A Convergent Strategy for the Modification of Peptide Nucleic Acids: Novel Mismatch-Specific PNA-Hybridization Probes

Seitz, Oliver; Bergmann, Frank; Heindl, Dieter

doi:10.1002/(sici)1521-3773(19990802)38:15<2203::aid-anie2203>3.0.co;2-2

Cited by 82 publications

(54 citation statements)

References 4 publications

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“…1C). 11,12 These two approaches represent a later stage of modified base introduction, as compared with approach A, and can be labor and material saving in their execution.…”

Section: +mentioning

confidence: 99%

A solid-phase CuAAC strategy for the synthesis of PNA containing nucleobase surrogates

Amant

Engbers

Hudson

2013

Artificial DNA: PNA & XNA

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“…1C). 11,12 These two approaches represent a later stage of modified base introduction, as compared with approach A, and can be labor and material saving in their execution.…”

Section: +mentioning

confidence: 99%

A solid-phase CuAAC strategy for the synthesis of PNA containing nucleobase surrogates

Amant

Engbers

Hudson

2013

Artificial DNA: PNA & XNA

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“…[10] A particularly attractive feature is that PNAs are not subject to nuclease or protease mediated degradation and are thus highly stable even in living cells. These properties have been advantageously employed for example in pre-gel hybridisations as alternative to Southern hybridisation, [11] for the identification of point mutations by PCR clamping [12,13] and fluorescently labelled probes, [14,15] in the fabrication and usage of PNA probe arrays, [16] and in the isolation, [17] blocking [18±21] and restriction [22±24] of genes or mRNAs. For applications as diagnostical probes PNAs as well as oligonucleotides have to be equipped with reporter groups.…”

Section: Introductionmentioning

confidence: 99%

“…It is the aim of the work presented in here to extend the repertoire of the existing methodology available for PNA labelling. It will be shown that the attachment of fluorophores to the C-terminus [28] and to internal conjugation sites [15] is possible by employing convergent strategies and both solution-and solid-phase labelling of PNA will be discussed. Focus of these studies is the rapid synthesis of dual labelled PNA probes [29,30] which may prove suitable for the sequence specific DNA-detection in homogeneous solution.…”

Section: Introductionmentioning

confidence: 99%

Convergent Strategies for the Attachment of Fluorescing Reporter Groups to Peptide Nucleic Acids in Solution and on Solid Phase

Seitz¹,

Köhler²

2001

Chem. Eur. J.

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The site-selective conjugation of peptide nucleic acids (PNA) with fluorescent reporter groups is essential for the construction of hybridisation probes that can report the presence of a particular DNA sequence. This paper describes convergent methods for the solution- and solid-phase synthesis of multiply labelled PNA oligomers. The solid-phase synthesis of protected PNA enabled the selective attachment of fluorescent labels at the C-terminal end (3' in DNA) which demonstrated that further manipulations on protected PNA fragments are feasible. For the conjugation to internal sites, a method is introduced that allows for the on-resin assembly of modified monomers thereby omitting the need to synthesise an entire monomer in solution. Furthermore, it is shown that the application of a highly orthogonal protecting group strategy in combination with chemoselective conjugation reactions provides access to a rapid and automatable solid-phase synthesis of dual labelled PNA probes. Real-time measurements of nucleic acid hybridisation were possible by taking advantage of the fluorescence resonance energy transfer (FRET) between suitably appended fluorophoric groups. Analogously to DNA-based molecular beacons, the dual labelled PNA probes were only weakly fluorescing in the single-stranded state. Hybridisation to a complementary oligonucleotide, however, induced a structural reorganisation and conferred a vivid fluorescence enhancement.

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“…We reckoned that, due to this inter-or intramolecular association, a fluorescence-donor and a fluorescence-quencher group appended to the unhybridized PNA molecule 1 would be positioned in close proximity ( Figure 1). [7] In analogy to the DNA-based molecular beacons 2, which were introduced by the pioneering work of Kramer and Tyagi, collisional quenching and the distance-dependent fluorescence resonance energy transfer (FRET) would diminish the fluorescence of the donor label. [8a] Hybridization with complementary nucleic acids should induce a structural reorgan- [9] The binding affinity is defined as K a [complex]/([sugar] [cation]).…”

mentioning

confidence: 99%

Solid-Phase Synthesis of Doubly Labeled Peptide Nucleic Acids as Probes for the Real-Time Detection of Hybridization

Seitz

2000

Angew. Chem. Int. Ed.

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A Convergent Strategy for the Modification of Peptide Nucleic Acids: Novel Mismatch-Specific PNA-Hybridization Probes

Cited by 82 publications

References 4 publications

A solid-phase CuAAC strategy for the synthesis of PNA containing nucleobase surrogates

A solid-phase CuAAC strategy for the synthesis of PNA containing nucleobase surrogates

Convergent Strategies for the Attachment of Fluorescing Reporter Groups to Peptide Nucleic Acids in Solution and on Solid Phase

Solid-Phase Synthesis of Doubly Labeled Peptide Nucleic Acids as Probes for the Real-Time Detection of Hybridization

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