Your search keyword '"Paborsky LR"' showing total 6 results

1. A nickel chelate microtiter plate assay for six histidine-containing proteins.

Author

Paborsky LR, Dunn KE, Gibbs CS, and Dougherty JP

Subjects

Antibodies, Monoclonal, Enzyme-Linked Immunosorbent Assay methods, Indicators and Reagents, Interleukin-8 analysis, Ligands, Lysine analogs & derivatives, Lysine chemical synthesis, Recombinant Proteins analysis, Reproducibility of Results, Sensitivity and Specificity, Transferrin analysis, Chelating Agents, Histidine analysis, Nickel, Nitrilotriacetic Acid analogs & derivatives, Organometallic Compounds, Proteins analysis, Sequence Tagged Sites

Abstract

Protein purification has been made significantly easier by the use of affinity tags that can be genetically engineered at either the amino- or carboxyl-terminus of recombinant proteins. One of the most widely used tags is six consecutive histidine residues or 6His tag. These residues bind with high affinity to metal ions immobilized on chelating resins even in the presence of denaturing agents and can be mildly eluted with imidazole. We report the methodology for the immobilization of six histidine-containing proteins onto microtiter plates. A derivative of nitrilotriacetic acid (NTA) was prepared. This derivative, N,N-bis[carboxymethyl]lysine (BCML), was easily coupled to a maleic anhydride-activated polystyrene microtiter plate. The plate was then charged with Ni2+ for the capture of the 6His-tagged proteins. Using two different recombinant proteins with the 6His tag at either the N- or C-terminus, we demonstrated that the binding to the Ni(2+)-NTA plate was specific for six histidine-containing proteins. Proteins lacking the 6His tags did not bind to the plate. The plate was used in a modified enzyme-linked immunoabsorbent assay format to quantitate protein concentrations and determine the affinity of protein-ligand interactions. The technology can also be extended to include high-throughput screening assays for antagonists of protein-protein interactions.

Published

1996

2. Development of a high-throughput assay to detect antibody inhibition of low pH induced conformational changes of influenza virus hemagglutinin.

Author

Trost, Jessica F., LeMasters, Elizabeth H., Liu, Feng, Carney, Paul, Lu, Xiuhua, Sugawara, Kanetsu, Hongo, Seiji, Stevens, James, Steinhauer, David A., Tumpey, Terrence, Katz, Jacqueline M., Levine, Min Z., and Li, Zhu-Nan

Subjects

HEMAGGLUTININ, INFLUENZA viruses, IMMUNOGLOBULINS, PROTEIN conformation, VIRAL envelopes

Abstract

Many broadly neutralizing antibodies (bnAbs) bind to conserved areas of the hemagglutinin (HA) stalk region and can inhibit the low pH induced HA conformational changes necessary for viral membrane fusion activity. We developed and evaluated a high-throughput virus-free and cell-free ELISA based low pH induced HA Conformational Change Inhibition Antibody Detection Assay (HCCIA) and a complementary proteinase susceptibility assay. Human serum samples (n = 150) were tested by HCCIA using H3 recombinant HA. Optical density (OD) ratios of mAb HC31 at pH 4.8 to pH 7.0 ranged from 0.87 to 0.09. Our results demonstrated that low pH induced HA conformational change inhibition antibodies (CCI) neutralized multiple H3 strains after removal of head-binding antibodies. The results suggest that HCCIA can be utilized to detect and characterize CCI in sera, that are potentially broadly neutralizing, and serves as a useful tool for evaluating universal vaccine candidates targeting the HA stalk. [ABSTRACT FROM AUTHOR]

Published

2018

3. Neprilysin Inhibits Coagulation through Proteolytic Inactivation of Fibrinogen.

Author

Burrell, Matthew, Henderson, Simon J., Ravnefjord, Anna, Schweikart, Fritz, Fowler, Susan B., Witt, Susanne, Hansson, Kenny M., and Webster, Carl I.

Subjects

NEPRILYSIN, BLOOD coagulation, PROTEOLYTIC enzymes, FIBRINOGEN, AMYLOID beta-protein, ALZHEIMER'S disease

Abstract

Neprilysin (NEP) is an endogenous protease that degrades a wide range of peptides including amyloid beta (Aβ), the main pathological component of Alzheimer’s disease (AD). We have engineered NEP as a potential therapeutic for AD but found in pre-clinical safety testing that this variant increased prothrombin time (PT) and activated partial thromboplastin time (APTT). The objective of the current study was to investigate the effect of wild type NEP and the engineered variant on coagulation and define the mechanism by which this effect is mediated. PT and APTT were measured in cynomolgus monkeys and rats dosed with a human serum albumin fusion with an engineered variant of NEP (HSA-NEPv) as well as in control plasma spiked with wild type or variant enzyme. The coagulation factor targeted by NEP was determined using in vitro prothrombinase, calibrated automated thrombogram (CAT) and fibrin formation assays as well as N-terminal sequencing of fibrinogen treated with the enzyme. We demonstrate that HSA-NEP wild type and HSA-NEPv unexpectedly impaired coagulation, increasing PT and APTT in plasma samples and abolishing fibrin formation from fibrinogen. This effect was mediated through cleavage of the N-termini of the Aα- and Bβ-chains of fibrinogen thereby significantly impairing initiation of fibrin formation by thrombin. Fibrinogen has therefore been identified for the first time as a substrate for NEP wild type suggesting that the enzyme may have a role in regulating fibrin formation. Reductions in NEP levels observed in AD and cerebral amyloid angiopathy may contribute to neurovascular degeneration observed in these conditions. [ABSTRACT FROM AUTHOR]

Published

2016

4. Serum uPAR as Biomarker in Breast Cancer Recurrence: A Mathematical Model.

Author

Hao, Wenrui and Friedman, Avner

Subjects

BREAST cancer risk factors, TUMOR markers, BLOOD serum analysis, CANCER relapse, CANCER, BREAST cancer patients, MATHEMATICAL models

Abstract

There are currently over 2.5 million breast cancer survivors in the United States and, according to the American Cancer Society, 10 to 20 percent of these women will develop recurrent breast cancer. Early detection of recurrence can avoid unnecessary radical treatment. However, self-examination or mammography screening may not discover a recurring cancer if the number of surviving cancer cells is small, while biopsy is too invasive and cannot be frequently repeated. It is therefore important to identify non-invasive biomarkers that can detect early recurrence. The present paper develops a mathematical model of cancer recurrence. The model, based on a system of partial differential equations, focuses on tissue biomarkers that include the plasminogen system. Among them, only uPAR is known to have significant correlation to its concentration in serum and could therefore be a good candidate for serum biomarker. The model includes uPAR and other associated cytokines and cells. It is assumed that the residual cancer cells that survived primary cancer therapy are concentrated in the same location within a region with a very small diameter. Model simulations establish a quantitative relation between the diameter of the growing cancer and the total uPAR mass in the cancer. This relation is used to identify uPAR as a potential serum biomarker for breast cancer recurrence. [ABSTRACT FROM AUTHOR]

Published

2016

5. Gene Expression in Mammalian Cells and its Applications.

Author

Khan, Kishwar Hayat

Subjects

GENE expression, MAMMALIAN cell cycle, PROTEINS, VIRUS diseases in cattle, PLASMIDS, NANOTECHNOLOGY

Abstract

The production of proteins in appropriate quantity and quality is an essential requirement of the present time. There appears to be a progressive increase in the application of mammalian cells for proteins production. Expression systems utilizing mammalian cells for recombinant proteins are able to introduce proper protein folding, post-translational modifications, and product assembly, which are important for complete biological activity. This review article is totally based on literature survey. In this article much emphasis has been done on the mammalian expression system. The author focused on different mammalian cell lines that express the gene. The different vector systems that transfer the gene into mammalian cells like plasmid based expression vectors, adenovirus vectors, vaccinia vectors, retroviral vector and baculovirus as vectors were explored. The processes for the transfer of gene into mammalian cells were also reviewed. Application and limitations of mammalian expression system were also focused. The purpose of research in writing this article is to create awareness in researchers, starting their career in gene expression related to mammalian cells. The principal result and major conclusion of this article is to make available the molecular technologies, expression system and applications of gene expression in mammalian cell lines. [ABSTRACT FROM AUTHOR]

Published

2013

6. Directed Enzyme Evolution: Advances and Applications

Author

Miguel Alcalde and Miguel Alcalde

Subjects

Microbiology, Proteins, Life sciences, Molecular evolution, Enzymes--Biotechnology, Protein engineering

Abstract

This book focuses on some of the most significant advances in enzyme engineering that have been achieved through directed evolution and hybrid approaches. On the 25th anniversary of the discovery of directed evolution, this volume is a tribute to the pioneers of this thrilling research field, and at the same time provides a comprehensive overview of current research and the state of the art.Directed molecular evolution has become the most reliable and robust method to tailor enzymes, metabolic pathways or even whole microorganisms with improved traits. By mirroring the Darwinian algorithm of natural selection on a laboratory scale, new biomolecules of invaluable biotechnological interest can now be engineered in a manner that surpasses the boundaries of nature.The volume is divided into two sections, the first of which provides an update on recent successful cases of enzyme ensembles from different areas of the biotechnological spectrum, including tryptophan synthases, unspecific peroxygenases, phytases, therapeutic enzymes, stereoselective enzymes and CO2-fixing enzymes. This section also provides information on the directed evolution of whole cells. The second section of the book summarizes a variety of the most applicable methods for library creation, together with the future trends aimed at bringing together directed evolution and in silico/computational enzyme design and ancestral resurrection.

Published

2017