability to produce the yellow pigment. Because carotenoids are essential to life functions in both the yellow and white populations, we aim …
Cloning The Vision Related G Protein Transducin For Live Cell Fluorescence Studies,
2019
The University of Akron
Cloning The Vision Related G Protein Transducin For Live Cell Fluorescence Studies, Deanna M. Bowman
Williams Honors College, Honors Research Projects
G coupled protein receptors (GCPR) are one of the largest families of receptors and mediate a variety of biological responses. Rhodopsin is the largest family and aids in sight, the α-subunit of the GCPR complex in extremely important to the activation and downstream signaling effects of GCPR. The α-subunit contains a small trans-domain portion and in this project the sequence of that portion will be inserted into a vector containing a fluorescent tag. These vectors will then be used to collect fluorescent cross correlation spectroscopy or FCCS data. The unit was cloned using assembly methods that include PCR and purification …
Methanogens: Pushing The Boundaries Of Biology,
2018
University of Nebraska-Lincoln
Methanogens: Pushing The Boundaries Of Biology, Nicole R. Buan
Department of Biochemistry: Faculty Publications
Methanogens are anaerobic archaea that grow by producing methane gas. These microbes and their exotic metabolism have inspired decades of microbial physiology research that continues to push the boundary of what we know about how microbes conserve energy to grow. The study of methanogens has helped to elucidate the thermodynamic and bioenergetics basis of life, contributed our understanding of evolution and biodiversity, and has garnered an appreciation for the societal utility of studying trophic interactions between environmental microbes, as methanogens are important in microbial conversion of biogenic carbon into methane, a high-energy fuel. This review discusses the theoretical basis for …
Intra- And Inter-Molecular Signaling In A Cardiac Connexin: Role Of Cytoplasmic Domain Dimerization And Phosphorylation,
2018
University of Nebraska Medical Center
Intra- And Inter-Molecular Signaling In A Cardiac Connexin: Role Of Cytoplasmic Domain Dimerization And Phosphorylation, Andrew J. Trease
Theses & Dissertations
As critical mediators of cell-to-cell communication, gap junctions (GJs) are comprised of membrane channels that directly link the cytoplasm of adjacent coupled cells thereby allowing for the passage of ions, small metabolites, and secondary messengers. Each channel is formed by the apposition of two connexons from adjacent cells, each composed of six connexin (Cx) proteins. Each GJ channel functions to promote signal propagation and synchronization of cells and tissues in organs. Furthermore, GJs are essential for proper propagation of cardiac action potentials from one cell to the next, leading to the coordinated contraction and relaxation of heart muscle powering circulation. …
Methanogens: Pushing The Boundaries Of Biology,
2018
University of Nebraska-Lincoln
Methanogens: Pushing The Boundaries Of Biology, Nicole R. Buan
Department of Biochemistry: Faculty Publications
Methanogens are anaerobic archaea that grow by producing methane gas. These microbes and their exotic metabolism have inspired decades of microbial physiology research that continues to push the boundary of what we know about how microbes conserve energy to grow. The study of methanogens has helped to elucidate the thermodynamic and bioenergetics basis of life, contributed our understanding of evolution and biodiversity, and has garnered an appreciation for the societal utility of studying trophic interactions between environmental microbes, as methanogens are important in microbial conversion of biogenic carbon into methane, a high-energy fuel. This review discusses the theoretical basis for …
Molecular Fossils From Phytoplankton Reveal Secular Pco2 Trend Over The Phanerozoic,
2018
Utrecht University
Molecular Fossils From Phytoplankton Reveal Secular Pco2 Trend Over The Phanerozoic, Caitlyn R. Witkowski, Johan W. H. Weijers, Brian S. Blais, Stefan Schouten, Jaap S. Sinninghe Damsté
Science and Technology Department Faculty Journal Articles
Past changes in the atmospheric concentration of carbon dioxide (PCO2) have had a major impact on earth system dynamics; yet, reconstructing secular trends of past PCO2 remains a prevalent challenge in paleoclimate studies. The current long-term PCO2reconstructions rely largely on the compilation of many different proxies, often with discrepancies among proxies, particularly for periods older than 100 million years (Ma). Here, we reconstructed Phanerozoic PCO2 from a single proxy: the stable carbon isotopic fractionation associated with photosynthesis (Ɛp) that increases as PCO2 increases. This concept has been widely applied to alkenones, but here, we …
A Crispr Platform For Rapid And Inducible Genome Editing In Human Non-Small Cell Lung Cancer Cells,
2018
Murray State University
A Crispr Platform For Rapid And Inducible Genome Editing In Human Non-Small Cell Lung Cancer Cells, Lloyd Bartley
Posters-at-the-Capitol
Non-small cell lung cancer (NSCLC) accounts for about 85% of lung cancer, which is the leading cause of cancer death in the world. High mortality rate associated with NSCLC is partially attributed to the limited understanding of NSCLC as well as ineffective therapeutic treatments. The initiation and progression of NSCLC involves genetic changes leading to alterations in the control of tissue development and homeostatic maintenance. Better knowledge about these genetic abnormalities is imperative for developing new chemotherapeutic drugs for NSCLC. Recent research demonstrates that the expression of paraoxonase 2 (PON2), a lactonase/arylesterase with anti-oxidant properties, are markedly enhanced in cancer …
Combined High-Speed Single Particle Tracking Of Membrane Proteins And Super-Resolution Of Membrane-Associated Structures,
2018
University of New Mexico
Combined High-Speed Single Particle Tracking Of Membrane Proteins And Super-Resolution Of Membrane-Associated Structures, Hanieh Mazloom Farsibaf, Keith A. Lidke
Shared Knowledge Conference
Many experiments have shown that the diffusive motion of lipids and membrane proteins are slower on the cell surface than those in artificial lipid bilayers or blebs. One hypothesis that may partially explain this mystery is the effect of the cytoskeleton structures on the protein dynamics. A model proposed by Kusumi [1] is the Fence-Picket Model which describes the cell membrane as a set of compartment regions, each ~ 10 to 200 nm in size, created by direct or indirect interaction of lipids and proteins with actin filaments just below the membrane. To test this hypothesis, we have assembled a …
Identifying Functional Components Of The Endoplasmic Reticulum Quality Control And Degradation Factor Edem1,
2018
University of Massachusetts Amherst
Identifying Functional Components Of The Endoplasmic Reticulum Quality Control And Degradation Factor Edem1, Lydia Lamriben
Doctoral Dissertations
The ER Degradation-Enhancing Mannosidase-Like protein 1 (EDEM1) is a critical endoplasmic reticulum (ER) quality control factor involved in identifying and directing non-native proteins to the ER-associated protein degradation (ERAD) pathway. However, its recognition and binding properties have remained enigmatic since its discovery. Here we provide evidence for an additional redox-sensitive interaction between EDEM1 and Z/NHK that requires the presence of the single Cys on the α-1 antitrypsin ERAD clients. Moreover, this Cys-dependent interaction is necessary when the proteins are isolated under stringent detergent conditions, ones in which only strong covalent interactions can be sustained. This interaction is inherent to the …
Combining Mass Spectrometry And Nmr Improves Metabolite Detection And Annotation,
2018
University of Nebraska - Lincoln
Combining Mass Spectrometry And Nmr Improves Metabolite Detection And Annotation, Fatema Bhinderwala, Nishikant Wase, Concetta Dirusso, Robert Powers
Department of Biochemistry: Faculty Publications
Despite inherent complementarity, nuclear magnetic resonance spectroscopy (NMR) and mass spectrometry (MS) are routinely separately employed to characterize metabolomics samples. More troubling is the erroneous view that metabolomics is better served by exclusively utilizing MS. Instead, we demonstrate the importance of combining NMR and MS for metabolomics by using small chemical compound-treatments of Chlamydomonas reinhardtii as an illustrative example. A total of 102 metabolites were detected (82 by GC-MS, 20 by NMR and 22 by both techniques). Out of these 47 metabolites of interest were identified, where 14 metabolites were uniquely identified by NMR and 16 metabolites were uniquely identified …
Mouse Genome-Wide Association Studies And Systems Genetics Uncover The Genetic Architecture Associated With Hepatic Pharmacokinetic And Pharmacodynamic Properties Of A Constrained Ethyl Antisense Oligonucleotide Targeting Malat1,
2018
Carlsbad, California
Mouse Genome-Wide Association Studies And Systems Genetics Uncover The Genetic Architecture Associated With Hepatic Pharmacokinetic And Pharmacodynamic Properties Of A Constrained Ethyl Antisense Oligonucleotide Targeting Malat1, Elaine Pirie, Shayoni Ray, Calvin Pan, Wuxia Fu, Andrew F. Powers, Danielle Polikoff, Colton M. Miller, Katrina M. Kudrna, Edward N. Harris, Aldons J. Lusis, Rosanne M. Crooke, Richard G. Lee
Department of Biochemistry: Faculty Publications
Antisense oligonucleotides (ASOs) have demonstrated variation of efficacy in patient populations. This has prompted our investigation into the contribution of genetic architecture to ASO pharmacokinetics (PK) and pharmacodynamics (PD). Genome wide association (GWA) and transcriptomic analysis in a hybrid mouse diversity panel (HMDP) were used to identify and validate novel genes involved in the uptake and efficacy of a single dose of a Malat1 constrained ethyl (cEt) modified ASO. The GWA of the HMDP identified two significant associations on chromosomes 4 and 10 with hepatic Malat1 ASO concentrations. Stabilin 2 (Stab2) and vesicle associated membrane protein 3 ( …
Feronia-Related Receptor Kinase 7 And Feronia And Their Role In Receiving And Transducing Signals,
2018
University of Massachusetts Amherst
Feronia-Related Receptor Kinase 7 And Feronia And Their Role In Receiving And Transducing Signals, David Vyshedsky
Masters Theses
Receptor kinases (RKs) are transmembrane proteins that have been shown to regulate an array of important processes in A. thaliana, including polar cell growth, plant reproduction, and many other plant growth processes. In this thesis, I examine RECEPTOR KINASE 7 (RK7) and FERONIA (FER), two closely related transmembrane RKs, and their effects on plant reproduction. The RK7 gene when knocked out (rk7) in conjunction with FER resulted in delayed plant growth, decreased seed yield, and a lower percentage of the seeds germinating as compared to the single FER knockout. Transgenic plants with GUS reporter driven by RK7 promoter …
Phenotypic Screening Identifies Brefeldin A/Ascotoxin
As An Inducer Of Lipid Storage In The Algae
Chlamydomonas Reinhardtii,
2018
University of Nebraska-Lincoln
Phenotypic Screening Identifies Brefeldin A/Ascotoxin As An Inducer Of Lipid Storage In The Algae Chlamydomonas Reinhardtii, Nishikant Wase, Boqiang Tu, Paul N. Black, Concetta C. Dirusso
Nishikant Wase
The use of microalgae as a biofuel feedstock is highly desired, but current methods to induce lipid accumulation cause severe stress responses that limit biomass and, thus oil yield. To address these issues, a high throughput screening (HTS) method was devised to identify chemical inducers of growth and lipid accumulation. Optimization was performed to determine the most effective cell density, DMSO and Nile Red (NR) concentrations to monitor growth and lipid accumulation. The method was tested using 1717 compounds from National Cancer Institute (NCI) Diversity Set III and Natural Products Set II in Chlamydomonas reinhardtii. Cells were inoculated at …
The Distinctive Regulatory Mechanisms Of Bacterial Acetyl-Coa Carboxylase,
2018
Louisiana State University and Agricultural and Mechanical College
The Distinctive Regulatory Mechanisms Of Bacterial Acetyl-Coa Carboxylase, Alexandra Leigh Evans
LSU Doctoral Dissertations
Metabolic Regulation is a complex system used to control cellular metabolism in response to conditions in the cell’s environment. For most enzymes, the cell can rely upon a minimal amount of regulation; however, critical enzymes, such as acetyl-CoA carboxylase, must be regulated at multiple levels. Acetyl-CoA carboxylase catalyzes the first committed step in fatty acid synthesis. In bacteria, acetyl-CoA carboxylase forms a complex of three subunits–biotin carboxylase, biotin carboxyl carrier protein, and carboxyltransferase–which catalyze the carboxylation of acetyl-CoA to form malonyl-CoA via two half-reactions. In the first half-reaction, biotin covalently linked to biotin carboxyl carrier protein is carboxylated by biotin …
