Wlodek Mandecki

A totally synthetic plasmid for general cloning, gene expression and mutagenesis in Escherichia coli

A first totally synthetic Escherichia coli plasmid has been designed, constructed and shown to be a functional, stable, high-copy cloning vector. The FokI method of gene synthesis [Mandecki and Bolling, Gene 68 (1988) 101-107] was used to assemble the plasmid from 30 oligodeoxyribonucleotides. The plasmid contains synthetic modules for the beta-lactamase-encoding gene (bla), replication origin, lacZ gene fragment and multicloning site. The plasmid is patterned after the pUC-type plasmids and has a copy number similar to that of pUC plasmids. The major changes introduced include the removal of nearly 50% of the restriction sites present in pUC plasmids, reduction of plasmid size to 2050 bp, and introduction of transcription terminators downstream from both the bla gene and lacZ fragment. The changes facilitate a number of techniques, such as cloning, mutagenesis, expression and restriction analysis.

Enhancement of Single Molecule Fluorescence Signals by Colloidal Silver Nanoparticles in Studies of Protein Translation

Metal-enhanced fluorescence (MEF) increased total photon emission of Cy3- and Cy5-labeled ribosomal initiation complexes near 50 nm silver particles 4- and 5.5-fold, respectively. Fluorescence intensity fluctuations above shot noise, at 0.1-5 Hz, were greater on silver particles. Overall signal-to-noise ratio was similar or slightly improved near the particles. Proximity to silver particles did not compromise ribosome function, as measured by codon-dependent binding of fluorescent tRNA, dynamics of fluorescence resonance energy transfer between adjacent tRNAs in the ribosome, and tRNA translocation induced by elongation factor G.

Mutants of the lac promoter with large insertions and deletions between the CAP binding site and the −35 region

A set of the lac promoter mutants that have varying lengths of the spacer between the CAP binding site and the -35 region was constructed. The mutants have the spacer length increased by five (I5 mutant), or eleven (I11) residues or decreased by eleven residues (D11). We also present a construction of the hybrid between the gal and lac promoters in which the CAP binding site and the -35 region of the gal promoter are fused to the lac -10 region. The promoter fragments were assembled through ligations of chemically synthesized oligodeoxynucleotides and cloned into a pBR322-derivative vector. The results of the in vivo assays of promoter activity show that the I11 mutation results in an active but weak promoter that can be stimulated by CAP, though to a lesser degree than the wild-type lac promoter. The other mutants exhibit no promoter activity. Since the insertion of 11-bp preserves the location of the CAP binding site on the same side on the DNA helix, the data demonstrate the importance of spatial alignment between the CAP binding site and the promoter. The fact that the gal::lac hybrid is inactive as a promoter indicates also that catabolite activation is a highly complex process in which the -35 and -10 regions cannot be easily exchanged between promoters.

Efficiencies of translation in three reading frames of unusual non-ORF sequences isolated from phage display

An unusual nucleotide sequence, called H10, was previously isolated by biopanning with a random peptide library on filamentous phage. The sequence encoded a peptide that bound to the growth hormone binding protein. Despite the fact that the H10 sequence can be expressed in Escherichia coli as a fusion to the gene III minor coat protein of the M13 phage, the sequence contained two TGA stop codons in the zero frame. Several mutant derivatives of the H10 sequence carried not only a stop codon, but also showed frameshifts, either +1 or –1 in individual isolates, between the H10 start and the gene III sequences. In this work, we have subcloned the H10 sequence and three of its derivatives (one requiring a +1 reading frameshift for expression, one requiring a –1 reading frame‐shift, and one open reading frame) in gene fusions to a reporter β‐galactosidase gene. These sequences have been cloned in all three reading frames relative to the reporter. The non‐open reading frame constructs gave (surprisingly) high expression of the reporter (10–40% of control vector expression levels) in two out of the three frames. A site‐directed mutant of the TGA stop codon (to TTA) in the + 1 shifter greatly reduced the frameshift and gave expression primarily in the zero frame. By contrast, a site‐directed mutant of the TGA in the –1 shifter had little effect on the pattern of expression, and alteration of the first TGA (of two) in H10 itself paradoxically reduced expression by half. We believe these phenomena to reflect a translational recoding mechanism in which ribosomes switch reading frames or read past stop codons upon encountering a signal encoded in the nucleotide sequence of the mRNA, because both the open reading frame derivative (which has six nucleotide changes from parental H10) and the site‐directed mutant of the + 1 shifter, primarily expressed the reporter only in the zero frame.—Goldman, E., Korus, M., Mandecki, W. Efficiencies of translation in three reading frames of unusual non‐ORF sequences isolated from phage display. FASEB J. 14, 603–611 (2000)

Epitope mapping of anti-HIV and anti-HCV monoclonal antibodies and characterization of epitope mimics using a filamentous phage peptide library.

A large filamentous phage library (1 x 10(9) clones) displaying random 30-amino-acid (aa) sequences on the N terminus of the pIII coat protein was constructed and characterized. Clones in the library were affinity selected for binding to monoclonal antibodies (mAb) against two viral antigens, the HIV gp120 protein and the HCV core protein. The obtained aa sequences precisely identified the epitopes recognized by the mAb. Binding of peptide-carrying phages to the Ab was demonstrated by ELISA, Western blot and the surface plasmon resonance (SPR) method. The mAb-specific peptides were transferred via genetic techniques onto the N terminus of Escherichia coli alkaline phosphatase (AP). When fused to the enzyme, the peptides maintained their ability to bind their respective mAb, indicating that the peptides contained the necessary contact residues for binding. The affinity of the peptides was estimated to be 100 nM by SPR. A comparison is presented of the relative affinities of phage-derived peptides to the native viral epitopes also displayed on the AP scaffold. The approach of transferring epitopes from phage to AP for further evaluation should be applicable to many other mAb or receptors.

Properties of Escherichia coli EF-Tu mutants designed for fluorescence resonance energy transfer from tRNA molecules

Here we describe the design, preparation and characterization of 10 EF-Tu mutants of potential utility for the study of Escherichia coli elongation factor Tu (EF-Tu) interaction with tRNA by a fluorescence resonance energy transfer assay. Each mutant contains a single cysteine residue at positions in EF-Tu that are proximal to tRNA sites within the aminoacyl-tRNA.EF-Tu.GTP ternary complex that have previously been labeled with fluorophores. These positions fall in the 323-326 and 344-348 regions of EF-Tu, and at the C terminus. The EF-Tus were isolated as N-terminal fusions to glutathione S-transferase (GST), which was cleaved to yield intact EF-Tus. The mutant EF-Tus were tested for binding to GDP, binding to tRNA in gel retardation and protection assays, and activity in poly-U translation in vitro. The results indicate that at least three EF-Tu mutants, K324C, G325C and E348C, are suitable for further studies. Remarkably, GST fusions that were not cleaved were also active in the various assays, despite the N-terminal fusion.

Expression of non-open reading frames isolated from phage display due to translation reinitiation.

An unusual 38 codon sequence was previously isolated from a random peptide library by binding to growth hormone binding protein in phage display. This sequence, “H10,” and several variants did not contain open reading frames, but expressed a β‐galactosidase reporter 10–40% as well as control in both the original reading frame from phage display and the frame −1 to it. Inspection of the sequence suggested that expression in the −1 frame resulted from initiation at a downstream ATG in that frame, present in H10 and its variants, subsequently confirmed by site‐directed mutagenesis. Unexpectedly, mutagenesis of that out‐of‐frame downstream ATG also increased expression in the original non‐open reading frame by two‐ to threefold, creating a TTG codon adjacent to an existing in‐frame TTG codon, suggesting downstream translational reinitiation at a putative TTG start. We undertook an extensive site‐directed mutagenesis approach and report that this hypothesis is almost certainly correct. Features required for this reinitiation include an upstream translation start and a stop that can even be a suppressed amber codon 22 nucleotides further downstream from the restart. Replacing the TTG with ATG increases expression only twofold. Reinitiation occurs in either of two reading frames in this sequence.—Song, L., Mandecki, W., Goldman, E. Expression of non‐open reading frames isolated from phage display due to translation reinitiation. FASEB J. 17, 1674–1681 (2003)

Labeled EF-Tus for rapid kinetic studies of pretranslocation complex formation.

The universally conserved translation elongation factor EF-Tu delivers aminoacyl(aa)-tRNA in the form of an aa-tRNA·EF-Tu·GTP ternary complex (TC) to the ribosome where it binds to the cognate mRNA codon within the ribosomal A-site, leading to formation of a pretranslocation (PRE) complex. Here we describe preparation of QSY9 and Cy5 derivatives of the variant E348C-EF-Tu that are functional in translation elongation. Together with fluorophore derivatives of aa-tRNA and of ribosomal protein L11, located within the GTPase associated center (GAC), these labeled EF-Tus allow development of two new FRET assays that permit the dynamics of distance changes between EF-Tu and both L11 (Tu-L11 assay) and aa-tRNA (Tu-tRNA assay) to be determined during the decoding process. We use these assays to examine: (i) the relative rates of EF-Tu movement away from the GAC and from aa-tRNA during decoding, (ii) the effects of the misreading-inducing antibiotics streptomycin and paromomycin on tRNA selection at the A-site, and (iii) how strengthening the binding of aa-tRNA to EF-Tu affects the rate of EF-Tu movement away from L11 on the ribosome. These FRET assays have the potential to be adapted for high throughput screening of ribosomal antibiotics.

Design and properties of efficient tRNA:EF-Tu FRET system for studies of ribosomal translation

Formation of the ternary complex between GTP-bound form of elongation factor Tu (EF-Tu) and aminoacylated transfer RNA (aa-tRNA) is a key event in protein biosynthesis. Here we show that fluorescently modified Escherichia coli EF-Tu carrying three mutations, C137A, C255V and E348C, and fluorescently modified Phe-tRNA(Phe) form functionally active ternary complex that has properties similar to those of the naturally occurring (unmodified) complex. Similarities include the binding and binding rate constants, behavior in gel retardation assay, as well as activities in tRNA protection and in vitro translation assays. Proper labeling of EF-Tu was demonstrated in MALDI mass spectroscopy experiments. To generate the mutant EF-Tu, a series of genetic constructions were performed. Two native cysteine residues in the wild-type EF-Tu at positions 137 and 255 were replaced by Ala and Val, respectively, and an additional cysteine was introduced either in position 324 or 348. The assembly FRET assay showed a 5- to 7-fold increase of Cy5-labeled EF-Tu E348C mutant fluorescence upon formation of ternary complex with charged tRNA(Phe)(Cy3-labeled) when the complex was excited at 532 nm and monitored at 665 nm. In a control experiment, we did not observe FRET using uncharged tRNA(Phe)(Cy3), nor with wild-type EF-Tu preparation that was allowed to react with Cy5 maleimide, nor in the absence of GTP. The results obtained demonstrate that the EF-Tu:tRNA FRET system described can be used for investigations of ribosomal translation in many types of experiments.

Fluorescence enhancement on silver nanostructures: studies of components of ribosomal translation in vitro

Metallic particles, silver in particular, can significantly enhance the fluorescence of dye molecules in the immediate vicinity (5-20 nm) of the particle. This magnifying effect can be theoretically explained/predicted by considering the change of photonic mode density near the fluorophore due to coupling to the conducting surface. We are using this method to observe fluorescence from a single ribosomal particle in a project aimed at acquiring sequence information from the translating ribosome (NIHs