Your search keyword '"Nothisen M"' showing total 23 results

1. Polydiacetylenic nanofibers as new siRNA vehicles for in vitro and in vivo delivery

Author

Neuberg, P., primary, Hamaidi, I., additional, Danilin, S., additional, Ripoll, M., additional, Lindner, V., additional, Nothisen, M., additional, Wagner, A., additional, Kichler, A., additional, Massfelder, T., additional, and Remy, J.-S., additional

Published

2018

2. Bio-specific and bio-orthogonal chemistries to switch-off the quencher of a FRET-based fluorescent probe: application to living-cell biothiol imaging

Author

Egloff, C., primary, Jacques, S. A., additional, Nothisen, M., additional, Weltin, D., additional, Calligaro, C., additional, Mosser, M., additional, Remy, J.-S., additional, and Wagner, A., additional

Published

2014

3. Early detection of 2-amino-1-methyl-6-phenylimidazo (4,5-b)pyridine(PhIP)-induced mutations within the Apc gene of rat colon

Author

Burnouf, D. Y., primary, Miturski, R., additional, Nagao, M., additional, Nakagama, H., additional, Nothisen, M., additional, Wagner, J., additional, and Fuchs, R. P.P., additional

Published

2001

4. Molecular approach in cancer epidemiology: early detection of carcinogen-induced mutations in a whole genome (Review).

Author

Burnouf, D, primary, Miturski, R, additional, Nagao, M, additional, Nakagama, H, additional, Nothisen, M, additional, Wagner, J, additional, and Fuchs, R P, additional

Published

2000

5. Towards synthetic viruses

Author

Zuber, G., Dauty, E., Nothisen, M., Belguise, P., and Behr, J. P.

Published

2001

6. A Novel Family of Acid-Cleavable Linker Based on Cyclic Acetal Motifs for the Production of Antibody-Drug Conjugates with High Potency and Selectivity.

Author

Rady T, Turelli L, Nothisen M, Tobaldi E, Erb S, Thoreau F, Hernandez-Alba O, Cianferani S, Daubeuf F, Wagner A, and Chaubet G

Subjects

Mice, Animals, Humans, Acetals, Ado-Trastuzumab Emtansine, Cell Line, Tumor, Hydrazones, Carrier Proteins, Immunoconjugates metabolism, Antineoplastic Agents metabolism

Abstract

Cleavable linkers have become the subject of intense study in the field of chemical biology, particularly because of their applications in the construction of antibody-drug conjugates (ADC), where they facilitate lysosomal cleavage and liberation of drugs from their carrier protein. Due to lysosomes' acidic nature, acid-labile motifs have attracted much attention, leading to the development of hydrazone and carbonate linkers among several other entities. Continuing our efforts in designing new moieties, we present here a family of cyclic acetals that exhibit excellent plasma stability and acid lability, notably in lysosomes. Incorporated in ADC, they led to potent constructs with picomolar potency in vitro and similar in vivo efficacy as the commercially available ADC Kadcyla in mouse xenograft models.

Published

2022

7. Manniindole, an indole derivative from the roots of Anonidium mannii and combined antischistosomal and enzymatic activities.

Author

Toussi Matchi JL, Tchamo Noungoue D, Kuhn I, Boissier J, Tchouankeu JC, Nothisen M, Chaubet G, Garnier D, Ursuegui S, Ngouela SA, and Wagner A

Subjects

Animals, Indoles pharmacology, Plant Roots, Schistosoma mansoni, Annonaceae

Abstract

A new alkaloid, manniindole 1 , together with four known compounds: aristolactam AII 2 , aristolactam BII 3 , piperolactam D 4 and polycarpol 5 were isolated from the crude extract EtOH-H 2 O (8:2) of the roots of Anonidium mannii by chromatographic separation. The structure elucidation was performed on the basis of a spectroscopic analysis (IR, HRESI MS, 1D and 2D NMR) as well as a comparison of their spectral data with those reported in the literature. For the first time, the crude extract and those isolated compounds were evaluated for their anti-schistosomal activity against Schistosoma mansoni and for cytotoxicity activity against Huh7 and A549 cells. Furthermore, they were also tested in vitro on the recent characterized Schistosoma mansoni NAD + catabolizing enzyme ( Sm NACE) for their impact on this enzyme which is localized on the outer surface of the adult parasite. Compound 2 displayed quite good worm killing capability, while 4 showed significant inhibition of Sm NACE.

Published

2021

8. Bicyclo[6.1.0]nonyne carboxylic acid for the production of stable molecular probes.

Author

Rady T, Mosser M, Nothisen M, Erb S, Dovgan I, Cianférani S, Wagner A, and Chaubet G

Abstract

Bicyclo[6.1.0]non-4-yn-9-ylmethanol (BCN alcohol) is the most prominent strained-alkyne scaffold in chemical biology. Described herein is the synthesis of an oxidized analogue - BCN acid - whose facile functionalization via amide bond formation yields more stable derivatives than the classically encountered carbamates., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2021

9. Non-specific interactions of antibody-oligonucleotide conjugates with living cells.

Author

Lehot V, Kuhn I, Nothisen M, Erb S, Kolodych S, Cianférani S, Chaubet G, and Wagner A

Subjects

Antibodies chemistry, Cell Line, Tumor, Cell Survival, Humans, Kinetics, Oligonucleotides chemistry, Trastuzumab chemistry, Trastuzumab metabolism, Antibodies metabolism, Oligonucleotides metabolism

Abstract

Antibody-Oligonucleotide Conjugates (AOCs) represent an emerging class of functionalized antibodies that have already been used in a wide variety of applications. While the impact of dye and drug conjugation on antibodies' ability to bind their target has been extensively studied, little is known about the effect caused by the conjugation of hydrophilic and charged payloads such as oligonucleotides on the functions of an antibody. Previous observations of non-specific interactions of nucleic acids with untargeted cells prompted us to further investigate their impact on AOC binding abilities and cell selectivity. We synthesized a series of single- and double-stranded AOCs, as well as a human serum albumin-oligonucleotide conjugate, and studied their interactions with both targeted and non-targeted living cells using a time-resolved analysis of ligand binding assay. Our results indicate that conjugation of single strand oligonucleotides to proteins induce consistent non-specific interactions with cell surfaces while double strand oligonucleotides have little or no effect, depending on the preparation method.

Published

2021

10. On the use of DNA as a linker in antibody-drug conjugates: synthesis, stability and in vitro potency.

Author

Dovgan I, Ehkirch A, Lehot V, Kuhn I, Koniev O, Kolodych S, Hentz A, Ripoll M, Ursuegui S, Nothisen M, Cianférani S, and Wagner A

Subjects

Cell Line, Tumor, Humans, Antineoplastic Agents chemistry, DNA, Immunoconjugates chemistry, Oligopeptides chemistry, Trastuzumab chemistry

Abstract

Here we present the synthesis and evaluation of antibody-drug conjugates (ADCs), for which antibody and drug are non-covalently connected using complementary DNA linkers. These ADCs are composed of trastuzumab, an antibody targeting HER2 receptors overexpressed on breast cancer cells, and monomethyl auristatin E (MMAE) as a drug payload. In this new ADC format, trastuzumab conjugated to a 37-mer oligonucleotide (ON) was prepared and hybridized with its complementary ON modified at 5-end with MMAE (cON-MMAE) in order to obtain trastuzumab-DNA-MMAE. As an advantage, the cON-MMAE was completely soluble in water, which decreases overall hydrophobicity of toxic payload, an important characteristic of ADCs. The stability in the human plasma of these non-engineered ON-based linkers was investigated and showed a satisfactory half-life of 5.8 days for the trastuzumab-DNA format. Finally, we investigated the in vitro cytotoxicity profile of both the DNA-linked ADC and the ON-drug conjugates and compared them with classical covalently linked ADC. Interestingly, we found increased cytotoxicity for MMAE compared to cON-MMAE and an EC50 in the nanomolar range for trastuzumab-DNA-MMAE on HER2-positive cells. Although this proved to be less potent than classically linked ADC with picomolar range EC50, the difference in cytotoxicity between naked payload and conjugated payload was significant when an ON linker was used. We also observed an interesting increase in cytotoxicity of trastuzumab-DNA-MMAE on HER2-negative cells. This was attributed to enhanced non-specific interaction triggered by the DNA strand as it could be confirmed using ligand tracer assay.

Published

2020

11. Sydnone-based turn-on fluorogenic probes for no-wash protein labeling and in-cell imaging.

Author

Plougastel L, Pattanayak MR, Riomet M, Bregant S, Sallustrau A, Nothisen M, Wagner A, Audisio D, and Taran F

Subjects

Alkynes chemistry, Cycloaddition Reaction, Electrophoresis, Polyacrylamide Gel, HeLa Cells, Humans, Microscopy, Confocal, Proteins metabolism, Fluorescent Dyes chemistry, Proteins chemistry, Sydnones chemistry

Abstract

We report the synthesis and use of sydnone-based profluorophores as tools for imaging applications. These new probes display exquisite reactivity towards strain promoted cycloaddition reactions with cycloalkynes allowing fast, efficient and selective labeling in biological media. Styryl-pyridinium sydnone probes were found particularly interesting for click reactions to proceed selectively inside cells.

Published

2019

12. Cationic Oligospermine-Oligonucleotide Conjugates Provide Carrier-free Splice Switching in Monolayer Cells and Spheroids.

Author

Nothisen M, Perche-Létuvée P, Behr JP, Remy JS, and Kotera M

Abstract

We report the evaluation of 18-mer 2'-O-methyl-modified ribose oligonucleotides with a full-length phosphorothioate backbone chemically conjugated at the 5' end to the oligospermine units (S n -: n = 5, 15, 20, 25, and 30 [number of spermine units]) as splice switching oligonucleotides (SSOs). These conjugates contain, in their structure, covalently linked oligocation moieties, making them capable of penetrating cells without transfection vector. In cell culture, we observed efficient cytoplasmic and nuclear delivery of fluorescein-labeled S 20 -SSO by fluorescent microscopy. The SSO conjugates containing more than 15 spermine units induced significant carrier-free exon skipping at nanomolar concentration in the absence and in the presence of serum. With an increasing number of spermine units, the conjugates became slightly toxic but more active. Advantages of these molecules were particularly demonstrated in three-dimensional (3D) cell culture (multicellular tumor spheroids [MCTSs]) that mimics living tissues. Whereas vector-complexed SSOs displayed a drastically reduced splice switching in MCTS compared with the assay in monolayer culture, an efficient exon skipping without significant toxicity was observed with oligospermine-grafted SSOs (S 15 - and S 20 -SSOs) transfected without vector. It was shown, by flow cytometry and confocal microscopy, that the fluorescein-labeled S 20 -SSO was freely diffusing and penetrating the innermost cells of MCTS, whereas the vector-complexed SSO penetrated only the cells of the spheroid's outer layer., (Copyright © 2018 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2018

13. Structure Tuning of Cationic Oligospermine-siRNA Conjugates for Carrier-Free Gene Silencing.

Author

Nothisen M, Bagilet J, Behr JP, Remy JS, and Kotera M

Subjects

A549 Cells, Cations chemistry, Fluorescent Antibody Technique, HeLa Cells, Humans, Lamin Type A genetics, Lamin Type A metabolism, Luciferases genetics, Luciferases metabolism, RNA, Small Interfering physiology, Gene Silencing physiology, Oligonucleotides chemistry, RNA, Small Interfering chemistry, Spermine chemistry

Abstract

Oligospermine-siRNA conjugates are able to induce efficient luciferase gene silencing upon carrier-free transfection. These conjugates are readily accessible by a versatile automated chemistry that we developed using a DMT-spermine phosphoramidite reagent. In this article, we used this chemistry to study a wide range of structural modifications of the oligospermine-siRNA conjugates, i.e., variation of conjugate positions and introduction of chemical modifications to increase nuclease resistance. At first we examined gene silencing activity of a series of siRNA-tris(spermine) conjugates with and without chemical modifications in standard carrier assisted conditions. The three spermine units attached at one of the two ends of the sense strand or at the 3'-end of the antisense strand are compatible with gene silencing activity whereas attachment of spermine units at the 5'-end of the antisense strand abolished the activity. 2'-O-Methylated nucleotides introduced in the sense strand are compatible while not in the antisense strand. Thiophosphate links could be used without activity loss at the 3'-end of both strands and at the 5'-end of the sense strand to conjugate oligospermine. Consequently a series of oligospermine-siRNA conjugates containing 15 to 45 spermines units in various configurations were chosen, prepared, and examined in carrier-free conditions. Attachment of 30 spermine units singly at the 5'-end of the sense strand provides the most potent carrier-free siRNA. Longevity of luciferase gene silencing was studied using oligospermine-siRNA conjugates. Five day long efficiency with more than 80% gene expression knockdown was observed upon transfection without vector. Oligospermine-siRNA conjugates targeting cell-constitutive natural lamin A/C gene were prepared. Efficient gene silencing was observed upon carrier-free transfection of siRNA conjugates containing 20 or 30 spermine residues grafted at the 5'-end of the sense strand.

Published

2016

14. From solution to in-cell study of the chemical reactivity of acid sensitive functional groups: a rational approach towards improved cleavable linkers for biospecific endosomal release.

Author

Jacques SA, Leriche G, Mosser M, Nothisen M, Muller CD, Remy JS, and Wagner A

Subjects

Cell Line, Hydrogen-Ion Concentration, Hydrolysis, Kinetics, Endosomes metabolism, Fluorescent Dyes chemistry, Fluorescent Dyes metabolism

Abstract

pH-Sensitive linkers designed to undergo selective hydrolysis at acidic pH compared to physiological pH can be used for the selective release of therapeutics at their site of action. In this paper, the hydrolytic cleavage of a wide variety of molecular structures that have been reported for their use in pH-sensitive delivery systems was examined. A wide variety of hydrolytic stability profiles were found among the panel of tested chemical functionalities. Even within a structural family, a slight modification of the substitution pattern has an unsuspected outcome on the hydrolysis stability. This work led us to establish a first classification of these groups based on their reactivities at pH 5.5 and their relative hydrolysis at pH 5.5 vs. pH 7.4. From this classification, four representative chemical functions were selected and studied in-vitro. The results revealed that only the most reactive functions underwent significant lysosomal cleavage, according to flow cytometry measurements. These last results question the acid-based mechanism of action of known drug release systems and advocate for the importance of an in-depth structure-reactivity study, using a tailored methodology, for the rational design and development of bio-responsive linkers.

Published

2016

15. Spiro Diorthoester (SpiDo), a Human Plasma Stable Acid-Sensitive Cleavable Linker for Lysosomal Release.

Author

Leriche G, Nothisen M, Baumlin N, Muller CD, Bagnard D, Remy JS, Jacques SA, and Wagner A

Subjects

Animals, Cells, Cultured, Drug Delivery Systems, Fluorescence, Humans, Hydrazones chemistry, Hydrogen-Ion Concentration, Hydrolysis, Liver metabolism, Mice, Molecular Imaging, Acids chemistry, Cross-Linking Reagents chemistry, Drug Carriers, Lysosomes metabolism, Plasma chemistry

Abstract

pH-sensitive linkers designed to undergo selective hydrolysis at acidic pH compared to physiological pH can be used for selective release of therapeutics selectively at targets and orthoesters have been demonstrated to be good candidates for such linkers. Following an HPLC screening, a Spiro Diorthoester (SpiDo) derivative was identified as a potent acid-labile group for the development of pH-sensitive targeted systems. After incorporation of this linker into activatable FRET-based probe and side-by-side comparison to a well-known alkylhydrazone linker, this SpiDo linker has shown a fast and pH sensitive hydrolysis for mild acidic conditions, a pH sensitive lysosomal hydrolysis, and high stability in human plasma.

Published

2015

16. Copper-chelating azides for efficient click conjugation reactions in complex media.

Author

Bevilacqua V, King M, Chaumontet M, Nothisen M, Gabillet S, Buisson D, Puente C, Wagner A, and Taran F

Subjects

Catalysis, Click Chemistry, Cycloaddition Reaction, Reactive Oxygen Species, Azides chemistry, Copper chemistry

Abstract

The concept of chelation-assisted copper catalysis was employed for the development of new azides that display unprecedented reactivity in the copper(I)-catalyzed azide-alkyne [3+2] cycloaddition (CuAAC) reaction. Azides that bear strong copper-chelating moieties were synthesized; these functional groups allow the formation of azide copper complexes that react almost instantaneously with alkynes under diluted conditions. Efficient ligation occurred at low concentration and in complex media with only one equivalent of copper, which improves the biocompatibility of the CuAAC reaction. Furthermore, such a click reaction allowed the localization of a bioactive compound inside living cells by fluorescence measurements., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

17. Selective irreversible chemical tagging of cysteine with 3-arylpropiolonitriles.

Author

Koniev O, Leriche G, Nothisen M, Remy JS, Strub JM, Schaeffer-Reiss C, Van Dorsselaer A, Baati R, and Wagner A

Subjects

Amino Acid Sequence, Chromatography, Liquid, Humans, Models, Chemical, Molecular Sequence Data, Muramidase chemistry, Tandem Mass Spectrometry, Cysteine chemistry, Nitriles chemistry

Abstract

Exquisite chemoselectivity for cysteine has been found for a novel class of remarkably hydrolytically stable reagents, 3-arylpropiolonitriles (APN). The efficacy of the APN-mediated tagging was benchmarked against other cysteine-selective methodologies in a model study on a series of traceable amino acid derivatives. The selectivity of the methodology was further explored on peptide mixtures obtained by trypsin digestion of lysozyme. Additionally, the superior stability of APN-cysteine conjugates in aqueous media, human plasma, and living cells makes this new thiol-click reaction a promising methodology for applications in bioconjugation.

Published

2014

18. Polycationic pillar[5]arene derivatives: interaction with DNA and biological applications.

Author

Nierengarten I, Nothisen M, Sigwalt D, Biellmann T, Holler M, Remy JS, and Nierengarten JF

Subjects

Calixarenes, Click Chemistry, DNA chemistry, DNA metabolism, Dendrimers chemistry, HeLa Cells, Humans, Nanoparticles chemistry, Plasmids metabolism, Polyamines metabolism, Polyelectrolytes, Quaternary Ammonium Compounds metabolism, Transfection, Polyamines chemistry, Quaternary Ammonium Compounds chemistry

Abstract

Dendritic pillar[5]arene derivatives have been efficiently prepared by grafting dendrons with peripheral Boc-protected amine subunits onto a preconstructed pillar[5]arene scaffold. Upon cleavage of the Boc-protected groups, water-soluble pillar[5]arene derivatives with 20 (13) and 40 (14) peripheral ammonium groups have been obtained. The capability of these compounds to form stable nanoparticles with plasmid DNA has been demonstrated by gel electrophoresis, transmission electron microscopy (TEM), and dynamic light scattering (DLS) investigations. Transfection efficiencies of the self-assembled 13/pCMV-Luc and 14/pCMV-Luc polyplexes have been evaluated in vitro with HeLa cells. The transfection efficiencies found for both compounds are good, and pillar[5]arenes 13 and 14 show very low toxicity if any., (Copyright © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2013

19. Cell-penetrating cationic siRNA and lipophilic derivatives efficient at nanomolar concentrations in the presence of serum and albumin.

Author

Perche P, Nothisen M, Bagilet J, Behr JP, Kotera M, and Remy JS

Subjects

Cell Line, Tumor, Humans, Lipids chemistry, Luciferases, Firefly genetics, Oligonucleotides chemistry, RNA, Small Interfering chemistry, Spermine chemistry, Albumins pharmacology, Gene Silencing, RNA, Small Interfering administration & dosage, Serum

Abstract

Despite its considerable interest in human therapy, in vivo siRNA delivery is still suffering from hurdles of vectorization. We have shown recently efficient gene silencing by non-vectorized cationic siRNA. Here, we describe the synthesis and in vitro evaluation of new amphiphilic cationic siRNA. C₁₂-, (C₁₂)₂- and cholesteryl-spermine(x)-siRNA were capable of luciferase knockdown at nanomolar concentrations without vectorization (i.e. one to two orders of magnitude more potent than commercially available cholesteryl siRNA). Moreover, incubation in the presence of serum did not impair their efficiency. Finally, amphiphilic cationic siRNA was pre-loaded on albumin. In A549Luc cells in the presence of serum, these siRNA conjugates were highly effective and had low toxicity., (Copyright © 2013. Published by Elsevier B.V.)

Published

2013

20. Cationic polydiacetylene micelles for gene delivery.

Author

Morin E, Nothisen M, Wagner A, and Remy JS

Subjects

Cations chemical synthesis, DNA genetics, Gene Expression, HeLa Cells, Humans, Luciferases genetics, Plasmids genetics, Polyacetylene Polymer, Polymerization, Polymers chemical synthesis, Polyynes chemical synthesis, Cations chemistry, DNA administration & dosage, Micelles, Plasmids administration & dosage, Polymers chemistry, Polyynes chemistry, Transfection

Abstract

Cationic surfactants easily interact with plasmid DNA to form small lipoplexes. However, their detergent behavior and associated biological toxicity limit their use as gene delivery vectors. We have incorporated a diacetylene motif in the hydrophobic chain of cationic surfactants. By using UV irradiation, the small cationic micelles (9 nm) obtained with diacetylenic detergents were photopolymerized into 40 nm spheres. Electrostatic interactions with plasmid DNA led to the formation of 45 nm lipoplexes at N/P = 5 ratio. In vitro transfection of the pCMV-Luciferase plasmid resulted in gene expression (>10(10) RLU/mg protein) at the same ratio, comparable with the commercially available JetSi-ENDO gene delivery system. This new and versatile class of molecules could lead to a new generation of in vivo gene delivery vectors.

Published

2011

21. Gene delivery with polycationic fullerene hexakis-adducts.

Author

Sigwalt D, Holler M, Iehl J, Nierengarten JF, Nothisen M, Morin E, and Remy JS

Subjects

Cations chemistry, HeLa Cells, Humans, Fullerenes chemistry, Gene Transfer Techniques, Genetic Vectors chemistry, Polymers chemistry

Abstract

Polyplexes prepared from DNA and globular compact polycationic derivatives constructed around a fullerene hexakis-adduct core have shown remarkable gene delivery capabilities., (© The Royal Society of Chemistry 2011)

Published

2011

22. Cationic siRNAs provide carrier-free gene silencing in animal cells.

Author

Nothisen M, Kotera M, Voirin E, Remy JS, and Behr JP

Subjects

Cations chemistry, Cell Line, Dose-Response Relationship, Drug, HeLa Cells, Humans, Luciferases genetics, Luciferases metabolism, Oligodeoxyribonucleotides chemical synthesis, Oligodeoxyribonucleotides chemistry, RNA, Small Interfering chemical synthesis, RNA, Small Interfering chemistry, Spermine chemistry, Gene Silencing drug effects, RNA, Small Interfering pharmacology

Abstract

siRNA-mediated gene silencing requires intracellular delivery of the nucleic acid. We have developed a carrierless molecular approach that follows the same cell entry route as cationic supramolecular complexes, yet should avoid the extracellular barriers encountered by nanoparticles. Cationic oligospermine-oligonucleotide conjugates (ZNAs, for Zip Nucleic Acids) were synthesized stepwise on an oligonucleotide synthesizer using a DMT-spermine phosphoramidite derivative. They were shown to enter cells and have access to the cytoplasm, provided their formal charge ratio N/P was >1.5. Cationic siRNAs that fulfilled this condition were shown to achieve selective inhibition of luciferase gene expression in the submicromolar concentration range in constitutively luciferase-expressing cells.

Published

2009

23. Zip Nucleic Acids: new high affinity oligonucleotides as potent primers for PCR and reverse transcription.

Author

Moreau V, Voirin E, Paris C, Kotera M, Nothisen M, Rémy JS, Behr JP, Erbacher P, and Lenne-Samuel N

Subjects

AT Rich Sequence, DNA Primers, Polymerase Chain Reaction standards, Reverse Transcription

Abstract

Most nucleic acid-based technologies rely upon sequence recognition between an oligonucleotide and its nucleic acid target. With the aim of improving hybridization by decreasing electrostatic repulsions between the negatively charged strands, novel modified oligonucleotides named Zip nucleic acids (ZNAs) were recently developed. ZNAs are oligonucleotide-oligocation conjugates whose global charge is modulated by the number of cationic spermine moieties grafted on the oligonucleotide. It was demonstrated that the melting temperature of a hybridized ZNA is easily predictable and increases linearly with the length of the oligocation. Furthermore, ZNAs retain the ability to discriminate between a perfect match and a single base-pair-mismatched complementary sequence. Using quantitative PCR, we show here that ZNAs are specific and efficient primers displaying an outstanding affinity toward their genomic target. ZNAs are particularly efficient at low magnesium concentration, low primer concentrations and high annealing temperatures, allowing to improve the amplification in AT-rich sequences and potentially multiplex PCR applications. In reverse transcription experiments, ZNA gene-specific primers improve the yield of cDNA synthesis, thus increasing the accuracy of detection, especially for genes expressed at low levels. Our data suggest that ZNAs exhibit faster binding kinetics than standard and locked nucleic acid-containing primers, which could explain why their target recognition is better for rare targets.

Published

2009