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Eriks Rozners

Showing results (51-60 of 88) with videos related to

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Chemical Communications (Cambridge, England)|May 10, 2016
Triplex-forming peptide nucleic acid modified with 2-aminopyridine as a new tool for detection of A-to-I editingChiara Annoni, Tamaki Endoh, Dziyana Hnedzko, et al.
ACS Chemical Biology|June 11, 2021
Triple-Helical Binding of Peptide Nucleic Acid Inhibits Maturation of Endogenous MicroRNA-197Tamaki Endoh, Nikita Brodyagin, Dziyana Hnedzko, et al.
Tetrahedron|August 21, 2010
Monomers for preparation of amide linked RNA: Synthesis of C3'-homologated nucleoside amino acids from d-xylosePaul Tanui, Martin Kullberg, Ni Song, et al.
RNA (New York, N.Y.)|October 16, 2016
Sequence-selective recognition of double-stranded RNA and enhanced cellular uptake of cationic nucleobase and backbone-modified peptide nucleic acidsDziyana Hnedzko, Dennis W McGee, Yannis A Karamitas, et al.
ACS Chemical Biology|April 21, 2021
Pyridazine Nucleobase in Triplex-Forming PNA Improves Recognition of Cytosine Interruptions of Polypurine Tracts in RNANikita Brodyagin, Ilze Kumpina, Justin Applegate, et al.
Chemical Communications (Cambridge, England)|October 30, 2016
Correction: Triplex-forming peptide nucleic acid modified with 2-aminopyridine as a new tool for detection of A-to-I editingChiara Annoni, Tamaki Endoh, Dziyana Hnedzko, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)|February 13, 2019
Synthetic, Structural, and RNA Binding Studies on 2-Aminopyridine-Modified Triplex-Forming Peptide Nucleic AcidsVenubabu Kotikam, Scott D Kennedy, James A MacKay, et al.
Physical Chemistry Chemical Physics : PCCP|November 22, 2016
Triplex-forming PNA modified with unnatural nucleobases: the role of protonation entropy in RNA bindingTamaki Endoh, Chiara Annoni, Dziyana Hnedzko, et al.
Bioorganic Chemistry|December 20, 2024
Enzyme fragment complementation driven by nucleic acid hybridization sans self-labeling proteinZihan Xu, Xiaoyu Zhang, Chandan Pal, et al.
Beilstein Journal of Organic Chemistry|August 9, 2021
Chemical approaches to discover the full potential of peptide nucleic acids in biomedical applicationsNikita Brodyagin, Martins Katkevics, Venubabu Kotikam, et al.
Pageof 9

Showing results (51-60 of 88) with videos related to

Sort By:
Pageof 9
Chemical Communications (Cambridge, England)|May 10, 2016
Triplex-forming peptide nucleic acid modified with 2-aminopyridine as a new tool for detection of A-to-I editingChiara Annoni, Tamaki Endoh, Dziyana Hnedzko, et al.
ACS Chemical Biology|June 11, 2021
Triple-Helical Binding of Peptide Nucleic Acid Inhibits Maturation of Endogenous MicroRNA-197Tamaki Endoh, Nikita Brodyagin, Dziyana Hnedzko, et al.
Tetrahedron|August 21, 2010
Monomers for preparation of amide linked RNA: Synthesis of C3'-homologated nucleoside amino acids from d-xylosePaul Tanui, Martin Kullberg, Ni Song, et al.
RNA (New York, N.Y.)|October 16, 2016
Sequence-selective recognition of double-stranded RNA and enhanced cellular uptake of cationic nucleobase and backbone-modified peptide nucleic acidsDziyana Hnedzko, Dennis W McGee, Yannis A Karamitas, et al.
ACS Chemical Biology|April 21, 2021
Pyridazine Nucleobase in Triplex-Forming PNA Improves Recognition of Cytosine Interruptions of Polypurine Tracts in RNANikita Brodyagin, Ilze Kumpina, Justin Applegate, et al.
Chemical Communications (Cambridge, England)|October 30, 2016
Correction: Triplex-forming peptide nucleic acid modified with 2-aminopyridine as a new tool for detection of A-to-I editingChiara Annoni, Tamaki Endoh, Dziyana Hnedzko, et al.
Chemistry (Weinheim an Der Bergstrasse, Germany)|February 13, 2019
Synthetic, Structural, and RNA Binding Studies on 2-Aminopyridine-Modified Triplex-Forming Peptide Nucleic AcidsVenubabu Kotikam, Scott D Kennedy, James A MacKay, et al.
Physical Chemistry Chemical Physics : PCCP|November 22, 2016
Triplex-forming PNA modified with unnatural nucleobases: the role of protonation entropy in RNA bindingTamaki Endoh, Chiara Annoni, Dziyana Hnedzko, et al.
Bioorganic Chemistry|December 20, 2024
Enzyme fragment complementation driven by nucleic acid hybridization sans self-labeling proteinZihan Xu, Xiaoyu Zhang, Chandan Pal, et al.
Beilstein Journal of Organic Chemistry|August 9, 2021
Chemical approaches to discover the full potential of peptide nucleic acids in biomedical applicationsNikita Brodyagin, Martins Katkevics, Venubabu Kotikam, et al.
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