Selective detection of mir-371 for testicular germ cell tumor diagnosis using a dna nanomachine
Nedorezova D.D., Dubovichenko M.V., Eldeeb A.A., Nur M.A., Bobkov G.A., Ashmarova A.I., Kalnin A.J., Kolpashchikov D.M. Cleaving Folded RNA by Multifunctional DNAzyme Nanomachines. Chemistry - A European Journal. 2024. Vol. 30. No. 40. pp. e202401580.. doi: 10.1002/chem.202401580
Hussein Z., Golovina L.A., Alaji M., Nour M., Kolpashchikov D.M., Komissarov A.B., El-Deeb A. Enhancing Sensitivity in Nucleic Acid Detection via Collaborative Multiple Catalytic Cores in DNAzyme Nanomachines. ChemBioChem. 2024. Vol. 25. No. 23. pp. e202400572.. doi: 10.1002/cbic.202400572
Patra C.K., Smirnov V.V., Drozd V.S., Hussein Z., Rybalko D.S., Kozlova A.V., Nour M., Zemerova T.P., Kolosova O.S., Kalnin A.Y., El-Deeb A. Towards the Development of a DNA Automaton: Modular RNA-cleaving Deoxyribozyme Logic Gates Regulated by miRNAs. Analyst. 2024. Vol. 149. No. 6. pp. 1947-1957.. doi: 10.1039/D3AN02178E
OPTIMIZATION OF AFFINITY AND STABILITY OF SELECTED APTAMER FOR BSA
Nour M., Drozd V.S., Lemeshko E.A., Tafran L., Salimova A.A., Kulikova A.V., Eldeeb A.A. RNase H-dependent DNA thresholder modulated by cancer marker concentration. Chemical Communications. 2024. Vol. 60. No. 33. pp. 4427-4430.. doi: 10.1039/d4cc00495g
Nedorezova D.D., Dubovichenko M.V., Kalnin A.Y., Nour M.A., Eldeeb A.A., Ashmarova A.I., Kurbanov G.F., Kolpashchikov D.M. Cleaving Folded RNA with DNAzyme Agents. ChemBioChem. 2024. Vol. 25. No. 1. pp. e202300637.. doi: 10.1002/cbic.202300637
DEPENDENCE OF THE AFFINITY OF OLIGONUCLEOTIDES ON CHEMICAL MODIFICATIONS AND THE LENGTH OF NUCLEOTIDE SEQUENCES
Hussein Z., Nour M., Kozlova A.V., Kolpashchikov D.M., Komissarov A., El-Deeb A. DNAzyme Nanomachine with Fluorogenic Substrate Delivery Function: Advancing Sensitivity in Nucleic Acid Detection. Analytical Chemistry. 2023. Vol. 95. No. 51. pp. 18667-18672.. doi: 10.1021/acs.analchem.3c04420
Nour M.A., Kulikova A.V., Wanjohi J., El-Deeb A. Distinguishing High from Low Concentrations of RNA Cancer Marker: Five-Input DNAzyme Thresholding Gate. ChemistrySelect. 2023. Vol. 8. No. 48. pp. e202303011.. doi: 10.1002/SLCT.202303011
Prospects of using binary deoxyribozymes as a biosensor for quantitative analysis of oligonucleotide concentrations
Development and optimization of high affinity oncogene-specific DNA aptamers for human cancer cells binding
Towards DNA-robot for Auto Diagnosis and Cancer Treatment
DEVELOPMENT OF A HIGHLY SELECTIVE BINARY ANTISENSE OLIGONUCLEOTIDE-BASED CONSTRUCT TO CLEAVE THE TARGET MRNA OF THE GFP GENE
РАЗРАБОТКА СЕЛЕКТИВНОЙ ДНК КОНСТРУКЦИИ С ПОРОГОВОЙ ЛОГИКОЙ ДЛЯ РАСЩЕПЛЕНИЯ МАТРИЧНОЙ РНК GFP
Разработка высокоселективной конструкции на основе бинарных антисмысловых олигонуклеотидов для расщепления целевой мРНК гена GFP
Binary antisense constructs modulated by the concentration of cancer markers
Oncomarker modulated RNA cleavage Using threshold Binary DNAzyme
КОНСТРУКЦИИ НА ОСНОВЕ НУКЛЕИНОВЫХ КИСЛОТ ДЛЯ ШИРОКОГО СПЕКТРА ПРИМЕНЕНИЙ
El-Deeb A., Zablotskaya S., Rubel M.S., Nour M., Kozlovskaya L., Shtro A., Komissarov A., Kolpashchikov D.M. Toward a Home Test for COVID-19 Diagnosis: DNA Machine for Amplification-Free SARS-CoV-2 Detection in Clinical Samples. ChemMedChem. 2022. Vol. 17. No. 20. pp. e202200382.. doi: 10.1002/cmdc.202200382
DISTINGUISHING HIGH FROM LOW CONCENTRATIONS OF RNA CANCER MARKER: 5-INPUT BINARY DEOXYRIBOZYME THRESHOLDING GATE
ADVANCED DNA MACHINE FOR THE AMPLIFICATION FREE DETECTION OF SARS-HCOV-2 IN THE CLINICAL SAMPLES