“siRNA traffic lights”: arabino-configured 2′-anchors for fluorescent dyes are key for dual color readout in cell imaging

Steinmeyer, Jeannine; Walter, Heidi-Kristin; Bichelberger, Mathilde A.; Schneider, Violetta; Kubař, Tomáš; Rönicke, Franziska; Olshausen, Bettina; Nienhaus, Karin; Nienhaus, G. Ulrich; Schepers, Ute; Elstner, Marcus; Wagenknecht, Hans‐Achim

doi:10.1039/c8ob00417j

Cited by 5 publications

(8 citation statements)

References 26 publications

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“…Localization of TO and partner dyes opposite one another enables energy transfer or quenching interactions between them, which are interrupted upon target recognition due to separation between the TO-acceptor pair, thus yielding increased TO fluorescence [ 76 ]. Such probes were applied to determine the degree of delivery of siRNAs into cells, along with their inhibitory activity [ 75 , 77 ]. Subsequent works have broadened the library of clickable approaches for TO-labeling of DNA-based probes, combined with other acceptor dyes, through chemical modifications of thymine bases [ 78 , 79 ].…”

Section: Sensing Of Nucleic Acidsmentioning

confidence: 99%

Broad Applications of Thiazole Orange in Fluorescent Sensing of Biomolecules and Ions

Suss,

Motiei,

Margulies

2021

Molecules

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Fluorescent sensing of biomolecules has served as a revolutionary tool for studying and better understanding various biological systems. Therefore, it has become increasingly important to identify fluorescent building blocks that can be easily converted into sensing probes, which can detect specific targets with increasing sensitivity and accuracy. Over the past 30 years, thiazole orange (TO) has garnered great attention due to its low fluorescence background signal and remarkable ‘turn-on’ fluorescence response, being controlled only by its intramolecular torsional movement. These features have led to the development of numerous molecular probes that apply TO in order to sense a variety of biomolecules and metal ions. Here, we highlight the tremendous progress made in the field of TO-based sensors and demonstrate the different strategies that have enabled TO to evolve into a versatile dye for monitoring a collection of biomolecules.

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Section: Sensing Of Nucleic Acidsmentioning

confidence: 99%

Broad Applications of Thiazole Orange in Fluorescent Sensing of Biomolecules and Ions

Suss,

Motiei,

Margulies

2021

Molecules

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“…The cellular uptake of these 2 -cholesterol-conjugated siRNA either in the absence (free uptake) or in the presence of a commercial transfection agent in the HEK293 Phoenix cell line was evaluated (see for details Supplementary Materials, Section 3.3, pages [16][17][18]. The flow cytometry data shows that the efficiency of the cholesterol-conjugated siRNAs carrier-free uptake is rather high (more than 80%, at C siRNA = 1 µM), while lipofectamine 3000-mediated delivery of all the siRNAs provided from approximately 30-65% of transfected cells (Figure 5B).…”

Section: S/asmentioning

confidence: 99%

“…To date, a number of pre- and postsynthetic methods for the generation of 2′-modified RNAs have been reported. These methods have been used for chemical synthesis of various conjugates of siRNA [ 1 , 14 , 15 , 16 ], labeled pre-microRNAs [ 17 , 18 , 19 ], peptidyl-conjugates of RNA mimicking the tRNA Ala acceptor arm [ 20 ], branched and lariat RNAs [ 21 , 22 , 23 , 24 , 25 , 26 ], and others. Recently, an original strategy of reversible acylation of 2′-OH groups of native RNA (RNA cloaking) for the controlled blocking of RNA hybridization, folding, and interactions with other biomolecules has been reported [ 27 , 28 , 29 ].…”

Section: Introductionmentioning

confidence: 99%

Postsynthetic On-Column 2′ Functionalization of RNA by Convenient Versatile Method

Krasheninina

Fishman

Lomzov

et al. 2020

IJMS

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We report a universal straightforward strategy for the chemical synthesis of modified oligoribonucleotides containing functional groups of different structures at the 2’ position of ribose. The on-column synthetic concept is based on the incorporation of two types of commercial nucleotide phosphoramidites containing orthogonal 2’-O-protecting groups, namely 2’-O-thiomorpholine-carbothioate (TC, as “permanent”) and 2’-O-tert-butyl(dimethyl)silyl (tBDMS, as “temporary”), to RNA during solid-phase synthesis. Subsequently, the support-bound RNA undergoes selective deprotection and follows postsynthetic 2’ functionalization of the naked hydroxyl group. This convenient method to tailor RNA, utilizing the advantages of solid phase approaches, gives an opportunity to introduce site-specifically a wide range of linkers and functional groups. By this strategy, a series of RNAs containing diverse 2’ functionalities were synthesized and studied with respect to their physicochemical properties.

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“…Besides incorporation of the dyes as base surrogates, [6a] we were able to attach the dyes post‐synthetically via copper‐catalyzed azide‐alkyne cycloaddition (CuAAC) to different alkyne moieties, including 2’‐propargylated ribo‐ and arabinofuranosides and acyclic aminopropanediol linkers. This makes the RNA constructs synthetically more accessible and enables the use of a variety of chromophores [6b,d,7] . The photostability of this fluorescent siRNA architecture was further improved by combinations of our photostable cyanine‐styryl‐dyes [8] .…”

Section: Introductionmentioning

confidence: 99%

“…The photostability of this fluorescent siRNA architecture was further improved by combinations of our photostable cyanine‐styryl‐dyes [8] . These fluorophores, however, show multiple fluorescence lifetimes due to different interactions with RNA, making FLIM‐FRET experiments impossible [6d] . For this purpose, we transferred the “RNA traffic light” concept (Figure 1) to photostable ATTO dyes.…”

Section: Introductionmentioning

confidence: 99%

Fluorescence Lifetime Imaging Microscopy (FLIM) of Intracellular Transport by Means of Doubly Labelled siRNA Architectures

et al. 2021

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For monitoring the intracellular pathway of small interfering RNA (siRNA), both strands were labelled at internal positions by two ATTO dyes as an interstrand Förster resonance energy transfer pair. siRNA double strands show red emission and a short donor lifetime as readout, whereas siRNA antisense single strands show green emission and a long donor lifetime. This readout signals if GFP silencing can be expected (green) or not (red). We attached both dyes to three structurally different alkyne anchors by postsynthetic modifications. There is only a slight preference for the ribofuranoside anchors with the dyes at their 2’‐positions. For the first time, the delivery and fate of siRNA in live HeLa cells was tracked by fluorescence lifetime imaging microscopy (FLIM), which revealed a clear relationship between intracellular transport using different transfection methods and knockdown of GFP expression, which demonstrates the potential of our siRNA architectures as a tool for future development of effective siRNA.

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“siRNA traffic lights”: arabino-configured 2′-anchors for fluorescent dyes are key for dual color readout in cell imaging

Cited by 5 publications

References 26 publications

Broad Applications of Thiazole Orange in Fluorescent Sensing of Biomolecules and Ions

Broad Applications of Thiazole Orange in Fluorescent Sensing of Biomolecules and Ions

Postsynthetic On-Column 2′ Functionalization of RNA by Convenient Versatile Method

Fluorescence Lifetime Imaging Microscopy (FLIM) of Intracellular Transport by Means of Doubly Labelled siRNA Architectures

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