Hydration of Ions in Confined Spaces and Ion Recognition Selectivity

Okada, Tetsuo; Harada, Makoto; Ohki, Takumi

doi:10.2116/analsci.25.167

Cited by 18 publications

(16 citation statements)

References 65 publications

(81 reference statements)

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“…5e) that purines who are about double the size of pyrimidines yield less ion current obstruction compared to pyrimidines. In addition to proposed rationalizations that attribute the observations with intact homopolymer to special helical structures in a confined environment 1,2 , we wish to propose hydration or solvation/desolvation 67 , as another critical parameter, and envision this phenomenon as follows: There are two different sources of water molecules present within the nanopore at all times. One source are the water molecules solvating the salt ions which are responsible for the observed ion current.…”

Section: Resultsmentioning

confidence: 99%

“…Solvation inside a nanopore will not resemble solvation in the bulk solution, but desolvation is costly from a thermodynamic point of view. In the confined space the first, perhaps the second too, solvation shell(s) of any functional group within the pore will remain intact 67 , unless it is replaced by a new component in the system. In this context higher solvation requirements can rationalize the typically lower I r of ribooligos compared to deoxyoligos, the typically lower I r of pyrimidines (two functional groups) compared to adenine (one functional group), and the reported here higher I r level of 4-SU compared to U, consistent with the almost double atomic radius of S vs. O and its resulting easier desolvation.…”

Section: Resultsmentioning

confidence: 99%

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Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Sultan¹,

Kanavarioti²

2019

Sci Rep

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Protein and solid-state nanopores are used for DNA/RNA sequencing as well as for single molecule analysis. We proposed that selective labeling/tagging may improve base-to-base resolution of nucleic acids via nanopores. We have explored one specific tag, the Osmium tetroxide 2,2′-bipyridine (OsBp), which conjugates to pyrimidines and leaves purines intact. Earlier reports using OsBp-tagged oligodeoxyribonucleotides demonstrated proof-of-principle during unassisted voltage-driven translocation via either alpha-Hemolysin or a solid-state nanopore. Here we extend this work to RNA oligos and a third nanopore by employing the MinION, a commercially available device from Oxford Nanopore Technologies (ONT). Conductance measurements demonstrate that the MinION visibly discriminates oligoriboadenylates with sequence A15PyA15, where Py is an OsBp-tagged pyrimidine. Such resolution rivals traditional chromatography, suggesting that nanopore devices could be exploited for the characterization of RNA oligos and microRNAs enhanced by selective labeling. The data also reveal marked discrimination between a single pyrimidine and two consecutive pyrimidines in OsBp-tagged AnPyAn and AnPyPyAn. This observation leads to the conjecture that the MinION/OsBp platform senses a 2-nucleotide sequence, in contrast to the reported 5-nucleotide sequence with native nucleic acids. Such improvement in sensing, enabled by the presence of OsBp, may enhance base-calling accuracy in enzyme-assisted DNA/RNA sequencing.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Sultan¹,

Kanavarioti²

2019

Sci Rep

View full text Add to dashboard Cite

show abstract

“…Without water addition the strong anion exchange capacity is reduced by 17%, with water addition the reduction is only 6% (Table 1). With water addition a bigger hydrate sphere around the ions of the ion exchange resin is present which protects the quaternary ammonium group against the Hofmann rearrangement [41].…”

Section: Hofmann Rearrangementmentioning

confidence: 99%

Upgrading bio-based acetone to diacetone alcohol by aldol reaction using Amberlyst A26-OH as catalyst

Eisenacher

Venschott

Dylong

et al. 2022

Reac Kinet Mech Cat

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The aldol reaction of bio acetone in presence of a strongly basic ion exchange resin was carried out with and without the addition of water in a temperature range between − 30 °C and 45 °C. The conversion, selectivity and service time of the ion exchange resins were investigated in a stirred batch reactor and a continuous fixed bed reactor. For the batch experiments, both conversion and selectivity increased with decreasing temperature. Furthermore, the addition of water to the reaction medium has a positive effect on selectivity and catalyst service time of the resins. For the continuous flow experiments carried out in a fixed bed reactor, the selectivity towards diacetone alcohol is higher than in a batch reactor. This high selectivity is favored by a short contact time which inhibits as expected most of the consecutive reactions.

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“…However, the further elimination of non-ionic interactions between anions and the substrate can be achieved by moving anion exchange groups aside from the hydrophobic polymer surface by using long linkers [15,16]. These effects can also be explained from the view point of hydration of the functional site, as soon as more polarizable anions have higher affinity to more hydrophobic less hydrated anion exchange groups, which leads to their higher retention and sometimes considerable peak asymmetry [17,18]. In this case, moving functional groups aside from the hydrophobic polymer surface leads to their better hydration.…”

Section: Introductionmentioning

confidence: 99%

Anion exchangers with branched functional ion exchange layers of different hydrophilicity for ion chromatography

Shchukina

Затираха

Smolenkov

et al. 2015

Journal of Chromatography A

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Hydration of Ions in Confined Spaces and Ion Recognition Selectivity

Cited by 18 publications

References 65 publications

Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Nanopore device-based fingerprinting of RNA oligos and microRNAs enhanced with an Osmium tag

Upgrading bio-based acetone to diacetone alcohol by aldol reaction using Amberlyst A26-OH as catalyst

Anion exchangers with branched functional ion exchange layers of different hydrophilicity for ion chromatography

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