2'-O,4'-C-Methyleneguanosine

Modify Date: 2024-01-27 18:25:27

2'-O,4'-C-Methyleneguanosine structure	Common Name	2'-O,4'-C-Methyleneguanosine
	CAS Number	207131-16-6	Molecular Weight	N/A
	Density	N/A	Boiling Point	N/A
	Molecular Formula	N/A	Melting Point	N/A
	MSDS	N/A	Flash Point	N/A

Use of 2'-O,4'-C-Methyleneguanosine

2′-O,4′-C-Methyleneguanosine (LNA-G) is a reverse guanine analogue, where LNA (locked nucleic acid) is a nucleic acid analogue. LNA modification can be used in a variety of applications such as effective binding affinity to complementary sequences and greater nuclease resistance than natural nucleotides, offering great potential for applications in disease diagnosis and research. LNA-G is also available via KOD DNA polymerase, which allows the integration of LNA-G nucleotides into the DNA strand[1][2].

Name	2'-O,4'-C-Methyleneguanosine

Description	2′-O,4′-C-Methyleneguanosine (LNA-G) is a reverse guanine analogue, where LNA (locked nucleic acid) is a nucleic acid analogue. LNA modification can be used in a variety of applications such as effective binding affinity to complementary sequences and greater nuclease resistance than natural nucleotides, offering great potential for applications in disease diagnosis and research. LNA-G is also available via KOD DNA polymerase, which allows the integration of LNA-G nucleotides into the DNA strand[1][2].
Related Catalog	Signaling Pathways >> Cell Cycle/DNA Damage >> Nucleoside Antimetabolite/Analog Signaling Pathways >> Cell Cycle/DNA Damage >> DNA/RNA Synthesis Research Areas >> Others
References	[1]. Rakesh N. Veedu, et al. Polymerase directed incorporation studies of LNA-G nucleoside 5′-triphosphate and primer extension involving all four LNAnucleotides. New J. Chem., 2010,34, 877-879 [2]. Haase L, et al. Locked nucleic acid building blocks as versatile tools for advanced G-quadruplex design. Nucleic Acids Res. 2020 Oct 9;48(18):10555-10566.

Description

Related Catalog

Signaling Pathways >> Cell Cycle/DNA Damage >> Nucleoside Antimetabolite/Analog

Signaling Pathways >> Cell Cycle/DNA Damage >> DNA/RNA Synthesis

Research Areas >> Others

References

[1]. Rakesh N. Veedu, et al. Polymerase directed incorporation studies of LNA-G nucleoside 5′-triphosphate and primer extension involving all four LNAnucleotides. New J. Chem., 2010,34, 877-879

[2]. Haase L, et al. Locked nucleic acid building blocks as versatile tools for advanced G-quadruplex design. Nucleic Acids Res. 2020 Oct 9;48(18):10555-10566.

No Any Chemical & Physical Properties