Other Biochemistry, Biophysics, and Structural Biology Commons^™

The Intestinal Copper Exporter Cua-1 Is Required For Systemic Copper Homeostasis In Caenorhabditis Elegans, Haarin Chun, Anuj Kumar Sharma, Jaekwon Lee, Jefferson Chan, Shang Jia, Byung-Eun Kim

Department of Biochemistry: Faculty Publications

Copper plays key catalytic and regulatory roles in biochemical processes essential for normal growth, development, and health. Defects in copper metabolism cause Menkes and Wilson’s disease, myeloneuropathy, and cardiovascular disease and are associated with other pathophysiological states. Consequently, it is critical to understand the mechanisms by which organisms control the acquisition, distribution, and utilization of copper. The intestinal enterocyte is a key regulatory point for copper absorption into the body; however, the mechanisms by which intestinal cells transport copper to maintain organismal copper homeostasis are poorly understood. Here, we identify a mechanism by which organismal copper homeostasis is maintained by …

Structural Determinants Allowing Transferase Activity In Sensitive To Freezing 2, Classified As A Family I Glycosyl Hydrolase, Rebecca Roston, Kun Wang, Leslie A. Kuhn, Christoph Benning

Department of Biochemistry: Faculty Publications

Background: SENSITIVE TO FREEZING 2 (SFR2) is classified as a glycosyl hydrolase, and by using glycosyltransferase activity, it modifies membrane lipids to promote freeze tolerance.

Results: Although the active site of SFR2 is identical to hydrolases, adjacent loop regions contribute to its transferase activity.

Conclusion: Transferase activity evolved by modifications external to the core catalytic site.

Significance: Defined structure-function relationships will inform engineering of transferases and freeze tolerance.

Sending Out An Sos: Mitochondria As A Signaling Hub, Iryna Bohovych, Oleh Khalimonchuk

Department of Biochemistry: Faculty Publications

Normal cellular physiology is critically dependent on numerous mitochondrial activities including energy conversion, cofactor and precursor metabolite synthesis, and regulation of ion and redox homeostasis. Advances in mitochondrial research during the last two decades provide solid evidence that these organelles are deeply integrated with the rest of the cell and multiple mechanisms are in place to monitor and communicate functional states of mitochondria. In many cases, however, the exact molecular nature of various mitochondria-to-cell communication pathways is only beginning to emerge. Here, we review various signals emitted by distressed or dysfunctional mitochondria and the stress-responsive pathways activated in response to …

Loss Of Exogenous Androgen Dependence By Prostate Tumor Cells Is Associated With Elevated Glucuronidation Potential, Brenna M. Zimmer, Michelle E. Howell, Qin Wei, Linlin Ma, Trevor Romsdahl, Eileen G. Loughman, Jennifer E. Markham, Javier Seravalli, Joseph J. Barycki, Melanie A. Simpson

Department of Biochemistry: Faculty Publications

Prostate epithelial cells control the potency and availability of androgen hormones in part by inactivation and elimination. UDP-glucose dehydrogenase (UGDH) catalyzes the NAD⁺-dependent oxidation of UDP-glucose to UDP-glucuronate, an essential precursor for androgen inactivation by the prostate glucuronidation enzymes UGT2B15 and UGT2B17. UGDH expression is androgen stimulated, which increases the production of UDP-glucuronate, and fuels UGT-catalyzed glucuronidation. In this study, we compared the glucuronidation potential and its impact on androgen-mediated gene expression in an isogenic LNCaP model for androgen dependent versus castration resistant prostate cancer. Despite significantly lower androgen-glucuronide output, LNCaP 81 castration resistant tumor cells expressed higher …

Small-Angle X-Ray Scattering Studies Of The Oligomeric State And Quaternary Structure Of The Trifunctional Proline Utilization A (Puta) Flavoprotein From Escherichia Coli, Ranjan K. Singh, John D. Larson, Weidong Zhu, Robert P. Rambo, Greg L. Hura, Donald F. Becker, John J. Tanner

Department of Biochemistry: Faculty Publications

Background: Trifunctional proline utilization A (PutA) proteins are multifunctional flavoproteins that catalyze two reactions and repress transcription of the put regulon.

Results: PutA from Escherichia coli is a V-shaped dimer, with the DNA-binding domain mediating dimerization.

Conclusion: Oligomeric state and quaternary structures are not conserved by PutAs.

Significance: The first three-dimensional structural information for any trifunctional PutA is reported.

Methods For Detecting Microbial Methane Production And Consumption By Gas Chromatography, Jared T. Aldridge, Jennie L. Catlett, Megan L. Smith, Nicole R. Buan

Department of Biochemistry: Faculty Publications

Methane is an energy-dense fuel but is also a greenhouse gas 25 times more detrimental to the environment than CO2. Methane can be produced abiotically by serpentinization, chemically by Sabatier or Fisher-Tropsh chemistry, or biotically by microbes (Berndt et al., 1996; Horita and Berndt, 1999; Dry, 2002; Wolfe, 1982; Thauer, 1998; Metcalf et al., 2002). Methanogens are anaerobic archaea that grow by producing methane gas as a metabolic byproduct (Wolfe, 1982; Thauer, 1998). Our lab has developed and optimized three different gas chromatograph-utilizing assays to characterize methanogen metabolism (Catlett et al., 2015). Here we describe the end point and kinetic …

Stabilin-1 And Stabilin-2 Are Specific Receptors For The Cellular Internalization Of Phosphorothioate-Modified Antisense Oligonucleotides (Asos) In The Liver, Colton M. Miller, Aaron J. Donnerr, Emma E. Blank, Andrew W. Egger, Brianna M. Kellar, Michael E. Østergaard, Punit P. Seth, Edward N. Harris

Department of Biochemistry: Faculty Publications

Phosphorothioate (PS)-modified antisense oligonucleotides (ASOs) have been extensively investigated over the past three decades as pharmacological and therapeutic agents. One second generation ASO, Kynamro^TM, was recently approved by the FDA for the treatment of homozygous familial hypercholesterolemia and over 35 second generation PS ASOs are at various stages of clinical development. In this report, we show that the Stabilin class of scavenger receptors, which were not previously thought to bind DNA, do bind and internalize PS ASOs. With the use of primary cells from mouse and rat livers and recombinant cell lines each expressing Stabilin-1 and each isoform …

Chloroplast Membrane Remodeling During Freezing Stress Is Accompanied By Cytoplasmic Acidification Activating Sensitive To Freezing 2, Allison C. Barnes, Christoph Benning, Rebecca Roston

Department of Biochemistry: Faculty Publications

Low temperature is a seasonal abiotic stress which restricts native plant ranges and crop distributions. Two types of low temperature stress can be distinguished: chilling and freezing. Much work has been done on the mechanisms by which chilling is sensed, but relatively little is known about how plants sense freezing. Recently, SENSITIVE TO FREEZING 2 (SFR2) was identified as a protein which responds in a non-transcriptional manner to freezing. Here, we investigate the cellular conditions which allow SFR2 activation. Using a combination of isolated organelle, whole tissue and whole plant assays, we provide evidence that SFR2 is activated by changes …

Caloric Restriction Of Db/Db Mice Reverts Hepatic Steatosis And Body Weight With Divergent Hepatic Metabolism, Kyung Eun Kim, Youngae Jung, Soonki Min, Miso Nam, Rok Won Heo, Byeong Tak Jeon, Dae Hyun Song, Chin-Ok Yi, Eun Ae Jeong, Hwajin Kim, Jeonghyun Kim, Seon-Yong Jeong, Woori Kwak, Do Hyun Ryu, Tamas L. Horvath, Gu Seob Roh, Geum-Sook Hwang

Department of Biochemistry: Faculty Publications

Non-alcoholic fatty liver disease (NAFLD) is one of the most frequent causes of liver disease and its prevalence is a serious and growing clinical problem. Caloric restriction (CR) is commonly recommended for improvement of obesity-related diseases such as NAFLD. However, the effects of CR on hepatic metabolism remain unknown. We investigated the effects of CR on metabolic dysfunction in the liver of obese diabetic db/db mice. We found that CR of db/db mice reverted insulin resistance, hepatic steatosis, body weight and adiposity to those of db/m mice. H-NMR- and UPLC-QTOF-MS-based metabolite profiling data showed significant metabolic alterations related to lipogenesis, …

Inhibiting Hexamer Disassembly Of Human Udp-Glucose Dehydrogenase By Photoactivated Amino Acid Crosslinking, George Grady, Ashley Thelen, Jaleen Albers, Tong Ju, Jiantao Guo, Joseph J. Barycki, Melanie A. Simpson

Department of Biochemistry: Faculty Publications

The enzyme UDP-glucose dehydrogenase (UGDH) catalyzes the reaction of UDP-glucose to UDP-glucuronate through two successive NAD⁺-dependent oxidation steps. Human UGDH apoprotein purifies as a mixture of dimeric and hexameric species. Addition of substrate and cofactor stabilizes the oligomeric state to primarily the hexameric form. To determine if the dynamic conformations of hUGDH are required for catalytic activity, we used site-specific unnatural amino acid incorporation to facilitate crosslinking of monomeric subunits into predominantly obligate oligomeric species. Optimal crosslinking was achieved by encoding p-benzoyl-L-phenylalanine at position 458, normally a glutamine located within the dimer-dimer interface, and exposing to long wavelength …

Cadmium And Secondary Structure-Dependent Function Of A Degron In The Pca1p Cadmium Exporter, Nathan Smith, Wenzhong Wel, Miaoyun Zhao, Xiaojuan Quin, Javier Seravalli, Heejeong Kim, Jaekwon Lee

Department of Biochemistry: Faculty Publications

Protein turnover is a critical cellular process regulating biochemical pathways and destroying terminally misfolded or damaged proteins. Pca1p, a cadmium exporter in the yeast Saccharomyces cerevisiae, is rapidly degraded by the endoplasmic reticulum-associated degradation (ERAD) system via a cis-acting degron that exists at the 250–350 amino acid region of Pca1p and is transferable to other proteins to serve as a degradation signal. Cadmium stabilizes Pca1p in a manner dependent on the degron. This suggested that cadmium-mediated masking of the degron impedes its interaction with the molecular factors involved in the ERAD. The characteristics and mechanisms of action of the …

Atomic Resolution Experimental Phase Information Reveals Extensive Disorder And Bound 2-Methyl-2,4-Pentanediol In Ca2+-Calmodulin, Jiusheng Lin, Henry Van Den Bedem, Axel T. Brunger, Mark A. Wilson

Department of Biochemistry: Faculty Publications

Calmodulin (CaM) is the primary calcium signaling protein in eukaryotes and has been extensively studied using various biophysical techniques. Prior crystal structures have noted the presence of ambiguous electron density in both hydrophobic binding pockets of Ca²⁺-CaM, but no assignment of these features has been made. In addition, Ca²⁺-CaM samples many conformational substates in the crystal and accurately modeling the full range of this functionally important disorder is challenging. In order to characterize these features in a minimally biased manner, a 1.0 A resolution single-wavelength anomalous diffraction data set was measured for selenomethionine-substituted Ca²⁺-CaM. …

Mutual Information Upper Bound Of Molecular Communication Based On Cell Metabolism, Massimiliano Pierobon, Zahmeeth Sakkaff, Jennie L. Catlett, Nicole R. Buan

Department of Biochemistry: Faculty Publications

Synthetic biology is providing novel tools to engineer cells and access the basis of their molecular information processing, including their communication channels based on chemical reactions and molecule exchange. Molecular communication is a discipline in communication engineering that studies these types of communications and ways to exploit them for novel purposes, such as the development of ubiquitous and heterogeneous communication networks to interconnect biological cells with nano and biotechnology-enabled devices, i.e., the Internet of Bio-Nano Things. One major problem in synthetic biology stands in the development of reliable techniques to control the engineered cells from the external environment. In this …

Novel Acyltranserases And Methods Of Using, Edgar B. Cahoon, Umidjon Iskandarov, Hae Jin Kim, Jillian Collins-Silva

Department of Biochemistry: Faculty Publications

Provided herein are novel acyltransferases and methods of using Such novel acyltransferases in making medium-chain fatty acids.

An Evaluation Of New And Established Methods To Determine T-Dna Copy Number And Homozygosity In Transgenic Plants, Katarzyna Glowacka, Johannes Kromdijk, Lauriebeth Leonelli, Krishna K. Niyogi, Tom E. Clemente, Stephen P. Long

Department of Biochemistry: Faculty Publications

Stable transformation of plants is a powerful tool for hypothesis testing.Arapid and reliable evaluation method of the transgenic allele for copy number and homozygosity is vital in analysing these transformations.Here the suitability of Southern blot analysis, thermal asymmetric interlaced (TAIL-)PCR, quantitative (q)PCR and digital droplet (dd)PCR to estimate T-DNA copy number, locus complexity and homozygosity were compared in transgenic tobacco. Southern blot analysis and ddPCR on three generations of transgenic offspring with contrasting zygosity and copy number were entirely consistent, whereas TAIL-PCR often underestimated copy number. qPCR deviated considerably from the Southern blot results and had lower precision and higher …

High-Throughput Mutation, Selection, And Phenotype Screening Of Mutant Methanogenic Archaea, Mary E. Walter, Alicia Ortiz, Casey Sondgeroth, Nathan M. Sindt, Nikolas Duszenko, Jennie L. Catlett, You Zhou, Shah R. Valloppilly, Christopher Anderson, Samodha Fernando, Nicole R. Buan

Department of Biochemistry: Faculty Publications

Bacterial and archaeal genomes can contain 30% or more hypothetical genes with no predicted function. Phylogenetically deep-branching microbes, such as methane-producing archaea (methanogens), contain up to 50% genes with unknown function. In order to formulate hypotheses about the function of hypothetical gene functions in the strict anaerobe, Methanosarcina acetivorans, we have developed high-throughput anaerobic techniques to UV mutagenize, screen, and select for mutant strains in 96-well plates. Using these approaches we have isolated 10 mutant strains that exhibit a variety of physiological changes including increased or decreased growth rate relative to the parent strain when cells use methanol and/or …

Nitrogenase Femoco Investigated By Spatially Resolved Anomalous Dispersion Refinement, Thomas Spatzal, Julia Schlesier, Eva-Maria Burger, Daniel Sippel, Limei Zhang, Susana L.A. Andrade, Douglas C. Rees, Oliver Einsle

Department of Biochemistry: Faculty Publications

The [Mo:7Fe:9S:C] iron-molybdenum cofactor (FeMoco) of nitrogenase is the largest known metal cluster and catalyses the 6-electron reduction of dinitrogen to ammonium in biological nitrogen fixation. Only recently its atomic structure was clarified, while its reactivity and electronic structure remain under debate. Here we show that for its resting S 1⁄4 3/2 state the common iron oxidation state assignments must be reconsidered. By a spatially resolved refinement of the anomalous scattering contributions of the 7 Fe atoms of FeMoco, we conclude that three irons (Fe1/3/7) are more reduced than the other four (Fe2/4/5/6). Our data are in agreement with the …

Tumor Suppressive Role Of Sestrin2 During Colitis And Colon Carcinogenesis, Seung-Hyun Ro, Xiang Xue, Sadeesh K. Ramakrishnan, Chun-Seok Cho, Sim Namkoong, Insook Jang, Ian A. Semple, Allison Ho, Hwan-Woo Park, Yatrik M. Shah, Jun Hee Lee

Department of Biochemistry: Faculty Publications

The mTOR complex 1 (mTORC1) and endoplasmic reticulum (ER) stress pathways are critical regulators of intestinal inflammation and colon cancer growth. Sestrins are stress-inducible proteins, which suppress both mTORC1 and ER stress; however, the role of Sestrins in colon physiology and tumorigenesis has been elusive due to the lack of studies in human tissues or in appropriate animal models. In this study, we show that human SESN2 expression is elevated in the colon of ulcerative colitis patients but is lost upon p53 inactivation during colon carcinogenesis. In mouse colon, Sestrin2 was critical for limiting ER stress and promoting the recovery …

Ceramide Induces Human Hepcidin Gene Transcription Through Jak/Stat3 Pathway, Sizhao Lu, Sathish Kumar Natarajan, Justin L. Mott, Kusum K. Kharbanda, Duygu Dee Harrison-Findik

Department of Biochemistry: Faculty Publications

Changes in lipid metabolism and iron content are observed in the livers of patients with fatty liver disease. The expression of hepcidin, an iron-regulatory and acute phase protein synthesized by the liver, is also modulated. The potential interaction of lipid and iron metabolism is largely unknown.We investigated the role of lipid intermediate, ceramide in the regulation of human hepcidin gene, HAMP. Human hepatoma HepG2 cells were treated with cell-permeable ceramide analogs. Ceramide induced significant up-regulation of HAMP mRNA expression in HepG2 cells. The effect of ceramide on HAMP expression was mediated through transcriptional mechanisms because it was completely blocked …

Evidence For Pipecolate Oxidase In Mediating Protection Against Hydrogen Peroxide Stress, Sathish Kumar Natarajan, Ezhumalai Muthukrishnan, Oleh Khalimonchuk, Justin L. Mott, Donald F. Becker

Department of Biochemistry: Faculty Publications

Pipecolate, an intermediate of the lysine catabolic pathway, is oxidized to Δ¹-piperideine-6-carboxylate (P6C) by the flavoenzyme lpipecolate oxidase (PIPOX). P6C spontaneously hydrolyzes to generate α-aminoadipate semialdehyde, which is then converted into α-aminoadipate acid by α-aminoadipatesemialdehyde dehydrogenase. l-pipecolate was previously reported to protect mammalian cells against oxidative stress. Here, we examined whether PIPOX is involved in the mechanism of pipecolate stress protection. Knockdown of PIPOX by small interference RNA abolished pipecolate protection against hydrogen peroxide-induced cell death in HEK293 cells suggesting a critical role for PIPOX. Subcellular fractionation analysis showed that PIPOX is localized in the mitochondria of HEK293 …

Antisense Oligonucleotides: Treatment Strategies And Cellular Internalization, Colton M. Miller, Edward N. Harris

Department of Biochemistry: Faculty Publications

The clinical application of antisense oligonucleotides (ASOs) is becoming more of a reality as several drugs have been approved for the treatment of human disorders and many others are in various phases in development and clinical trials. ASOs are short DNA/RNA oligos which are heavily modified to increase their stability in biological fluids and retain the properties of creating RNA-RNA and DNA-RNA duplexes that knock-down or correct genetic expression. This review outlines several strategies that ASOs utilize for the treatment of various congenital diseases and syndromes that develop with aging. In addition, we discuss some of the mechanisms for specific …

Engineering A Trifunctional Proline Utilization A Chimaera By Fusing A Dna-Binding Domain To A Bifunctional Puta, Benjamin W. Arentson, Erin L. Hayes, Weidong Zhu, John J. Tanner, Donald F. Becker

Department of Biochemistry: Faculty Publications

Proline utilization A (PutA) is a bifunctional flavoenzyme with proline dehydrogenase (PRODH) and Δ¹-pyrroline-5- carboxylate (P5C) dehydrogenase (P5CDH) domains that catalyses the two-step oxidation of proline to glutamate. Trifunctional PutAs also have an N-terminal ribbon–helix–helix (RHH) DNA-binding domain and moonlight as autogenous transcriptional repressors of the put regulon. A unique property of trifunctional PutA is the ability to switch functions from DNA-bound repressor to membrane-associated enzyme in response to cellular nutritional needs and proline availability. In the present study, we attempt to construct a trifunctional PutA by fusing the RHH domain of Escherichia coli PutA (EcRHH) to the …

Antisense Oligonucleotides: Treatment Strategies And Cellular Internalization, Colton M. Miller, Ed Harris

Department of Biochemistry: Faculty Publications

The clinical application of antisense oligonucleotides (ASOs) is becoming more of a reality as several drugs have been approved for the treatment of human disorders and many others are in various phases in development and clinical trials. ASOs are short DNA/RNA oligos which are heavily modified to increase their stability in biological fluids and retain the properties of creating RNA-RNA and DNA-RNA duplexes that knock-down or correct genetic expression. This review outlines several strategies that ASOs utilize for the treatment of various congenital diseases and syndromes that develop with aging. In addition, we discuss some of the mechanisms for specific …

Systems Perturbation Analysis Of A Large-Scale Signal Transduction Model Reveals Potentially Influential Candidates For Cancer Therapeutics, Bhanwar Lal Puniya, Laura Allen, Colleen Hochfelde, Mahbubul Majumder, Tomáš Helikar

Department of Biochemistry: Faculty Publications

Dysregulation in signal transduction pathways can lead to a variety of complex disorders, including cancer. Computational approaches such as network analysis are important tools to understand system dynamics as well as to identify critical components that could be further explored as therapeutic targets. Here, we performed perturbation analysis of a large-scale signal transduction model in extracellular environments that stimulate cell death, growth, motility, and quiescence. Each of the model's components was perturbed under both loss-of-function and gain-of-function mutations. Using 1,300 simulations under both types of perturbations across various extracellular conditions, we identified the most and least influential components based on …

Activation Of Erk And Nf-Κb During Hare-Mediated Heparin Uptake Require Only One Of The Four Endocytic Motifs, Madhu S. Pandey, Colton M. Miller, Edward N. Harris, Paul H. Weigel

Department of Biochemistry: Faculty Publications

Fifteen different ligands, including heparin (Hep), are cleared from lymph and blood by the Hyaluronan (HA) Receptor for Endocytosis (HARE; derived from Stabilin-2 by proteolysis), which contains four endocytic motifs (M1-M4). Endocytosis of HARE•Hep complexes is targeted to coated pits by M1, M2, and M3 (Pandey et al, Int. J. Cell Biol. 2015, article ID 524707), which activates ERK1/2 and NF-κB (Pandey et al J. Biol. Chem. 288, 14068–79, 2013). Here, we used a NF-κB promoter-driven luciferase gene assay and cell lines expressing different HARE cytoplasmic domain mutants to identify motifs needed for Hepmediated signaling. Deletion of M1, M2 or …

Regulation Of Dj-1 By Glutaredoxin 1 In Vivo – Implications For Parkinson’S Disease, William M. Johnson, Marcin Golczak, Kyonghwan Choe, Pierce L. Curran, Olga Gorelenkova Miller, Chen Yao, Wenzhang Wang, Jiusheng Lin, Nicole M. Milkovic, Ajit Ray, Vijayalakshmi Ravindranath, Xiongwei Zhu, Mark A. Wilson, Amy L. Wilson-Delfosse, Shu G. Chen, John J. Mieyal

Department of Biochemistry: Faculty Publications

Parkinson’s disease (PD) is the second most common neurodegenerative disease worldwide, caused by the degeneration of the dopaminergic neurons in the substantia nigra. Mutations in PARK7 (DJ-1) result in early onset autosomal recessive PD, and oxidative modification of DJ-1 has been reported to regulate the protective activity of DJ-1 in vitro. Glutathionylation is a prevalent redox modification of proteins resulting from the disulfide adduction of the glutathione moiety to a reactive cysteine-SH; and glutathionylation of specific proteins has been implicated in regulation of cell viability. Glutaredoxin 1 (Grx1) is the principal deglutathionylating enzyme within cells, and it has …

Endoplasmic Reticulum-Associated Degradation Of Pca1p, A Polytopic Protein, Via Interaction With The Proteasome At The Membrane, Nathan Smith, David J. Adle, Miaoyun Zhao, Xiaojuan Qin, Heejeong Kim, Jaekwon Lee

Department of Biochemistry: Faculty Publications

Endoplasmic reticulum-associated degradation (ERAD) plays a critical role in the destruction of terminally misfolded proteins at the secretory pathway. The system also regulates expression levels of several proteins such as Pca1p, a cadmium exporter in yeast. To gain better insight into the mechanisms underlying ERAD of Pca1p and other polytopic proteins by the proteasome in the cytosol, our study determined the roles for the molecular factors of ERAD in dislodging Pca1p from the endoplasmic reticulum (ER). Inactivation of the 20S proteasome leads to accumulation of ubiquitinated Pca1p in the ER membrane, suggesting a role for the proteasome in extraction of …

Polyglycine Acts As A Rejection Signal For Protein Transport At The Chloroplast Envelope, Joshua K. Endow, Agostinho Gomes Rocha, Amy J. Baldwin, Rebecca L. Roston, Toshio Yamaguchi, Hironari Kamikubo, Kentaro Inoue

Department of Biochemistry: Faculty Publications

PolyGly is present in many proteins in various organisms. One example is found in a transmembrane β-barrel protein, translocon at the outer-envelope-membrane of chloroplasts 75 (Toc75). Toc75 requires its N-terminal extension (t75) for proper localization. t75 comprises signals for chloroplast import (n75) and envelope sorting (c75) in tandem. n75 and c75 are removed by stromal processing peptidase and plastidic type I signal peptidase 1, respectively. PolyGly is present within c75 and its deletion or substitution causes mistargeting of Toc75 to the stroma. Here we have examined the properties of polyGly-dependent protein targeting using two soluble passenger proteins, the mature portion …

Analysis Of Oligomerization Properties Of Heme A Synthase Provides Insights Into Its Function In Eukaryotes, Samantha Swenson, Andrew Cannon, Nicholas J. Harris, Nicholas G. Taylor, Jennifer L. Fox, Oleh Khalimonchuk

Department of Biochemistry: Faculty Publications

Heme a is an essential cofactor for function of cytochrome c oxidase in the mitochondrial electron transport chain. Several evolutionarily conserved enzymes have been implicated in the biosynthesis of heme a, including the heme a synthase Cox15. However, the structure of Cox15 is unknown, its enzymatic mechanism and the role of active site residues remain debated, and recent discoveries suggest additional chaperone-like roles for this enzyme. Here, we investigated Cox15 in the model eukaryote Saccharomyces cerevisiae via several approaches to examine its oligomeric states and determine the effects of active site and human pathogenic mutations. Our results indicate that Cox15 …

Endoplasmic Reticulum-Associated Degradation Of Pca1p, A Polytopic Protein, Via Interaction With The Proteasome At The Membrane, Nathan Smith, David J. Adle, Miaoyun Zhao, Xiaojuan Quin, Heejeong Kim, Jaekwon Lee

Department of Biochemistry: Faculty Publications

Endoplasmic reticulum-associated degradation (ERAD) plays a critical role for destruction of terminally misfolded proteins at the secretory pathway. The system also regulates expression levels of several proteins such as Pca1p, a cadmium exporter in yeast. To gain better insight into the mechanisms underlying ERAD of Pca1p and other polytopic proteins by the proteasome in the cytosol, our study determined the roles for the molecular factors of ERAD in dislodging Pca1p from the ER. Inactivation of the 20S proteasome leads to accumulation of ubiquitinylated Pca1p in the ER membrane, suggesting a role for the proteasome in extraction of Pca1p from the …