Merita Murtola
Karolinska Institutet
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Featured researches published by Merita Murtola.
Journal of the American Chemical Society | 2010
Merita Murtola; Malgorzata Wenska; Roger Strömberg
DNA-cleaving restriction enzymes are well-known tools in biomedical and biotechnological research. There are, however, no corresponding enzymes known for RNA cleavage. There has been an ongoing development of artificial ribonucleases, including some attempts at sequence selectivity. However, so far these systems have displayed modest rates of cleavage, and in most cases, the cleaver has been used in excess or in stoichiometric amounts. In the current work, we present PNA-based systems (PNAzymes) that carry a Cu(II)-2,9-dimethylphenanthroline group and that act as site and sequence specific RNases. The general basis for the systems is that the target is cleaved at a nonbase paired region (RNA bulge) which is formed in the substrate upon binding of the PNAzyme. With this copper based system, cleavage takes place at virtually only one site and with a half-life of down to 30 min under stoichiometric conditions. Efficient turnover of RNA-substrate is shown with a 100-fold excess of substrate, thus, demonstrating true enzyme behavior. In addition, alteration of the sequence in the RNA bulge or a mismatch in the base-pairing region leads to substantial decreases in rate showing both kinetic resolution and binding discrimination in the substrate selectivity. The selectivity is further demonstrated by the substrates, with two potential cleavage sites differing in only one base, are cleaved only at the site that either does not have a mismatch or is kinetically preferred. We suggest that these systems can serve as a basis for construction of RNA restriction enzymes for in vitro manipulations.
Nucleic Acids Research | 2011
Małgorzata Wenska; Margarita Alvira; Peter Steunenberg; Åsa Stenberg; Merita Murtola; Roger Strömberg
A general procedure, based on a new activated alkyne linker, for the preparation of peptide–oligonucleotide conjugates (POCs) on solid support has been developed. With this linker, conjugation is effective at room temperature (RT) in millimolar concentration and submicromolar amounts. This is made possible since the use of a readily attachable activated triple bond linker enhances the Cu(I) catalyzed 1,3-dipolar cycloaddition (‘click’ reaction). The preferred scheme for conjugate preparation involves sequential conjugation to oligonucleotides on solid support of (i) an H-phosphonate-based aminolinker; (ii) the triple bond donor p-(N-propynoylamino)toluic acid (PATA); and (iii) azido-functionalized peptides. The method gives conversion of oligonucleotide to the POC on solid support, and only involves a single purification step after complete assembly. The synthesis is flexible and can be carried out without the need for specific automated synthesizers since it has been designed to utilize commercially available oligonucleotide and peptide derivatives on solid support or in solution. Methodology for the ready conversion of peptides into ‘clickable’ azidopeptides with the possibility of selecting either N-terminus or C-terminus connection also adds to the flexibility and usability of the method. Examples of synthesis of POCs include conjugates of oligonucleotides with peptides known to be membrane penetrating and nuclear localization signals.
Journal of Organic Chemistry | 2013
Anu Kiviniemi; Merita Murtola; Petri Ingman
Peptide nucleic acid (PNA) building blocks, bearing a fluorine sensor at C-5 of the uracil base [viz. trifluoromethyl and 3,3-bis(trifluoromethyl)-4,4,4-trifluorobut-1-ynyl], were synthesized and incorporated to a PNA strand, and their applicability for the monitoring of different hybridization modes by (19)F NMR spectroscopy was studied. Both sensors gave unique (19)F resonance shifts in NMR when the PNA was targeted to a complementary antiparallel DNA, antiparallel RNA, parallel DNA, and parallel RNA. The 5-trifluoromethyl-derived sensor was additionally applied for the monitoring of interconversions from a parallel DNA/PNA complex to an antiparallel RNA/PNA complex and from a PNA/PNA complex to two DNA/PNA complexes (i.e., double-duplex invasion).
Nucleosides, Nucleotides & Nucleic Acids | 2007
Merita Murtola; Dimitri Ossipov; Jessica Sandbrink; Roger Strömberg
We report on the synthesis of 2,9-diamino-1,10-phenanthroline PNA conjugates as well as on their action in cleavage of a target RNA. Synthesis of the PNA conjugates are performed on solid support and the phenanthroline derivative is conjugated either to the amino-end or to a centrally positioned diaminopropionic acid in the PNA via a urea linker. Cleavage of the target RNA is achieved and compared to cleavage with the corresponding 2,9-dimethyl-1,10-phenanthroline and glycine conjugates.
Nucleosides, Nucleotides & Nucleic Acids | 2007
Jessica Sandbrink; Merita Murtola; Roger Strömberg
A solid phase synthesis strategy for post-conjugation of amino acids and a phenanthroline derivative to peptide nucleic acids is described. The peptide nucleic acids, synthesized by 9-fluorenylmethyloxycarbonyl chemistry on TentaGel S Rink Amide resin, have an internally placed unit carrying an amino linker with 4-methyltrityl protection. Methyltrityl removal by mild acidic conditions and conjugation of amino acids or a phenanthroline derivative, via an amide or urea linker, was performed on-resin after completion of the chain assembly. This solid phase methodology resulted in excellent purities of the crude conjugates.
ChemBioChem | 2010
Merita Murtola; Simone Zaramella; Esther Yeheskiely; Roger Strömberg
Several different cationic nonapeptides have been synthesized and investigated with respect to how they can influence the thermal melting of 2′‐O‐methylRNA/RNA and DNA/DNA duplexes. Each peptide has a C‐terminal L‐phenylalanine unit and is otherwise uniformly composed of a sequence of a specific basic D‐amino acid that in most cases will be largely charged at neutral pH. These N‐terminal octamer stretches are composed variously of the amino acids D‐lysine, D‐diaminobutyric acid (D‐Dab), D‐diaminopropionic acid (D‐Dap), or D‐histidine. None of the peptides substantially affected the thermal melting of DNA/DNA duplexes, which was in sharp contrast with their effects on 2′‐O‐methylRNA/RNA duplexes. In particular, the peptides based on diaminopropionic and diaminobutyric acid units had strong positive effects on the melting temperatures of the 2′‐O‐methylRNA duplexes (up to 16 °C higher with 1 equivalent of peptide) at pH 7, whereas at pH 6 the effect was even more drastic (ΔTm up to +25 °C). The shorter R groups of the Dap and Dab groups appear to have a better length than lysine for enhancement of the thermal melting of the 2′‐O‐methylRNA/RNA duplex, an effect that is more pronounced at lower pH but substantial even at pH 7, although the Dap derivative is not likely to be fully protonated. The dramatic difference between the influence, or lack thereof, on the 2′‐O‐methylRNA/RNA and the DNA/DNA thermal meltings suggest that, although electrostatic interactions probably play a role, there is another major and structurally dependent component influencing the properties of the duplexes. This is also seen in the observation that the oligo‐Dap and oligo‐Dab peptides give greater melting point enhancements than both the lysine peptide (with a longer side chain) and a β‐linked Dap peptide with a shorter side chain and a longer backbone.
Molecules | 2017
Merita Murtola; Alice Ghidini; Roger Strömberg
In this report, we investigate the efficiency and selectivity of a Zn2+-dependent peptide nucleic acid-based artificial ribonuclease (PNAzyme) that cleaves RNA target sequences. The target RNAs are varied to form different sizes (3 and 4 nucleotides, nt) and sequences in the bulge formed upon binding to the PNAzyme. PNAzyme-promoted cleavage of the target RNAs was observed and variation of the substrate showed a clear dependence on the sequence and size of the bulge. For targets that form 4-nt bulges, we identified systems with an improved efficacy (an estimated half-life of ca 7–8 h as compared to 11–12 h for sequences studied earlier) as well as systems with an improved site selectivity (up to over 70% cleavage at a single site as compared to 50–60% with previous targets sequences). For targets forming 3-nt bulges, the enhancement compared to previous systems was even more pronounced. Compared to a starting point of targets forming 3-nt AAA bulges (half-lives of ca 21–24 h), we could identify target sequences that were cleaved with half-lives three times lower (ca 7–8 h), i.e., at rates similar to those found for the fastest 4-nt bulge system. In addition, with the 3-nt bulge RNA target site selectivity was improved even further to reach well over 80% cleavage at a specific site.
Chemistry: A European Journal | 2017
Ville Tähtinen; Lotta Granqvist; Merita Murtola; Roger Strömberg
Triplex-forming peptide nucleic acids (TFPNAs) were targeted to double-helical regions of 19 F-labeled RNA hairpin models (a UA-rich duplex with a hexaethylene glycol (heg) loop and a microRNA model, miR-215). In addition to conventional UV- and circular dichroism (CD)-based detection, binding was monitored by 19 F NMR spectroscopy. Detailed information on the stoichiometry and transition between the triple-helical peptide nucleic acid (PNA)/RNA and (PNA)2 /RNA binding modes could be obtained. γ-(R)-Hydroxymethyl-modified thymine-1-yl- and 2-aminopyridin-3-yl-acetyl derivatives of TFPNAs were additionally synthesized, which were targeted to the same RNA models, and the effect of the γ-(R)-hydroxymethyl group on binding was studied. An appropriate pattern of γ-(R)-hydroxymethyl modifications reduced the stability of the ternary complex and preferred stoichiometric binding to the miR-215 model.
Molecules | 2014
Alice Ghidini; Peter Steunenberg; Merita Murtola; Roger Strömberg
Several different approaches have been explored for conjugation of oligoethers to PNA with internally or N-terminal placed diaminopropionic acid residues. Single and double conjugation of 2-(2-(2-aminoethoxy)ethoxy)ethanol was obtained using carbonyldimidazole. Using a post PNA-assembly coupling procedure the building block 2-(2-(2-(benzoyloxy)ethoxy)ethoxy)acetic acid multiple attachment of 2-(2-(2-hydroxyethoxy)ethoxy)acetyl groups to both N-terminal and β-amino groups of inserted diaminopropionic acids residues was achieved. Use of a new oligoether functionalized amino acid allows inclusion of oligoether conjugates during on-line machine assisted synthesis which also allowed combination of methods for attachment of different oligoethers and co-conjugation of neocuproine as well as conjugation of an aminosugar.
Bioorganic & Medicinal Chemistry Letters | 2012
Joana R. Viola; Roger Strömberg; Oscar E. Simonson; Samir El Andaloussi; C. I. Edvard Smith; Merita Murtola
Here we report a novel class of peptides-d-diaminopropionic acids (Dap)-for gene delivery. These peptides have attractive properties for gene delivery, and the advantage that they can be easily manipulated in relation to their composition, abiding with tailored-design. We characterized the toxicological and biophysical properties of DNA particles resulting from the interaction of the nucleic acid with a series of Dap(8) peptides conjugated to different alkyl groups. These peptides formed small and homogenous DNA particle populations that protected against DNase I degradation at non-toxic concentrations. However, despite the similarity between these peptides and others that are arginine-rich, and efficient vectors, functional studies suggest the need for additional modifications in the carriers to improve their DNA delivery efficiency. Taken together, these studies underscore the relevance of the overall structure of the carrier and the complexity of designing from scratch a carrier.