Isolation and Characterization of Mouse Bone Collagenase Inhibitor

SAKAMOTO, SEIZABURO, NAGAYAMA, MASARU

11 1900

No description available.

SDS gel electrophoresis

Gel filtration

Collagenase inhibitor

Collagenase

Semi-preparative expression and purification of a recombinant glucocerebrosidase protein with a PTD4 transduction domain: a potential therapeutic strategy for neuronopathic Gaucher’s disease.

Jack, Alexandria Taylor

24 August 2012

Gaucher’s disease (GD) is an autosomal recessive lysosomal storage disorder which is caused by a mutation in the gene encoding acid β-glucocerebrosidase (GBA, EC 3.2.1.45). Deficient activity in GBA leads to a wide variety of clinical phenotypes, including visceral symptoms such as hepatospenomegaly as well as neurological symptoms. Current enzyme replacement therapy is effective in treating visceral symptoms but cannot cross the blood-brain barrier to target neurological manifestations. Another drawback to current therapy is the high cost to patients due to present protein expression strategies. Recently, protein transduction domains, such as the synthetic PTD4 domain, have been proposed as a therapeutic strategy for drug delivery to the central nervous system. In the present study, we use an economical yeast expression system, Pichia pastoris, to produce a recombinant fusion protein GBA-PTD4, and semi-preparative hydrophobic interaction chromatography and gel filtration chromatography for purification. Results show that final preparations are near homogenous, with GBA-PTD4 accounting for approximately 76% of total protein and only one major contaminant. A cell line expressing GBA without a transduction domain was also created in anticipation of further cellular uptake studies. Future research will focus on large scale enzyme expression in fermentation systems and more direct purification methods such as immunoaffinity chromatography for better protein recovery. / Graduate

Gaucher's Disease

Pichia Pastoris

Hydrophobic Interaction Chromatography

Gel Filtration Chromatography

Characterization of Residual Organics from Biological Treatment

Robertson, John Lawson

04 1900

<p> Gel filtration chromatography on Sephadex gels G15 and G50, was used to characterize the residual organic materials found in effluents from biological treatment. Molecular weight distributions were determined as the equivalent molecular weight distribution of a homologous series of sugars and alcohols. The homologous series was also used to determine equivalent molecular radii, based on Corey-Pauling-Koltun space filling models of the homolgous series.</p> <p> To determine the distributions of residual organics from mixed cultures grown on simple, pure substrates, laboratory batch studies were performed. For this purpose, media containing glucose or glutamic acid substrates and a bicarbonate-phosphate buffer system were innoculated with activated sludge. Both high and low substrate and microorganism concentrations were used at constant temperature and pH. As a comparison for the mixed cultures, a representative strain of Flavobacterium sp. isolated from activated sludge was grown in pure culture on glucose.</p> <p> Both the laboratory mixed culture effluents and treatment plant effluents contained material of equivalent molecular weight less than 1500. However, little similarity appeared to exist between the low molecular weight (<1500) distributions of treatment plant effluents and those from the mixed cultures. A significant fraction of the treatment plant and batch effluents had equivalent molecular weights of greater than 10,000. The pure culture studies showed that a single strain of bacteria can produce material of equivalent molecular weight both greater and less than 1500.</p> / Thesis / Master of Engineering (MEngr)

A Quantitative Radioimmunoassay for Phosphoglucose Isomerase and Its Utilization in Detecting Cross-Reactive Material in Variant Forms of Phosphoglucose Isomerase and in Human Tissues

Purdy, Kimberly L.

05 1900

A method for purification and radiolabelling phosphoglucose isomerase was devised in order to develop a sensitive quantitative radioimmunoassay for the detection of the enzyme irrespective of its catalytic activity. For four genetic variants of PGI no difference in the molecular specific activity was observed. In one variant (PGI-Denton), liver and heart tissue extracts, and in mature erythrocytes (as compared to normal erythrocytes), a decreased molecular specific activity was observed which initially may imply that these samples contain cross-reactive material which is not catalytically active.

radiolabelling

phosphoglucose isomerase

quantitative radioimmunoassay

gel filtration

lactoperoxidase iodination

Radioimmunoassay.

Phosphoglucose isomerase.

Purification of psychoactive biomolecules in plants using size exclusion chromatography / Rening av psykoaktiva biomolekyler från växtmaterial genom gelpermeations-/gelfiltreringskromatografi

Ring, Ludwig

January 2009

<p><em>Size exclusion chromatography</em> (SEC) was applied for purification of psychoactive biomolecules from plants. These molecules are in the same molecular weight range, but do not necessarily share other chemical properties, that makes the SEC technique efficient. By applying SEC as a first purification step much of the co-extractives from the plants can easily be removed. Large amounts of target substance can be obtained with little effort if the system is automated. Combining SEC with a second purification step, consisting of normal phase chromatography, provides high purity of the target substance.</p><p>Both known and unknown psychoactive biomolecules can easily be purified using the purification method developed in this Master's Thesis. Purifications that previously required long time and much "hands-on" can be completed much faster and with less manual work.</p><p>The method developed was tested on cannabis, coffee and 'Spice' with good results.</p>

Size exclusion chromatography

Psychoactive

Drug

Plant

Gel permeation chromatography

Gel filtration chromatography

Biochemistry

Biokemi

Purification of psychoactive biomolecules in plants using size exclusion chromatography / Rening av psykoaktiva biomolekyler från växtmaterial genom gelpermeations-/gelfiltreringskromatografi

Ring, Ludwig

January 2009

Size exclusion chromatography (SEC) was applied for purification of psychoactive biomolecules from plants. These molecules are in the same molecular weight range, but do not necessarily share other chemical properties, that makes the SEC technique efficient. By applying SEC as a first purification step much of the co-extractives from the plants can easily be removed. Large amounts of target substance can be obtained with little effort if the system is automated. Combining SEC with a second purification step, consisting of normal phase chromatography, provides high purity of the target substance. Both known and unknown psychoactive biomolecules can easily be purified using the purification method developed in this Master's Thesis. Purifications that previously required long time and much "hands-on" can be completed much faster and with less manual work. The method developed was tested on cannabis, coffee and 'Spice' with good results.

Size exclusion chromatography

Psychoactive

Drug

Plant

Gel permeation chromatography

Gel filtration chromatography

Biochemistry

Biokemi

Expression and Purification of Murine Tripeptidyl Peptidase II

Gustafsson, Sofia

January 2012

Tripeptidyl peptidase II (TPPII) is an exopeptidase which cleaves tripeptides from theN-terminus of peptides. The exact functional role of TPPII is still a matter of investigation. Itis believed that the enzyme is primarily involved in intracellular protein degradation, where itcooperates with the proteasome and other peptidases to degrade proteins into free aminoacids. These amino acids can subsequently be used in the production of new proteins. The aimof this work was to express murine wild type TPPII using E. coli and thereafter purify theenzyme from the bacterial lysate. Methods used for the purification included protein andnucleic acid precipitation, anion exchange chromatography, hydrophobic interactionchromatography and gel filtration. The presence of TPPII was determined using activityassay, western blot and SDS-PAGE. Despite the fact that some modification is still needed,the purification yielded a total of 34μg TPPII with a purity of approximately 60%. Thispurified enzyme can be used for future functional characterization.

E. coli expression

Anion exchange chromatography

Hydrophobic interaction chromatography

Gel filtration

Steady state kinetics

Investigation of the Mechanism and Structure of the Cage-like Complex formed by the Escherichia coli Inducible Lysine Decarboxylase LdcI and the MoxR AAA+ ATPase RavA

Liu, Kaiyin

05 December 2013

The gram-negative bacteria Escherichia coli, a neutralophile, is remarkable in its defenses against acid stress. Of interest to our laboratory is the inducible lysine decarboxylase (LdcI) system, an acid resistance system which renders acid resistance to E. coli in mild acid stress (~pH 5). It was found that this enzyme forms an extremely large (~3.3 MDa) and tight complex (Kd ~ 0.56 μM) with a MoxR AAA+ ATPase named Regulatory ATPase Variant A (RavA). The cryo-EM structure at 14 Å was determined. Through size-exclusion chromatography (SEC) experiments, the binding sites on both LdcI and RavA have been determined. It is proposed that the complex can form through both charged and hydrophobic interactions. In the course of these studies, unexpected observations led to the characterization of the LARA domain of RavA as an amyloid protein under in vitro conditions. The physiological significance of this observation is still under investigation.

Protein Purification

Protein Interaction

NMR

Gel Filtration Chromatography

Cryo-EM

Acid Stress

0487

0876

Investigation of the Mechanism and Structure of the Cage-like Complex formed by the Escherichia coli Inducible Lysine Decarboxylase LdcI and the MoxR AAA+ ATPase RavA

Liu, Kaiyin

05 December 2013

The gram-negative bacteria Escherichia coli, a neutralophile, is remarkable in its defenses against acid stress. Of interest to our laboratory is the inducible lysine decarboxylase (LdcI) system, an acid resistance system which renders acid resistance to E. coli in mild acid stress (~pH 5). It was found that this enzyme forms an extremely large (~3.3 MDa) and tight complex (Kd ~ 0.56 μM) with a MoxR AAA+ ATPase named Regulatory ATPase Variant A (RavA). The cryo-EM structure at 14 Å was determined. Through size-exclusion chromatography (SEC) experiments, the binding sites on both LdcI and RavA have been determined. It is proposed that the complex can form through both charged and hydrophobic interactions. In the course of these studies, unexpected observations led to the characterization of the LARA domain of RavA as an amyloid protein under in vitro conditions. The physiological significance of this observation is still under investigation.

Protein Purification

Protein Interaction

NMR

Gel Filtration Chromatography

Cryo-EM

Acid Stress

0487

0876

Purification and structural analysis of Newcastle disease virus V protein and flowering locus T (FT) protein

Jayapalan, Swapna

15 December 2007

Newcastle disease virus (NDV) is one of the paramyxovirus that has been studied at length since this virus infects the birds of all species. NDV is highly virulent in chickens and results in a high mortality rate because the V protein of NDV is found to inhibit the avian immune response system. No drugs are available for treating NDV therefore, determining the structure of V protein would help in developing a drug that can inactivate the V protein, thereby increasing the host immune response against viral infection. The research here is focused on purification and initial structural analysis of the V protein of NDV. The V protein was purified by gel filtration chromatography and the structure was studied using fluorescence and CD spectroscopy, and NMR. The results suggested that the V protein is unstructured. The research also involved purification and structural analysis of the flowering locus T (FT) protein, which is found to play a major role in theninitiation of flowering in plants. Structural analysis of the FT protein may help in finding the possible domains of the FT protein that interacts with other plant proteins, leading ton flowering. The FT protein was purified by ion exchange chromatography and the structure was studied by fluorescence and CD spectroscopy. The fluorescence data suggested that the FT protein may be folded, where as the CD data was inconclusive. More accurate secondary structure information about the protein could be obtained using NMR, but since the concentration of the FT protein was too low (0.007 mM), proper NMR study was not possible.

V protein

FT protein

gel filtration chromatography

fluorescence

CD spectroscopy

NMR

Newcastle disease virus