Richard Cosstick’s research while affiliated with University of Liverpool and other places

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Publications (128)


Structure-Based Design of Nucleoside-Derived Analogues as Sulfotransferase Inhibitors
  • Preprint

October 2019

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24 Reads

Neil Kershaw

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Dominic Byrne

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Hollie Parsons

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[...]

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Richard Cosstick

Sulfotransferases (STs) catalyse the transfer of a sulfonyl group (‘sulfation’) from the enzyme co-factor 3ʹ-phosphoadenosine 5ʹ-phosphosulfate (PAPS) to a variety of biomolecules. Tyrosine sulfation of proteins and carbohydrate sulfation play a crucial role in many protein-protein interactions and cell signalling pathways in the extracellular matrix. This is catalysed by several membrane-bound STs, including tyrosylprotein sulfotransferase 1 (TPST1) and heparan sulfate 2-O-sulfotransferase (HS2ST1). Recently, involvement of these enzymes and their post-translational modifications in a growing number of disease areas has been reported, including inflammation, cancer and Alzheimer’s disease. Despite their growing importance, the development of small molecules to probe the biological effect of TPST and carbohydrate ST inhibition remains in its infancy. We have used a structure-based approach and molecular docking to design a library of adenosine 3',5'-diphosphate (PAP) and PAPS mimetics based upon 2'-deoxyadenosine and using 2'-deoxy-PAP as a benchmark. The use of allyl groups as masked methyl esters was exploited in the synthesis of PAP-mimetics, and click chemistry was employed for the divergent synthesis of a series of PAPS-mimetics. A suite of in vitro assays employing TPST1 and HS2ST, and a kinase counter screen, were used to evaluate inhibitory parameters and relative specificity for the STs.


(A) Tyrosylprotein sulfotransferase catalysed sulfation of a tyrosine residue. (B) Heparan sulfate 2-O-sulfotransferase catalysed sulfation of an iduronic acid (IdoA) subunit of heparan sulfate
Crystallographic analysis of the sulfotransferase active site. (A) Nucleoside-binding domain of TPST1 complexed with PAP (PDB ID: 5WRI). TPST1 is rendered as grey cartoon. Residues interacting with PAP are labelled and rendered as thin sticks (carbon – grey, nitrogen – blue, oxygen – red). Crystallographic waters are rendered as slate spheres PAP is rendered as coloured sticks (carbon – green, nitrogen – blue, oxygen – red). Black dotted lines indicate hydrogen bonds. (B) Nucleoside-binding domain of HS2ST complexed with PAP (PDB ID: 4NDZ). HS2ST is rendered as grey cartoon. Residues interacting with PAP are labelled and rendered as thin sticks (carbon – grey, nitrogen – blue, oxygen – red). PAP is rendered as coloured sticks (carbon – green, nitrogen – blue, oxygen – red). Black dotted lines indicate hydrogen bonds
of chemical structures. (A) PAP-mimetics (B) PAPS-mimetics
of enzymatic inhibition assays against HS2ST and TPST1. (A) Enzymatic analysis of HS2ST1 inhibition by a panel of PAP- and PAPS-mimetic compounds. MBP-tagged HS2ST (20 nM) was incubated with PAPS (5 μM) in the presence of the appropriate nucleoside analogue (400 μM). HS2ST sulfotransferase activity was assayed using a fluorescent hexasaccharide substrate (2 μM) and normalised to DMSO (4% v/v) or buffer control. Data shown is mean and SD of 4 repeat experiments. (B) Full dose–response curves for selected compounds. HS2ST (20 nM) was incubated with increasing concentration of the indicated compound in the presence of PAPS (5 μM) for 15 min at 20 °C. HS2ST activity calculated as previously described. Data from two independent experiments are combined. (C) Enzymatic analysis of TPST1 inhibition by a panel of PAP- and PAPS-mimetic compounds. TPST1 (0.1 μM) was incubated with PAPS (5 μM) in the presence of the appropriate nucleoside analogue (400 μM) for 30 min at 20 °C. TPST1 activity was measured using fluorescently-labelled CC4-tide (2 μM) and normalised to DMSO (4% v/v) or buffer control. (D) Full dose–response curves for selected compounds. TPST1 (0.1 μM) was incubated with increasing concentrations of the indicated compound in the presence of PAPS (5 μM) for 30 min at 20 °C. TPST1 activity was measured using CC4-tide and normalised to DMSO or buffer controls as previously described. The data shown is from duplicate experiments
Immunological evaluation of TPST1 inhibition towards substrate and a Ser/Thr protein kinase counter-screen. (A) Immunoblots evaluating TPST1 sulfotransferase activity in the presence of a panel of PAP- and PAPS-mimetic compounds. GST-CC4-tide (1 μg) was incubated in the presence of TPST1 (0.2 μg), PAPS (5 μM), and a fixed concentration of the indicated compound (400 μM) for 15 min. After termination of the reaction using SDS-PAGE sample buffer, tyrosine sulfation was visualised by immunoblotting using a monoclonal sulfotyrosine antibody (top panel), with equal GST-CC4-tide and TPST1 loading confirmed using an antibody to detect 6xHis tagged proteins (bottom panel). (B) Enzymatic inhibition of PKA catalytic activity by a panel of PAP- and PAPS-mimetic compounds. PKA kinase (1 nM) was incubated with ATP (5 μM) in the presence of the appropriate nucleoside analogue (400 μM) for 30 min at 20 °C. PKA activity was calculated in real-time using fluorescently-labelled substrate peptide (2 μM) and normalised to DMSO (4% v/v) or buffer control.⁷⁷ Data in B is mean and SD of 3 individual experiments. Staurosporine is included at 40 μM as a generic inhibitor of kinase activity. For A, similar results were seen in two independent experiments

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Structure-based design of nucleoside-derived analogues as sulfotransferase inhibitors
  • Article
  • Full-text available

October 2019

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328 Reads

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6 Citations

Sulfotransferases (STs) catalyse the transfer of a sulfonyl group (‘sulfation’) from the enzyme co-factor 3′-phosphoadenosine 5′-phosphosulfate (PAPS) to a variety of biomolecules. Tyrosine sulfation of proteins and carbohydrate sulfation play a crucial role in many protein–protein interactions and cell signalling pathways in the extracellular matrix. This is catalysed by several membrane-bound STs, including tyrosylprotein sulfotransferase 1 (TPST1) and heparan sulfate 2-O-sulfotransferase (HS2ST1). Recently, involvement of these enzymes and their post-translational modifications in a growing number of disease areas has been reported, including inflammation, cancer and Alzheimer's disease. Despite their growing importance, the development of small molecules to probe the biological effect of TPST and carbohydrate ST inhibition remains in its infancy. We have used a structure-based approach and molecular docking to design a library of adenosine 3′,5′-diphosphate (PAP) and PAPS mimetics based upon 2′-deoxyadenosine and using 2′-deoxy-PAP as a benchmark. The use of allyl groups as masked methyl esters was exploited in the synthesis of PAP-mimetics, and click chemistry was employed for the divergent synthesis of a series of PAPS-mimetics. A suite of in vitro assays employing TPST1 and HS2ST, and a kinase counter screen, were used to evaluate inhibitory parameters and relative specificity for the STs.

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Chemistry of the 8-Nitroguanine DNA Lesion: Reactivity, Labelling and Repair

January 2018

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51 Reads

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7 Citations

The 8-nitroguanine lesion in DNA is increasingly associated with inflammation-related carcinogenesis, whilst the same modification on guanosine 3',5'-cyclic monophosphate generates a second messenger in NO-mediated signal transduction. Very little is known about the chemistry of 8-nitroguanine nucleotides, despite the fact that their biological effects are closely linked to their chemical properties. To this end, a selection of chemical reactions have been performed on 8-nitroguanine nucleosides and oligodeoxynucleotides. Reactions with alkylating reagents reveal how the 8-nitro substituent affects the reactivity of the purine ring, by significantly decreasing the reactivity of the N2 position, whilst the relative reactivity at N1 appears to be enhanced. Interestingly, the displacement of the nitro group with thiols results in an efficient and specific method of labelling this lesion and is demonstrated in oligodeoxynucleotides. Additionally, the repair of this lesion is also shown to be a chemically feasible reaction through a reductive denitration with a hydride source.


SERS and SERRS Detection of the DNA Lesion 8-Nitroguanine: a Self-Labeling Modification

May 2017

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38 Reads

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11 Citations

Rapid and sensitive methods to detect DNA lesions are essential in order to understand their role in carcinogenesis and for potential diagnosis of cancers. The 8-nitroguanine DNA lesion, which is closely associated with inflammation-induced cancers, has been characterised for the first time by surface-enhanced Raman spectroscopy (SERS). This lesion has been studied as the free base, as well as part of a dinucleotide and oligodeoxynucleotides (ODNs) at 5 different excitation wavelengths in the range 785-488 nm. All nitrated samples produced distinctly different spectra from their control guanine counterparts, with nitro bands being assigned by DFT calculations. Additional resonance enhancement was observed at the shorter excitation wavelengths, these SERRS measurements allowed the detection of one nitrated guanine in over 1,300 bases. In addition, SER(R)S can be used to detect whether the unstable lesion is covalently attached to the ODN or has been released by hydrolytic depurination.


Tautomerism in 8-Nitroguanosine Studied by NMR and Theoretical Calculations

January 2016

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38 Reads

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1 Citation

Nucleosides Nucleotides & Nucleic Acids

The guanine base in DNA, due to its low oxidation potential, is particularly sensitive to chemical modifications. A large number of guanine lesions have been characterized and studied in some detail due to their relationship with tissue inflammations. Nevertheless, one example of these lesions is the formation of 8-nitro-guanosine, but the NMR data of this compound was only partially interpreted. A comprehensive study of the two possible tautomeric forms, through a detailed characterization of this compound, has implications for its base pairing properties. The target compound was obtained through a synthetic sequence of five steps, where all intermediates were fully characterized using spectral data. The analysis of the two tautomers was then evaluated through NMR spectroscopy and theoretical calculations of the chemical shifts and NH coupling constants, which were also compared with the data from guanosine.


Nicked-site substrates for a serine recombinase reveal enzyme-DNA communications and an essential tethering role of covalent enzyme-DNA linkages

May 2015

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380 Reads

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1 Citation

Nucleic Acids Research

To analyse the mechanism and kinetics of DNA strand cleavages catalysed by the serine recombinase Tn3 resolvase, we made modified recombination sites with a single-strand nick in one of the two DNA strands. Resolvase acting on these sites cleaves the intact strand very rapidly, giving an abnormal half-site product which accumulates. We propose that these reactions mimic second-strand cleavage of an unmodified site. Cleavage occurs in a synapse of two sites, held together by a resolvase tetramer; cleavage at one site stimulates cleavage at the partner site. After cleavage of a nicked-site substrate, the half-site that is not covalently linked to a resolvase subunit dissociates rapidly from the synapse, destabilizing the entire complex. The covalent resolvase-DNA linkages in the natural reaction intermediate thus perform an essential DNA-tethering function. Chemical modifications of a nicked-site substrate at the positions of the scissile phosphodiesters result in abolition or inhibition of resolvase-mediated cleavage and effects on resolvase binding and synapsis, providing insight into the serine recombinase catalytic mechanism and how resolvase interacts with the substrate DNA. © The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.


Probing the run-on oligomer of activated SgrAI bound to DNA

April 2015

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253 Reads

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18 Citations

SgrAI is a type II restriction endonuclease with an unusual mechanism of activation involving run-on oligomerization. The run-on oligomer is formed from complexes of SgrAI bound to DNA containing its 8 bp primary recognition sequence (uncleaved or cleaved), and also binds (and thereby activates for DNA cleavage) complexes of SgrAI bound to secondary site DNA sequences which contain a single base substitution in either the 1st/8th or the 2nd/7th position of the primary recognition sequence. This modulation of enzyme activity via runon oligomerization is a newly appreciated phenomenon that has been shown for a small but increasing number of enzymes. One outstanding question regarding the mechanistic model for SgrAI is whether or not the activating primary site DNA must be cleaved by SgrAI prior to inducing activation. Herein we show that an uncleavable primary site DNA containing a 3'- S-phosphorothiolate is in fact able to induce activation. In addition, we now show that cleavage of secondary site DNA can be activated to nearly the same degree as primary, provided a sufficient number of flanking base pairs are present. We also show differences in activation and cleavage of the two types of secondary site, and that effects of selected single site substitutions in SgrAI, as well as measured collisional cross-sections from previous work, are consistent with the cryo-electron microscopy model for the run-on activated oligomer of SgrAI bound to DNA.


Stabilization of a Bimolecular Triplex by 3′-S-Phosphorothiolate Modifications: An NMR and UV Thermal Melting Investigation

March 2015

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96 Reads

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3 Citations

Triplexes formed from oligonucleic acids are key to a number of biological processes. They have attracted attention as molecular biology tools and as a result of their relevance in novel therapeutic strategies. The recognition properties of single-stranded nucleic acids are also relevant in third-strand binding. Thus, there has been considerable activity in generating such moieties, referred to as triplex forming oligonucleotides (TFOs). Triplexes, composed of Watson-Crick (W-C) base-paired DNA duplexes and a Hoogsteen base-paired RNA strand, are reported to be more thermodynamically stable than those in which the third strand is DNA. Consequently, synthetic efforts have been focused on developing TFOs with RNA-like structural properties. Here, the structural and stability studies of such a TFO, composed of deoxynucleic acids, but with 3'-S-phosphorothiolate (3'-SP) linkages at two sites is described. The modification results in an increase in triplex melting temperature as determined by UV absorption measurements. (1) H NMR analysis and structure generation for the (hairpin) duplex component and the native and modified triplexes revealed that the double helix is not significantly altered by the major groove binding of either TFO. However, the triplex involving the 3'-SP modifications is more compact. The 3'-SP modification was previously shown to stabilise G-quadruplex and i-motif structures and therefore is now proposed as a generic solution to stabilising multi-stranded DNA structures. © 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.


Thermal stabilisation of RNA·RNA duplexes and G-quadruplexes by phosphorothiolate linkages

December 2012

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24 Reads

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7 Citations

Organic & Biomolecular Chemistry

The effect of 3'-S-phosphorothiolate linkages on the stability of RNA·RNA duplexes and G-quadruplex structures has been studied. 3'-Thio-2'-deoxyuridine was incorporated into RNA duplexes and thermal melting studies revealed that the resulting 3'-S-phosphorothiolate linkages increased the stability of the duplex to thermal denaturation. Additionally, and contrary to expectation, a similar effect on duplex stability was observed when the same thionucleoside was incorporated into the RNA strand of a RNA·DNA duplex. A suitably protected derivative of 3'-thio-2'-deoxyguanosine was prepared using an oxidation-reduction strategy and this residue also increased the thermal stability the [d(TGGGGT)](4) G-quadruplex when positioned centrally. The results are discussed in terms of the influence that the sulfur atom has on the conformation of the furanose ring and imply that the previously noted high thermal stability of parallel RNA quadruplexes is not derived from H-bonding interactions of the 2'-hydroxyl group, but can be attributed to conformational effects.


Base-pairing preferences, physicochemical properties and mutational behaviour of the DNA lesion 8-nitroguanine†

September 2012

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859 Reads

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23 Citations

Nucleic Acids Research

8-Nitro-2′-deoxyguanosine (8-nitrodG) is a relatively unstable, mutagenic lesion of DNA that is increasingly believed to be associated with tissue inflammation. Due to the lability of the glycosidic bond, 8-nitrodG cannot be incorporated into oligodeoxynucleotides (ODNs) by chemical DNA synthesis and thus very little is known about its physicochemical properties and base-pairing preferences. Here we describe the synthesis of 8-nitro-2′-O-methylguanosine, a ribonucleoside analogue of this lesion, which is sufficiently stable to be incorporated into ODNs. Physicochemical studies demonstrated that 8-nitro-2′-O-methylguanosine adopts a syn conformation about the glycosidic bond; thermal melting studies and molecular modelling suggest a relatively stable syn-8-nitroG·anti-G base pair. Interestingly, when this lesion analogue was placed in a primer-template system, extension of the primer by either avian myeloblastosis virus reverse transcriptase (AMV-RT) or human DNA polymerase β (pol β), was significantly impaired, but where incorporation opposite 8-nitroguanine did occur, pol β showed a 2:1 preference to insert dA over dC, while AMV-RT incorporated predominantly dC. The fact that no 8-nitroG·G base pairing is seen in the primer extension products suggests that the polymerases may discriminate against this pairing system on the basis of its poor geometric match to a Watson–Crick pair.


Citations (54)


... A key step in the synthesis involved the regioselective Cu(I)-catalyzed azide-alkyne cycloaddition of the appropriate organic azide to diethyl ethynylphosphonate to form 1,2,3-triazol-4-ylphosphonate 49 (Scheme 25). The synthesis of compounds that are potential sulfotransferase inhibitors was proposed in [121]. The introduction of a phosphonate fragment was realized with the simultaneous formation of a triazole ring (50) by the reaction of a 2′-deoxyadenosine derivative with an azide group in the side chain with dibenzyl ethynylphosphonate under Cu(II) catalysis. ...

Reference:

Phosphorus-Containing Alkynes in the Synthesis of Heterocyclic Compounds (A Review)
Structure-based design of nucleoside-derived analogues as sulfotransferase inhibitors

... Moreover, G oxidizes more readily than A. Its high melting point of 350°C reflects the intermolecular hydrogen bonding between the oxo and amino groups in the crystal structure, being responsible for its insolubility in water. [41,42] Initial attempts to react G with 1,5-dibromopentane 6 followed a synthetic methodology similar to the one described by Kang et al. [27] using tetrabutylammonium iodide (TBAI) and C18-crown-6. [43] However, the reaction was not successful since only unmodified G was recovered (Table 1, entries 1-2). ...

Chemistry of the 8-Nitroguanine DNA Lesion: Reactivity, Labelling and Repair
  • Citing Article
  • January 2018

... These clear contrasts indicated a robust assessment of the probe specificity toward the complementary sequence and the excellent sensitivity of the developed SERS substrates to differentiate complete hybridization from the non-hybridized condition. 42 Furthermore, the capability to identify Raman responses from 1 nM of cDNA concentration (6.84 pg/μL) is equivalent to the performance of evanescent wave biosensors in detecting L. interrogans serovar Copenhageni and Canicola genomic DNA of Leptospira, both at 6.5 pg/ μL concentration. 43,44 In addition, the evaluation for Raman modes intensity after the formation of duplex at different cDNA concentrations and the contradicting results in the negative control test are shown in Figure 8. Notably, these evaluations were based on the changes at the N-H bending peak (shaded in Figure 7) because this peak acted as a strong mechanical anchoring point for the hybridization of DNA base pairs. ...

SERS and SERRS Detection of the DNA Lesion 8-Nitroguanine: a Self-Labeling Modification
  • Citing Article
  • May 2017

... Colorimetric methods based on noble metal nanoparticles are characterized by simple operation, high sensibility and simple instrumentation [10][11][12][13][14]. Gold nanoparticles (AuNPs) have been successfully employed as a colorimetric probe, because AuNP aggregation accompanied by the surface plasmon shift can be clearly observed with the bare eyes [15][16][17]. Furthermore, colorimetric methods based on enzymeresponsive gold nanoparticles and DNAzyme systems have been used for the assays of nucleases [18][19][20]. Although these methods have their advantages, they are based on the crosslinking aggregation of AuNPs which require troublesome synthesis of special ligands, complicated modification precedure and long preparation, which limit chemical stability and external nonspecific interference. ...

Enzymatic disassembly of DNA-gold nanostructures
  • Citing Article
  • January 2007

Small

... Furthermore, the higher ratio of conversion of alliin to allicin than the theoretical value of 2:1 would indicate that further study should be conducted to more completely understand the mechanism and the role of genetics in the conversion of alliin to allicin. Jones et al. 32 identified six different alliinase isoforms Table 2). The alliin concentration was also expressed as units of S (alliin/S mg g −1 DW). ...

The biochemical and physiological genesis of alliin in garlic
  • Citing Article
  • January 2007

... In Allium species, four different ACSOs have been found. The flavor of garlic is due to its high content of (+)-S-(2-propenyl)-L-cysteine sulfoxide (2-PECSO), also referred to as alliin (Block 1985;Hong et al. 1997;Lancaster and Boland 1990;Collin et al. 2004). Garlic bulbs may contain up to 1.4% of the fresh weigh of alliin (Keusgen 2002). ...

Sulfur biochemistry of garlic: The biosynthesis of flavor precursors
  • Citing Article
  • August 2005

Acta Horticulturae

... WT SgrAI enzyme was prepared as previously described (20). The expression vector for the K242A mutant of SgrAI was prepared using a commercial source, but because this mutant form had more limited solubility, a second mutation was introduced, L336K. ...

Probing the run-on oligomer of activated SgrAI bound to DNA

... Wild-type A118 Int forms few, if any, SCs that are detectable by gel electrophoresis under a variety of conditions (e.g., see Fig. 7B). These include reaction mixtures containing different divalent cations, EDTA, or alcohols like glycerol or ethylene glycol; the use of catalytically defective mutants; or DNA modifications (nicks or phosphorothioates) around the DNA exchange site, which have been found to stabilize or irreversibly trap SCs in various SRs (50,56,57). There have been extensive studies on gain-offunction mutants of small SRs, which have often been identified through genetic screens. ...

Nicked-site substrates for a serine recombinase reveal enzyme-DNA communications and an essential tethering role of covalent enzyme-DNA linkages

Nucleic Acids Research

... Incorporation of 3 S and 5 S linkages into oligonucleotides is possible by standard solid phase oligonucleotide synthesis using appropriate phosphoramidite monomers ( Figure 1C (20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36)(37)(38)) and the hybridization behavior as well as the conformational properties of such oligonucleotides have been reported (18)(19)(20)(21)(22)(23)(24)(25)(26)(27)(28)(29)(30)(31)(32)(33)(34)(35)(36). 3 S and 5 S thiophosphates have also been applied in mechanistic studies with enzymes Downloaded from https://academic.oup.com/nar/article-abstract/48/1/63/5637591 by guest on 25 March 2020 and ribozymes (39)(40)(41)(42)(43)(44)(45)(46)(47)(48)(49)(50) and in site selective chemical strand cleavage (31,32,34,35). In one study investigating the 5 S modification in RNase H activating gapmers a hitherto unexplained discrepancy between in vitro and in vivo activity was observed (37,38). ...

Stabilization of a Bimolecular Triplex by 3′-S-Phosphorothiolate Modifications: An NMR and UV Thermal Melting Investigation
  • Citing Article
  • March 2015

... 50 Additionally, the asymmetric disulfide can be made from thiosulfonates, thiosulfates, or thioester. 51 The disulfide to another disulfide exchange reaction can lead to asymmetrical disulfides. The evaluation of the wide variety of reported methods for the synthesis of both symmetric and asymmetric disulfides led us to the conclusion that most of these are hardly translatable to on-DNA chemistry due to restrictions to organic solvents, involving modest to strong oxidant, transitional metal catalyst, strong acidic, or basic conditions. ...

Synthesis and Structure of S-Nucleosidyl S-Aryl Disulfides and Their Reaction with Phosphites
  • Citing Article
  • January 1996

Tetrahedron