Biochemistry Commons^™

Phytochrome B Integrates Light And Temperature Signals In Arabidopsis, Martina Legris, Cornelia Klose, E Sethe Burgie, Cecilia Costigliolo Rojas Rojas, Maximiliano Neme, Andreas Hiltbrunner, Philip A. Wigge, Eberhard Schäfer, Richard D. Vierstra, Jorge J. Casal

Biology Faculty Publications & Presentations

Ambient temperature regulates many aspects of plant growth and development, but its sensors are unknown. Here, we demonstrate that the phytochrome B (phyB) photoreceptor participates in temperature perception through its temperature-dependent reversion from the active Pfr state to the inactive Pr state. Increased rates of thermal reversion upon exposing Arabidopsis seedlings to warm environments reduce both the abundance of the biologically active Pfr-Pfr dimer pool of phyB and the size of the associated nuclear bodies, even in daylight. Mathematical analysis of stem growth for seedlings expressing wild-type phyB or thermally stable variants under various combinations of light and temperature revealed …

Purification Of 26s Proteasomes And Their Subcomplexes From Plants, Richard S. Marshall, David C. Gemperline, Richard D. Vierstra

Biology Faculty Publications & Presentations

The 26S proteasome is a highly dynamic, multisubunit, ATP-dependent protease that plays a central role in cellular housekeeping and many aspects of plant growth and development by degrading aberrant polypeptides and key cellular regulators that are first modified by ubiquitin. Although the 26S proteasome was originally enriched from plants over 30 years ago, only recently have significant advances been made in our ability to isolate and study the plant particle. Here, we describe two robust methods for purifying the 26S proteasome and its subcomplexes from Arabidopsis thaliana; one that involves conventional chromatography techniques to isolate the complex from wild-type …

Functions Of The Dna Polymerase Delta Replicase In Lagging Strand Replication, Joseph L. Stodola

Arts & Sciences Electronic Theses and Dissertations

The work described in this dissertation focuses on several aspects of DNA replication in the model organism Saccharomyces cerevisiae, with particular attention paid to the function of the replicative DNA polymerase delta (Pol ), and its functions in Okazaki fragment synthesis and maturation. The first major theme of this dissertation is investigating the role that metal binding motifs play in the structure and function of Pol and other budding yeast polymerases. First, I discuss the role that two metal binding motifs within the catalytic subunit of Pol play in creating the multi-subunit polymerase complex and in promoting crucial interactions with …

Autophagic Turnover Of Inactive 26s Proteasomes In Yeast Is Directed By The Ubiquitin Receptor Cue5 And The Hsp42 Chaperone, Richard S. Marshall, Fionn Mcloughlin, Richard D. Vierstra

Biology Faculty Publications & Presentations

Highlights

• The yeast 26S proteasome is degraded by Atg8-mediated autophagy
• Nitrogen starvation and inactivation stimulate proteaphagy via distinct pathways
• Proteasome inhibition is accompanied by extensive ubiquitylation of the complex
• Proteaphagy engages the Cue5 autophagy receptor and the Hsp42 chaperone

Summary

The autophagic clearance of 26S proteasomes (proteaphagy) is an important homeostatic mechanism within the ubiquitin system that modulates proteolytic capacity and eliminates damaged particles. Here, we define two proteaphagy routes in yeast that respond to either nitrogen starvation or particle inactivation. Whereas the core autophagic machineries required for Atg8 lipidation and vesiculation are essential for both routes, the upstream Atg1 …

Metal Selectivity And Acquisition By The Yersiniabactin Metallophore System In Escherichia Coli, Eun-Ik Koh

Arts & Sciences Electronic Theses and Dissertations

Urinary tract infections (UTI) are one of the most common bacterial infections, of which, the majority are caused by uropathogenic Escherichia coli (UPEC). Many bacterial pathogens including UPEC synthesize and secrete chemically diverse metabolites called siderophores, which are classically defined by their ability of bind and deliver iron(III), an essential nutrient, to pathogens during infections. UPEC isolates can express multiple siderophore systems, of which, the virulence-associated siderophore yersiniabactin (Ybt) binds to both iron(III) and copper(II) during urinary tract infections. In this thesis we show that Ybt interacts with multiple physiologic transition metals and acts as a metallophore system to deliver …

Mechanism Of Calcium-Dependent Chloride Channel Activation By The Secreted Regulator Clca1, Zeynep Yurtsever

Arts & Sciences Electronic Theses and Dissertations

The calcium-activated chloride channel regulator (CLCA) proteins are key signaling molecules, which are implicated in various diseases through their tissue-specific expression. Human CLCA1 protein, overexpressed in airway epithelia under pathophysiological conditions, is centrally involved in the manifestation of IL-13-driven mucus cell metaplasia (MCM), a hallmark feature of asthma and chronic obstructive pulmonary disease (COPD), for which there are currently no available therapeutics. Elucidating the poorly understood molecular basis of CLCA1 function is thus required to design specific inhibitors of CLCA1 activity to treat MCM in asthma and COPD.

Originally misannotated as ion channels, CLCA proteins are secreted soluble proteins that …

Structure And Dynamics Of A Small Multidrug Resistance Transporter, Emre, Chao Wu

Arts & Sciences Electronic Theses and Dissertations

EmrE is a small multidrug resistance transporter in E. coli. It effluxes a wide range of antibiotics, thus contributing to the evolving epidemic of drug resistance. Despite its small size, EmrE is a fully functional transporter making it an ideal model system for a comprehensive study of the multidrug transport mechanism. In the transport cycle, EmrE must alternate between outward- and inward-facing conformations upon substrate binding to translocate substrates across the membrane. High-resolution structures of EmrE in complex with substrates facing different sides of the membrane will shed light on the coupling mechanism between substrate binding and transport. However, the …

Modulation Of Human And Malarial Glucose Transporter Activity By Lipids And Small Molecules, Thomas E. Kraft

Arts & Sciences Electronic Theses and Dissertations

Glucose transport is a fundamentally important process for maintenance and regulation of cellular metabolism in all kingdoms of life. Despite their high importance, detailed examination of glucose transport proteins in humans and parasites through biochemical, biophysical and structural properties was greatly hampered by the inability to express, purify and reconstitute sufficient amounts of active transporters. This dissertation describes strategies that led to the first successful expression, purification, stabilization and functional reconstitution of active insulin-responsive GLUT4 transport protein. Furthermore, the work described herein establishes a requirement of anionic and conical lipids for full activity of the mammalian glucose transporters GLUT3 and …

A Parallel G Quadruplex-Binding Protein Regulates The Boundaries Of Dna Elimination Events Of Tetrahymena Thermophila, Christine M. Carle, Hani S. Zaher, Douglas L. Chalker

Biology Faculty Publications & Presentations

Guanine (G)-rich DNA readily forms four-stranded quadruplexes in vitro, but evidence for their participation in genome regulation is limited. We have identified a quadruplex-binding protein, Lia3, that controls the boundaries of germline-limited, internal eliminated sequences (IESs) of Tetrahymena thermophila. Differentiation of this ciliate’s somatic genome requires excision of thousands of IESs, targeted for removal by small-RNA-directed heterochromatin formation. In cells lacking LIA3 (ΔLIA3), the excision of IESs bounded by specific G-rich polypurine tracts was impaired and imprecise, whereas the removal of IESs without such controlling sequences was unaffected. We found that oligonucleotides containing these polypurine tracts formed …