For years, the use of polyhistidine
tags (His-tags) has been a
staple in the isolation of recombinant proteins in immobilized metal
affinity chromatography experiments. Their usage has been widely beneficial
in increasing protein purity from crude cell lysates. For some recombinant
proteins, a consequence of His-tag addition is that it can affect
protein function and stability. Functional proteins are essential
in the elucidation of their biological, kinetic, structural, and thermodynamic
properties. In this study, we determine the effect of N-terminal His-tags
on the thermal stability of select proteins using differential scanning
fluorimetry and identify that the removal of the His-tag can have
both beneficial and deleterious effects on their stability.
Der p 1 and Der f 1 are major allergens from Dermatophagoides
pteronyssinus and D. farinae, respectively. An analysis of
antigenic determinants on both allergens was performed by site-directed mutagenesis. The
analysis was based on the X-ray crystal structures of the allergens in complex with Fab
fragments of three murine monoclonal antibodies that interfere with IgE antibody binding:
the two Der p 1-specific mAb 5H8 and 10B9, and the cross-reactive mAb 4C1. On one hand,
selected residues in the epitopes for mAb 5H8 and mAb 4C1 were substituted with amino
acids that resulted in impaired antibody binding to Der p 1. On the other hand, an epitope
for the Der p 1-specific mAb 10B9, which partially overlaps with mAb 4C1, was created in
Der f 1. The mutation of 1–3 amino acid residues in Der f 1 was sufficient to bind
mAb 10B9. These residues form hydrogen bonds with complementary determining regions (CDRs)
of the Ab other than H CDR3. This observation enveils an exception to the dominant role of
H CDR3 commonly observed in antigen recognition. Overall, this study resulted in the
identification of important residues for mAb and IgE antibody recognition in group 1 mite
allergens. This information can be used to engineer allergen mutants with reduced IgE
antibody binding for immunotherapy.
Organisms regulate gene expression in response to the environment to coordinate metabolic reactions. Clostridium thermocellum expresses enzymes for both lignocellulose solubilization and its fermentation to produce ethanol. One LacI regulator termed GlyR3 in C. thermocellum ATCC 27405 was previously identified as a repressor of neighboring genes with repression relieved by laminaribiose (a -1,3 disaccharide). To better understand the three C. thermocellum LacI regulons, deletion mutants were constructed using the genetically tractable DSM1313 strain. DSM1313 lacI genes Clo1313_2023, Clo1313_0089, and Clo1313_0396 encode homologs of GlyR1, GlyR2, and GlyR3 from strain ATCC 27405, respectively. Growth on cellobiose or pretreated switchgrass was unaffected by any of the gene deletions under controlled-pH fermentations. Global gene expression patterns from time course analyses identified glycoside hydrolase genes encoding hemicellulases, including cellulosomal enzymes, that were highly upregulated (5-to 100-fold) in the absence of each LacI regulator, suggesting that these were repressed under wild-type conditions and that relatively few genes were controlled by each regulator under the conditions tested. Clo1313_2022, encoding lichenase enzyme LicB, was derepressed in a ΔglyR1 strain. Higher expression of Clo1313_1398, which encodes the Man5A mannanase, was observed in a ΔglyR2 strain, and ␣-mannobiose was identified as a probable inducer for GlyR2-regulated genes. For the ΔglyR3 strain, upregulation of the two genes adjacent to glyR3 in the celC-glyR3-licA operon was consistent with earlier studies. Electrophoretic mobility shift assays have confirmed LacI transcription factor binding to specific regions of gene promoters. IMPORTANCE Understanding C. thermocellum gene regulation is of importance for improved fundamental knowledge of this industrially relevant bacterium. Most LacI transcription factors regulate local genomic regions; however, a small number of those genes encode global regulatory proteins with extensive regulons. This study indicates that there are small specific C. thermocellum LacI regulons. The identification of LacI repressor activity for hemicellulase gene expression is a key result of this work and will add to the small body of existing literature on the area of gene regulation in C. thermocellum.
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