Maria S Rubel
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Explore the profile of Maria S Rubel including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
38
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Recent Articles
1.
Rubel M, Zemerova T, Kolpashchikov D
Chem Commun (Camb)
. 2025 Feb;
61(17):3472-3483.
PMID: 39898490
Molecular sensors respond to the presence of biological analytes by producing signals that are either directly perceivable by human sensory systems or converted into electric signals, which require electronic devices...
2.
Shkodenko L, Mohamed A, Ateiah M, Rubel M, Koshel E
Int J Mol Sci
. 2024 Aug;
25(15).
PMID: 39125852
The rapid and accurate diagnosis of meningitis is critical for preventing severe complications and fatalities. This study addresses the need for accessible diagnostics in the absence of specialized equipment by...
3.
Nedorezova D, Rubel M, Rubel A
Biochemistry (Mosc)
. 2024 Apr;
89(Suppl 1):S249-S261.
PMID: 38621754
Nucleic acids (NAs) are important components of living organisms responsible for the storage and transmission of hereditary information. They form complex structures that can self-assemble and bind to various biological...
4.
Filatov P, Ateiah M, Berezovskaya M, Rubel M, Kolpashchikov D
J Vis Exp
. 2024 Feb;
(204).
PMID: 38407236
DNAzyme-based nanomachines (DNM) for the detection of DNA and RNA sequences (analytes) are multifunctional structures made of oligonucleotides. Their functions include tight analyte binding, highly selective analyte recognition, fluorescent signal...
5.
Kachkin D, Lashkul V, Gorsheneva N, Fedotov S, Rubel M, Chernoff Y, et al.
Int J Mol Sci
. 2023 Sep;
24(18).
PMID: 37762425
Numerous studies have demonstrated that people with type 2 diabetes mellitus (associated with IAPP peptide aggregation) show an increased incidence of Alzheimer's disease (associated with Aβ aggregation), but the mechanism...
6.
Rubel M, Shkodenko L, Gorbenko D, Solyanikova V, Maltzeva Y, Rubel A, et al.
Methods Mol Biol
. 2023 Aug;
2709:287-298.
PMID: 37572289
Structural RNA is a challenging target for recognition by hybridization probes. This chapter addresses the recognition problem of RNA amplicons in samples obtained by multiplex nucleic acid sequence-based amplification (NASBA)....
7.
Maltzeva Y, Gorbenko D, Nikitina E, Rubel M, Kolpashchikov D
Int J Mol Sci
. 2023 May;
24(9).
PMID: 37175522
Rapid, inexpensive, and accurate determination of nucleic acids is a decisive factor in evaluating population's health and monitoring treatment at point-of-care (POC) settings. Testing systems with visual outputs can provide...
8.
Ateiah M, Gandalipov E, Rubel A, Rubel M, Kolpashchikov D
Int J Mol Sci
. 2023 Mar;
24(5).
PMID: 36901903
Conventional methods for the detection and differentiation of group species have drawbacks mostly due to the complexity of genetic discrimination between the species. Here, we describe a simple and straightforward...
9.
El-Deeb A, Zablotskaya S, Rubel M, Nour M, Kozlovskaya L, Shtro A, et al.
ChemMedChem
. 2022 Aug;
17(20):e202200382.
PMID: 36031581
Nucleic acid-based detection of RNA viruses requires an annealing procedure to obtain RNA/probe or RNA/primer complexes for unwinding stable structures of folded viral RNA. In this study, we designed a...
10.
Gorbenko D, Shkodenko L, Rubel M, Slita A, Nikitina E, Martens E, et al.
Chem Commun (Camb)
. 2022 Apr;
58(35):5395-5398.
PMID: 35415727
Visual detection of ssRNA and dsDNA amplicons was achieved at room temperature without the need for a probe-analyte annealing stage. This approach uses a DNA nanostructure equipped with two analyte-binding...