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Biochemistry, Biophysics, and Structural Biology Commons™
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Articles 1 - 30 of 37
Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
A Crispr Platform For Rapid And Inducible Genome Editing In Human Non-Small Cell Lung Cancer Cells, Lloyd Bartley
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 …
Development Of A Pd-L1 Pet Imaging Biomarker, Caleb Jack Bridgwater
Development Of A Pd-L1 Pet Imaging Biomarker, Caleb Jack Bridgwater
Posters-at-the-Capitol
Immunotherapy strategies are very promising treatments for cancer patients. Specifically, Immune checkpoint inhibitor therapy focusing on the PD-1/PD-L1 pathway shows long-lasting positive results in many cancer patients. Unfortunately, not all the patients can benefit from this highly effective treatment. Hence, there is a great need for predictive biomarkers. Immunohistochemical (IHC) staining has been used as a way of predicting patient response, yet shows many problems. For example, IHC utilizes an invasive biopsy and sample fixing, which creates an incomplete and delayed picture of the patient’s biochemistry and the tumor microenvironment, consequently ignoring metastases.
The purpose of this study is to …
Combined High-Speed Single Particle Tracking Of Membrane Proteins And Super-Resolution Of Membrane-Associated Structures, Hanieh Mazloom Farsibaf, Keith A. Lidke
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 …
Water Temperature And Harmful Algal Bloom Rate, Geoff Bright, Greg Michalski, Benjamin P. Wilkins
Water Temperature And Harmful Algal Bloom Rate, Geoff Bright, Greg Michalski, Benjamin P. Wilkins
The Summer Undergraduate Research Fellowship (SURF) Symposium
Harmful algal blooms, made up of cyanobacteria, is an increasing problem in Midwestern lakes. Nitrogen and phosphorus fertilizers used in crops such as corn and soybeans run off into streams and eventually lakes. Nitrogen and phosphorus in the form of nitrate and phosphate respectively is then used by cyanobacteria as a food source, allowing them to bloom at an alarming rate. Massive bloom events can be hazardous to both human health and the natural environment because of the release of neurotoxins, hepatotoxins and others into the air and drinking water. We set out to find if different water temperature can …
Structural And Functional Characterization Of Hyper-Phosphorylated Grk5 Protein Expressed From E. Coli, Joseph M. Krampen, John Tesmer, Qiuyan Chen
Structural And Functional Characterization Of Hyper-Phosphorylated Grk5 Protein Expressed From E. Coli, Joseph M. Krampen, John Tesmer, Qiuyan Chen
The Summer Undergraduate Research Fellowship (SURF) Symposium
G protein-coupled receptor (GPCR) kinases (GRKs) are proteins in the cell responsible for regulating GPCRs located on the cell membrane. GRKs regulate active GPCRs by phosphorylating them at certain sites which causes them to stop normal signaling on the membrane. This ultimately affects how the cell responds to its environment. GRK5 is a kinase of particular interest due to its involvement in the pathology of diseases such as cardiac failure, cancers, and diabetes. Understanding the structure and function of GRK5 is essential for discovering ways to manipulate its behavior with these diseases, but not much is known about how GRK5 …
Engineering Bioluminescent Sensors Of Cyclic Amp To Study Opioid Signaling, Alexander L. Tesmer, Alexander R. French, Mathew Tantama
Engineering Bioluminescent Sensors Of Cyclic Amp To Study Opioid Signaling, Alexander L. Tesmer, Alexander R. French, Mathew Tantama
The Summer Undergraduate Research Fellowship (SURF) Symposium
Opioids are small signaling molecules which bind to opioid receptors on the surface of cells. The kappa opioid receptor (KOR) is one of three major types of opioid receptors found in human neurons. When an opioid binds to a KOR, a variety of biochemical signaling pathways are activated inside the cell. Each of these pathways are associated with different physiological effects of KOR activation. The production of a small signaling molecule, cyclic adenosine monophosphate (cAMP), is known to be inhibited during KOR activation of the analgesic (pain-killing) signaling pathway. The ability to interrogate the individual responses of KOR signaling pathways …
Improving Biomanufacturing Production With Novel Elp-Based Transcriptional Regulators, Juya Jeon, Logan R. Readnour, Kevin V. Solomon
Improving Biomanufacturing Production With Novel Elp-Based Transcriptional Regulators, Juya Jeon, Logan R. Readnour, Kevin V. Solomon
The Summer Undergraduate Research Fellowship (SURF) Symposium
Microbes can be used to produce valuable drugs, chemicals, and biofuels, but their potential has not been fully realized due to low production yields. To improve biomanufacturing processes and yield, we are developing novel, transcriptional regulators using biosynthesis technology in order to improve cellular health and overall production. Our regulator contains elastin-like polypeptides (ELPs), which make ideal sensors since they exhibit a sharp, inverse phase transition to indicators of cell health such as intracellular pH and ionic strength, and external stimuli such as temperature. We hypothesize that ELP can be fused to transcription factors to control expression of target genes. …
Cost-Effective Paper-Based Diagnostic Using Split Proteins To Detect Yeast Infections, Zachary R. Berglund, Kevin V. Solomon, Mohit S. Verma, Moiz Rasheed, Zachary Hartley, Kevin Fitzgerald, Kok Zhi Lee, Janice Chan, Julianne Dejoie, Makayla Schacht, Alex Zavala
Cost-Effective Paper-Based Diagnostic Using Split Proteins To Detect Yeast Infections, Zachary R. Berglund, Kevin V. Solomon, Mohit S. Verma, Moiz Rasheed, Zachary Hartley, Kevin Fitzgerald, Kok Zhi Lee, Janice Chan, Julianne Dejoie, Makayla Schacht, Alex Zavala
The Summer Undergraduate Research Fellowship (SURF) Symposium
The common yeast infection, vulvovaginal candidiasis, affects three out of four women throughout their lifetime and can be spread to their child in the form of oral candidiasis (thrush). This disease is caused by the fungal pathogen Candida albicans, which is also a major cause of systemic candidiasis, a rarer but deadly disease with up to a 49% lethality rate. Current widely-used diagnostic methods include cell cultures, pH tests, and antibody detection, to assist effective treatment. Despite availability of various diagnostic methods, there is no inexpensive, rapid, and accurate way to detect C. albicans infection. This project aims to …
Engineering Dub-Deficient Viral Proteases From Fipv And Pedv Coronaviruses, Daniel T. Wesenberg, Jozlyn R. Clasman, Andrew D. Mesecar
Engineering Dub-Deficient Viral Proteases From Fipv And Pedv Coronaviruses, Daniel T. Wesenberg, Jozlyn R. Clasman, Andrew D. Mesecar
The Summer Undergraduate Research Fellowship (SURF) Symposium
Coronaviruses form a class of viral pathogens lethal to humans and livestock. This issue is compounded by a lack of commercially available treatments or vaccines. In 2014, porcine epidemic diarrhea virus (PEDV) emerged in the United States and accounted for an estimated 7 million porcine deaths. Deaths of humans, companion animals, and livestock caused by coronaviruses highlight the need for therapeutic strategies to combat this devastating disease. One strategy involves engineering papain-like protease 2 (PLP2), an enzyme conserved among coronavirus species that is critical for virus replication and pathogenesis. PLP2’s de-ubiquitinating (DUB) activity aids in the suppression of the host’s …
Structural Characterization Of The Dep Domains Of P-Rex1, Samantha R. Allgood, John J.G. Tesmer, Sandeep K. Ravala
Structural Characterization Of The Dep Domains Of P-Rex1, Samantha R. Allgood, John J.G. Tesmer, Sandeep K. Ravala
The Summer Undergraduate Research Fellowship (SURF) Symposium
P-Rex1 is a guanine nucleotide exchange factor for Rho-GTPases, which is indirectly involved in the regulation of cell migration and proliferation. It contains a tandem DH/PH domain archetypal of the Dbl family of GEFs, two DEP and two PDZ domains, and a C-terminal end with weak homology to inositol polyphosphate 4-phosphatase. P-Rex1 is regulated by both intra-domain interactions and interactions with other proteins such as G-protein beta gamma, PKA and phosphatidylinositol (3,4,5)-trisphosphate. Upregulation of P-Rex1 has been found in multiple human cancers, making it a potential target for anti-cancer drug therapies. Therefore, structural characterization of P-Rex1 is critical. Currently, only …
Study Of The Visual Adaptation Mechanism In Marine Species With The Change Of Habitation Depth., Demid Osipov, Daniil Moshnikov
Study Of The Visual Adaptation Mechanism In Marine Species With The Change Of Habitation Depth., Demid Osipov, Daniil Moshnikov
The International Student Science Fair 2018
The goal of our work was to determine the principal mechanisms that provide the difference in visual perception of two marine species that live on different depths: T. Pacificus and O. Vulgaris. In nature, visual perception of species that live deeper is shifted towards the blue region. This is related to the fact that red, orange and yellow light is absorbed more strongly by water than the blue light. On the other hand, the visual perception spectrum of an animal is determined by the absorption spectrum of the "light sensor" located in rods and cones of its eye retina. These …
Glucosamine From Hydrolysis Of 3d Printing Chitosan For Osteoarthritis Treatment, Ruj Dansriboon, Laphon Premcharoen
Glucosamine From Hydrolysis Of 3d Printing Chitosan For Osteoarthritis Treatment, Ruj Dansriboon, Laphon Premcharoen
The International Student Science Fair 2018
This project aims to introduce a new way for osteoarthritis treatment which is expected to increase in the future. Glucosamine is the main subject for a treatment, which can be derived by hydrolyzing chitosan. This project also includes extraction of chitosan from shrimp waste to make a worthy use of food waste from industry. In this project, 3D printer is applied to print chitosan gel since 3D printing is adjustable to form various shapes of the gel.
The research process begins with the extraction of chitosan from shrimp shells. For the next step, the percent of deacetylation of chitosan was …
Identification And Folding Of Mirna Through Machine Learning, Xavier Pellow
Identification And Folding Of Mirna Through Machine Learning, Xavier Pellow
The International Student Science Fair 2018
As of writing, there is currently no efficient way to accurately identify miRNA or predict the structure of miRNA without the usage of a lab. The purpose of this work is to provide a framework which allows for efficient identification of mature miRNA and folding of pre-miRNA using a feedforward neural network (FFNN) and probabilistic context-free grammar (PCFG) parsing, respectively. After training, the FFNN developed an accuracy of 98%. Out of all control cases using high confidence miRNA, the PCFG used returned folded structures that matched the canonical structures to an accuracy of 81%. The results of this work indicates …
Utilization Of Papaya’S Sap (Carica Papaya L.) And Water Lettuce (Pistia Stratiotes) To Reduce Protein Amount On Liquid Tofu Waste, Muhammad Dzulfikar Farkhan, Naila Aliyahandra Anzani, Nabila Fikria Santoso
Utilization Of Papaya’S Sap (Carica Papaya L.) And Water Lettuce (Pistia Stratiotes) To Reduce Protein Amount On Liquid Tofu Waste, Muhammad Dzulfikar Farkhan, Naila Aliyahandra Anzani, Nabila Fikria Santoso
The International Student Science Fair 2018
ABSTRACT
Liquid waste from tofu production is one of the causes of environmental pollution. This condition happens because liquid tofu waste contain protein. Protein is metabolized by bacteria formed ammonia which emits foul odor. On this research, the protein amount in liquid tofu waste is reduced by the application of papaya’s sap and water lettuce. This research is divided into several steps. First, collecting the liquid tofu waste. second, tapping the papaya’s sap. Third, poured the papaya’s sap into the tofu waste. the next step is keep the mixture between tofu waste and papaya’s sap rest for 6, 18, and …
Mathematical Modeling Of Nutrient Signaling And Growth In Saccharomyces Cerevisiae, Amogh P. Jalihal, Pavel Kraikivski, T.M. Murali, John J. Tyson
Mathematical Modeling Of Nutrient Signaling And Growth In Saccharomyces Cerevisiae, Amogh P. Jalihal, Pavel Kraikivski, T.M. Murali, John J. Tyson
Biology and Medicine Through Mathematics Conference
No abstract provided.
Inference And Control In Regulatory Genomics, Siddharth Sharma
Inference And Control In Regulatory Genomics, Siddharth Sharma
Biology and Medicine Through Mathematics Conference
No abstract provided.
Computational Study Of Ligand-Dependent Oligomerization Of Ribonucleotide Reductase, Bill Pham
Computational Study Of Ligand-Dependent Oligomerization Of Ribonucleotide Reductase, Bill Pham
EURēCA: Exhibition of Undergraduate Research and Creative Achievement
Certain protein oligomerization can be strongly influenced by its ligand-binding status. We constructed a computational method to investigate how ligand-binding and oligomerization can be coupled. We tackle this issue using an approximate approach of studying the properties of individual monomers and how they associate. By connecting the dynamics at monomeric level and the information of oligomer interface, we quantify the synchronization of two types of contact dynamics: (1) between the ligand and its binding pocket, and (2) the contact dynamics at interface. In this work, we applied our methodology on protein ribonucleotide reductase (RNR), which is an essential enzyme for …
Arabidopsis Thaliana Nip2;1 , A Lactic Acid Transporter, Is Essential For Plant Survival During Hypoxic Stress, Samantha Jean Mcintire
Arabidopsis Thaliana Nip2;1 , A Lactic Acid Transporter, Is Essential For Plant Survival During Hypoxic Stress, Samantha Jean Mcintire
EURēCA: Exhibition of Undergraduate Research and Creative Achievement
NIPs are nodulin-intrinsic proteins that are specific to plants and involved in transport of water and other uncharged solutes. Arabidopsis thaliana consists of nine NIPgenes.
In the current study, attention has been focused on NIP2;1(NIPsubgroup I), one of the representative Arabidopsis NIPs, in accordance with its cellular and subcellular localization, tissue, transport activity, and biological roles in Arabidopsis.
It has been shown in experiments that AtNIP2;1is especially responsive to hypoxia-induced stress. Hypoxia is a condition in which most of the oxygen has been removed from an environment. In hypoxic environments, plants construct a …
Structure Determination Of A Bioengineered Human/Porcine Factor Viii For Hemophilia A Treatment, And Improvements To The Human Factor Viii Model, Ian Smith
Graduate Student Symposium
Blood coagulation factor VIII (FVIII), is a non-enzymatic cofactor which plays a crucial role in the formation of a stable blood clot. Absence or deficiency of FVIII results in the blood disorder hemophilia A; with symptoms including internal hemorrhaging and the inability to stop bleeding from open wounds. Treatment of hemophilia A relies on infusions of blood, plasma, or protein concentrates to replace FVIII. Unfortunately, approximately 30% of patients receiving replacement FVIII generate pathologic anti-FVIII inhibitory antibodies, which both reduce the effectiveness of the FVIII therapeutic and increase the severity of hemophilia A symptoms.
We have determined the molecular structure …
Constitutive Expression Of Thioglucoside Glucohydrolase 1 (Tgg1) Decreases Intercellular Trafficking In Arabidopsis Thaliana, Alessandro Francesco Sarno
Constitutive Expression Of Thioglucoside Glucohydrolase 1 (Tgg1) Decreases Intercellular Trafficking In Arabidopsis Thaliana, Alessandro Francesco Sarno
EURēCA: Exhibition of Undergraduate Research and Creative Achievement
Plasmodesmata (PD) are pores that traverse plant cell walls, providing a route for intercellular trafficking of essential metabolites, nutrients, and signaling molecules between adjacent plant cells, thereby aiding communication. The increased size exclusion limit 2 (ise2) mutant of Arabidopsis thaliana has an increased abundance of branched PD, as well as a greater flux of intercellular trafficking. A search for proteins that interact with ISE2 identified THIOGLUCOSIDE GLUCOHYDROLASE 2 (a myrosinase). A. thaliana also encodes a second, closely-related myrosinase, TGG1. Myrosinases are enzymes that catalyze the hydrolysis of glucosinolates, a type of secondary metabolite that are amino acid derivatives. The breakdown …
Site-Directed Mutagenesis Of Malate Dehydrogenase: A Class Project, Bruce J. Heyen, Chesley Rowlett, Jon Zatorski, Ryan Burch, Emily Veach, Andy Gemmaka
Site-Directed Mutagenesis Of Malate Dehydrogenase: A Class Project, Bruce J. Heyen, Chesley Rowlett, Jon Zatorski, Ryan Burch, Emily Veach, Andy Gemmaka
Scholar Week 2016 - present
Malate dehydrogenase (MDH) is an important enzyme in an organism’s metabolic pathways. MDH is found in almost all living cells and catalyzes the conversion of malate to oxaloacetate which also involves nicotinamide dehydrogenase (NAD) as a coenzyme. A method to study how an enzyme operates is to alter one of its amino acids and compare the activity of the enzyme before and after the mutation. As a class project in Advanced Biochemistry during the spring semester of 2018, we are working as a team to propose and carry out a point-based mutation on MDH.
Effect Of An Arginine-To-Isoleucine Active Site Mutation On Escherichia Coli Malate Dehydrogenase Enzymatic Activity, Jon Zatorski, Bruce J. Heyen
Effect Of An Arginine-To-Isoleucine Active Site Mutation On Escherichia Coli Malate Dehydrogenase Enzymatic Activity, Jon Zatorski, Bruce J. Heyen
Scholar Week 2016 - present
Citric acid cycle enzymes function in an environment with numerous substrate analogues and therefore contain active site residue organizations that confer high substrate specificity. Extensive research into the catalytic mechanism of Escherichia coli malate dehydrogenase (eMDH) has identified arginine81 as being crucial to catalysis. In this investigation, an engineered eMDH having an Ile81 rather than an Arg81 (R81I) was isolated using a hexahistadine (His6) tag. Enzymatic activity of the R81I mutant with respect to malate, lactate, and pyruvate was explored. The R81I mutant did show significant activity toward malate, but did not show significant activity toward lactate or pyruvate. Investigations …
Synthesis And Incorporation Of 1,2-Alkanolamine-Functionalized Lysine As A Non-Canonical Amino Acid Into Gfp, Chesley M. Rowlett
Synthesis And Incorporation Of 1,2-Alkanolamine-Functionalized Lysine As A Non-Canonical Amino Acid Into Gfp, Chesley M. Rowlett
Scholar Week 2016 - present
Synthesis of specific post translational modifications in proteins can be difficult but achievable via genetic code expansion techniques. An attempt has been made to synthesize and incorporate D-cThrK into green fluorescent protein (GFP) at an amber mutation site in Escherichia coli via the coordination of pyrrolysyl- tRNA synthetase and its cognate tRNApyl. The incorporation of this non-canonical amino acid and potential chemical transformations following it allow the synthesis of proteins with post translational lysine modifications, making a variety of basic and biotechnological applications available.
The Effects Of Inulin And Galactooligosaccharides On The Production Of Reuterin By Lactobacillus Reuteri, Micah Forshee
The Effects Of Inulin And Galactooligosaccharides On The Production Of Reuterin By Lactobacillus Reuteri, Micah Forshee
Scholar Week 2016 - present
The microbiome is a dynamic community that can positively and negatively influence host health. Lactobacillus reuteri is a probiotic that has received much attention for its ability to inhibit pathogens such as Salmonella Typhimurium, Escherichia coli, and Clostridium difficile. It does so by its unique ability to metabolize glycerol into the antimicrobial compound 3-HPA, which is commonly referred to as reuterin. The ability to secrete reuterin is dependent not only on glycerol availability but also the concentration of glucose. In fact, there appears to be a “goldilocks” ratio between glucose and glycerol as either too much or too …
Cation Exchange Capacity Determination: Comparative Study Of Three Methods, Lillie Zech
Cation Exchange Capacity Determination: Comparative Study Of Three Methods, Lillie Zech
Undergraduate Research Conference
No abstract provided.
Mapping Netrin Signaling In Tetrahymena Thermophila, Katelyn R. Malik, Bethany C. Khol, Stephanie J. Hermann, Kenneth W. Ward, Daniele T. Modderman, Heather G. Kuruvilla
Mapping Netrin Signaling In Tetrahymena Thermophila, Katelyn R. Malik, Bethany C. Khol, Stephanie J. Hermann, Kenneth W. Ward, Daniele T. Modderman, Heather G. Kuruvilla
The Research and Scholarship Symposium (2013-2019)
The netrin family of proteins, found throughout the animal kingdom, are well known for their roles in developmental signaling. Netrin-1, the best-studied member of this family, signals through four receptor types in vertebrates: the UNC-5 family, DCC, neogenin, and DSCAM. We have previously characterized a netrin-1-like protein in the ciliated protozoan, Tetrahymena thermophila. This protein is secreted from Tetrahymena, and functions as a chemorepellent. Since a netrin-like protein is produced by this organism, we hypothesized that some components of the vertebrate netrin signaling pathway might also be present in Tetrahymena. Through immunolocalization on the plasma membrane of the cell, we …
Netrin-3: Tracking The Elusive Antimitotic Signal On The Western Frontier, Michael David Jolley, Kirsten P. Kelley, Jared E. Matz, Natalie S. Phillips, Emma Wessels, Heather G. Kuruvilla
Netrin-3: Tracking The Elusive Antimitotic Signal On The Western Frontier, Michael David Jolley, Kirsten P. Kelley, Jared E. Matz, Natalie S. Phillips, Emma Wessels, Heather G. Kuruvilla
The Research and Scholarship Symposium (2013-2019)
Netrin-3 is a guidance protein expressed throughout the animal kingdom, and involved in the development of branched structures such as the nervous system, lung, and mammary gland. We have previously shown that peptides derived from this protein serve as chemorepellents and mitotic inhibitors in Tetrahymena thermophila. Our previous work shows that Tetrahymena synthesize and secrete a netrin-3-like protein, as detected by ELISA. In this study, we find that a netrin-3-like protein is present in whole cell extract and secreted protein, as detected by Western blotting. A protein of approximately 48 kD is consistently detected in our Western blots. In addition, …
Netrin-3 Signals Through Serine Phosphorylation In Tetrahymena Thermophila, Cayla C. Eckley, Rebecca N. Haught, Kyle J. Hooper, Jared E. Matz, Joshua L. Wilson, Bethany C. Khol, Katelyn R. Malik, Heather G. Kuruvilla
Netrin-3 Signals Through Serine Phosphorylation In Tetrahymena Thermophila, Cayla C. Eckley, Rebecca N. Haught, Kyle J. Hooper, Jared E. Matz, Joshua L. Wilson, Bethany C. Khol, Katelyn R. Malik, Heather G. Kuruvilla
The Research and Scholarship Symposium (2013-2019)
The netrin family of proteins are structurally related to laminin and, while first discovered in the nematode Caenorhabditis elegans, are now known to be present in species throughout the animal kingdom, including humans. These proteins also have a wide variety of roles that include inhibition of apoptosis, chemorepulsion, and axonal guidance. Due to the results of previous studies involving netrin-1 in vertebrate systems, the current prevailing assumption is that netrins, when acting as chemorepellents, signal using tyrosine kinases. However, data that we gathered through phosphoserine-targeting ELISA assays and immunofluorescence microscopy demonstrates that the netrin-3 peptides signal Tetrahymena thermophila through serine …
Elemental Analysis Of Beer Manufactured In Virginia Satellite Breweries, Jennifer Wiliams
Elemental Analysis Of Beer Manufactured In Virginia Satellite Breweries, Jennifer Wiliams
Student Scholar Showcase
Financial incentives from the state and wider distribution potential have lured many west coast brewers to open satellite breweries in Virginia. Quality control is crucial for any brewery and especially important in satellite breweries that need to imitate the standard set by the parent brewery. Zinc, magnesium, iron, sodium manganese, and calcium are trace elements found in wort and are essential for enzymes that catalyze fermentation reactions. These elements protect against cell stress, play a crucial role in flocculation, and can affect the flavoring and coloration of beer. Barley, water, and hops are the sources of these elements in beer. …
Anti-Fungal Compounds From Native Prairie Plants, Sarah Mcmichael, Kirk Manfredi
Anti-Fungal Compounds From Native Prairie Plants, Sarah Mcmichael, Kirk Manfredi
Research in the Capitol
Plant compounds can be found in many consumer products such as nutritional supplements (nutraceuticals), soaps, shampoos, and other personal care products. They are not yet used in these products as preservatives. This area of research focusses on identifying compounds from native prairie plants that can be used as preservatives in personal care products. An objective of this research is to isolate compounds that can be used to replace synthetic parabens. Synthetic parabens have been found to be harmful to humans and the environment. Our isolate would be a natural preservative and eliminate the harmful synthetic. This research presentation will discuss …