Karol Pasternak scite author profile

The influence of locked nucleic acid (LNA) residues on the thermodynamic properties of 2′-O-methyl RNA/RNA heteroduplexes is reported. Optical melting studies indicate that LNA incorporated into an otherwise 2′-O-methyl RNA oligonucleotide usually, but not always, enhances the stabilities of complementary duplexes formed with RNA. Several trends are apparent, including: (i) a 3′ terminal U LNA and 5′ terminal LNAs are less stabilizing than interior and other 3′ terminal LNAs; (ii) most of the stability enhancement is achieved when LNA nucleotides are separated by at least one 2′-O-methyl nucleotide; and (iii) the effects of LNA substitutions are approximately additive when the LNA nucleotides are separated by at least one 2′-O-methyl nucleotide. An equation is proposed to approximate the stabilities of complementary duplexes formed with RNA when at least one 2′-O-methyl nucleotide separates LNA nucleotides. The sequence dependence of 2′-O-methyl RNA/RNA duplexes appears to be similar to that of RNA/RNA duplexes, and preliminary nearest-neighbor free energy increments at 37°C are presented for 2′-O-methyl RNA/RNA duplexes. Internal mismatches with LNA nucleotides significantly destabilize duplexes with RNA.

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A chemical synthesis of LNA-2,6-diaminopurine riboside, and the influence of 2′-O-methyl-2,6-diaminopurine and LNA-2,6-diaminopurine ribosides on the thermodynamic properties of 2′-O-methyl RNA/RNA heteroduplexes

Pasternak

Kierzek

Pasternak

et al. 2007

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Modified nucleotides are useful tools to study the structures, biological functions and chemical and thermodynamic stabilities of nucleic acids. Derivatives of 2,6-diaminopurine riboside (D) are one type of modified nucleotide. The presence of an additional amino group at position 2 relative to adenine results in formation of a third hydrogen bond when interacting with uridine. New method for chemical synthesis of protected 3′-O-phosphoramidite of LNA-2,6-diaminopurine riboside is described. The derivatives of 2′-O-methyl-2,6-diaminopurine and LNA-2,6-diaminopurine ribosides were used to prepare complete 2′-O-methyl RNA and LNA-2′-O-methyl RNA chimeric oligonucleotides to pair with RNA oligonucleotides. Thermodynamic stabilities of these duplexes demonstrated that replacement of a single internal 2′-O-methyladenosine with 2′-O-methyl-2,6-diaminopurine riboside (DM) or LNA-2,6-diaminopurine riboside (DL) increases the thermodynamic stability (ΔΔG°37) on average by 0.9 and 2.3 kcal/mol, respectively. Moreover, the results fit a nearest neighbor model for predicting duplex stability at 37°C. D-A and D-G but not D-C mismatches formed by DM or DL generally destabilize 2′-O-methyl RNA/RNA and LNA-2′-O-methyl RNA/RNA duplexes relative to the same type of mismatches formed by 2′-O-methyladenosine and LNA-adenosine, respectively. The enhanced thermodynamic stability of fully complementary duplexes and decreased thermodynamic stability of some mismatched duplexes are useful for many RNA studies, including those involving microarrays.

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Contributions of Stacking, Preorganization, and Hydrogen Bonding to the Thermodynamic Stability of Duplexes between RNA and 2′-O-Methyl RNA with Locked Nucleic Acids

Kierzek

Pasternak

et al. 2009

Biochemistry

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Locked Nucleic Acids (LNA) considerably enhance the thermodynamic stability of DNA and RNA duplexes. We report the thermodynamic stabilities of LNA-2'-O-methyl RNA/RNA duplexes designed to provide insight into the contributions of stacking and hydrogen bonding interactions to the enhanced stability. The results show that hydrogen bonding of LNA nucleotides is similar to that of 2'-O-methyl RNA nucleotides, whereas the 3'-stacking interactions are on average about 0.7 kcal/mol more favorable at 37 °C than for 2'-O-methyl or RNA nucleotides. Moreover, NMR spectra suggest helical pre-organization of the single stranded tetramer, CLAMALUM, probably due to restriction of some torsion angles. Thus enhanced stacking interactions and helical pre-organization of single stranded oligonucleotides contribute to the extraordinary stabilization of duplexes by LNA nucleotides.

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The Thermodynamics of 3‘-Terminal Pyrene and Guanosine for the Design of Isoenergetic 2‘-O-Methyl-RNA-LNA Chimeric Oligonucleotide Probes of RNA Structure

et al. 2008

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To facilitate design of short isoenergetic hybridization probes for RNA, we report the influence of adding 5'- or 3'-terminal 2'-O-methylguanosine (GM), LNA-guanosine (GL), or 3'-terminal pyrene pseudo-nucleotide (PPN) on the thermodynamic stability of 2'-O-methyl-RNA/RNA (2'-O-Me-RNA/RNA) duplexes with sequences 5'CMGMGMCMAM/3'AAXGCCGUXAA, where X is A, C, G, or U. A 3'-terminal GM or GL added to the 2'-O-Me-RNA strand to form a G-A, G-G or G-U mismatch enhances thermodynamic stability (DeltaDeltaG degrees 37) of the 2'-O-Me-RNA/RNA duplexes on average by 0.7 and 1.5 kcal/mol, respectively. A 3'-terminal GM or GL in a GM-C or GL-C pair stabilizes the 2'-O-Me-RNA/RNA duplex by 2.6 and 3.4 kcal/mol, respectively. A 5'-terminal GM or GL in a G-A or G-G mismatch provided less stabilization in comparison with a 3'-terminal G-A or G-G mismatch, but more stabilization in a G-C or G-U pair. In contrast to guanosine derivatives, pyrene residue (P) as PPN at the 3'-terminal position enhances thermodynamic stability of the 2'-O-Me-RNA/RNA duplexes on average by 2.3 +/- 0.1 kcal/mol, relatively independent of the type of ribonucleotide placed in the opposite strand. The thermodynamic data can be applied to design 2'-O-Me-RNA/RNA duplexes with enhanced thermodynamic stability that is also sequence independent. This is useful for design of hybridization probes to interrogate RNA structure and/or expression by microarray and other methods.

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A Locked Nucleic Acid-Based Nanocrawler: Designed and Reversible Movement Detected by Multicolor Fluorescence

et al. 2013

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Herein we introduce a novel fluorescent LNA/DNA machine, a nanocrawler, which reversibly moves along a directionally polar complementary road controlled by affinity-enhancing locked nucleic acid (LNA) monomers and additional regulatory strands. Polyaromatic hydrocarbon (PAH) dyes attached to 2'-amino-LNA monomers are incorporated at four stations of the system, enabling simple detection of the position of the nanocrawler via a step-specific color signal. The sensing is provided by highly sensitive, chemically stable, and photostable PAH LNA interstrand communication systems, including pyrene excimer formation and pyrene-perylene interstrand Förster resonance energy transfer. We furthermore demonstrate that the nanocrawler selectively and reversibly moves along the road, followed by a bright and consistent fluorescence response for up to 10 cycles without any loss of signal.

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Structural Studies on Diverse Betacyanin Classes in Matured Pigment-Rich Fruits of Basella alba L. and Basella alba L. var. ‘Rubra’ (Malabar Spinach)

Sutor-Świeży

Antonik

Dziedzic

et al. 2022

IJMS

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Identification of betacyanins in Basella alba L. and Basella alba L. var. ‘Rubra’ fruits was performed by low- and high-resolution mass spectrometry (LRMS and HRMS) as well as 1H, 13C and two-dimensional NMR which revealed hitherto completely not known betacyanin classes in the plant kingdom. Especially, the presence of unique nitrogenous acyl moieties in the structures of the pigments was ascertained by the HRMS Orbitrap detection. Except for detected polar betacyanin glycosylated derivatives, presence of a series of previously not reported pigments such as malonylated betanidin 6-O-β-glusosides with their acyl migration isomers along with the evidence of the 3′′-hydroxy-butyrylated betacyanins is reported. The first complete NMR data were obtained for novel and principal acylated gomphrenins with hydroxycinnamic acids: 6′-O-E-caffeoyl-gomphrenin (malabarin), 6′-O-E-sinapoyl-gomphrenin (gandolin), 6′-O-E-4-coumaroyl-gomphrenin (globosin) and 6′-O-E-feruloyl-gomphrenin (basellin).

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Unraveling the structural basis for the exceptional stability of RNA G-quadruplexes capped by a uridine tetrad at the 3′ terminus

Andrałojć

Małgowska

Sarzyñska

et al. 2018

RNA

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Uridine tetrads (U-tetrads) are a structural element encountered in RNA G-quadruplexes, for example, in the structures formed by the biologically relevant human telomeric repeat RNA. For these molecules, an unexpectedly strong stabilizing influence of a U-tetrad forming at the 3' terminus of a quadruplex was reported. Here we present the high resolution solution NMR structure of the r(UGGUGGU) 4 quadruplex which, in our opinion, provides an explanation for this stabilization. Our structure features a distinctive, abrupt chain reversal just prior to the 3' uridine tetrad. Similar 'reversed U-tetrads' were already observed in the

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Photoligation of self-assembled DNA constructs containing anthracene-functionalized 2′-amino-LNA monomers

Pasternak

Gupta

et al. 2011

Bioorganic & Medicinal Chemistry

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Karol Pasternak

The influence of locked nucleic acid residues on the thermodynamic properties of 2'-O-methyl RNA/RNA heteroduplexes

A chemical synthesis of LNA-2,6-diaminopurine riboside, and the influence of 2′-O-methyl-2,6-diaminopurine and LNA-2,6-diaminopurine ribosides on the thermodynamic properties of 2′-O-methyl RNA/RNA heteroduplexes

Contributions of Stacking, Preorganization, and Hydrogen Bonding to the Thermodynamic Stability of Duplexes between RNA and 2′-O-Methyl RNA with Locked Nucleic Acids

The Thermodynamics of 3‘-Terminal Pyrene and Guanosine for the Design of Isoenergetic 2‘-O-Methyl-RNA-LNA Chimeric Oligonucleotide Probes of RNA Structure

A Locked Nucleic Acid-Based Nanocrawler: Designed and Reversible Movement Detected by Multicolor Fluorescence

Structural Studies on Diverse Betacyanin Classes in Matured Pigment-Rich Fruits of Basella alba L. and Basella alba L. var. ‘Rubra’ (Malabar Spinach)

Unraveling the structural basis for the exceptional stability of RNA G-quadruplexes capped by a uridine tetrad at the 3′ terminus

Photoligation of self-assembled DNA constructs containing anthracene-functionalized 2′-amino-LNA monomers

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