Nucleic acid structures can have different stabilities that depend on a variety of factors that include the nucleic acid sequence, the structure adopted, and the solution environment. Together, these factors influence the thermal stability of the complex
AbstractThe thermal stability of nucleic acid structures is perturbed under the conditions that mimi...
ABSTRACT: In this paper the thermal denaturation of ribonuclease S, the product of mild digestion of...
The thermal denaturation of calf-thymus DNA (ct-DNA) in aqueous solution of osmoprotectant solutes, ...
A concept, based on the changes in internal pressure of water due to addition of salts, has been use...
Two factors are mainly responsible for the stability of the DNA double helix: base pairing between c...
The thermal behavior of some complexes derived from biologically nucleic acid constituents has been ...
Glycine–betaine (GB) stabilizes folded protein structure because of its unfavorable thermodynamic in...
The study of the changes in UV absorbance of DNA solutions in water/dioxane and water/ethylene glyco...
Abstract G‐quadruplexes have attracted growing interest in recent years due to their occurrence in ...
The DNA molecule can take various conformational forms. Investigations focus mainly on the so-called...
An empirical formula for thermal stability (Tm) prediction of PNA/DNA duplexes has been derived. The...
The stability and structure of nylon nucleic acid duplexes with complementary DNA and RNA strands wa...
The existence of labile bonds participating in the macromolecular structure and the biological activ...
Knowledge of the thermodynamic strength of nucleic acid duplexes and triplexes has many important ap...
The aim of this work is to discuss the thermodynamic properties, obtained by differential scanning c...
AbstractThe thermal stability of nucleic acid structures is perturbed under the conditions that mimi...
ABSTRACT: In this paper the thermal denaturation of ribonuclease S, the product of mild digestion of...
The thermal denaturation of calf-thymus DNA (ct-DNA) in aqueous solution of osmoprotectant solutes, ...
A concept, based on the changes in internal pressure of water due to addition of salts, has been use...
Two factors are mainly responsible for the stability of the DNA double helix: base pairing between c...
The thermal behavior of some complexes derived from biologically nucleic acid constituents has been ...
Glycine–betaine (GB) stabilizes folded protein structure because of its unfavorable thermodynamic in...
The study of the changes in UV absorbance of DNA solutions in water/dioxane and water/ethylene glyco...
Abstract G‐quadruplexes have attracted growing interest in recent years due to their occurrence in ...
The DNA molecule can take various conformational forms. Investigations focus mainly on the so-called...
An empirical formula for thermal stability (Tm) prediction of PNA/DNA duplexes has been derived. The...
The stability and structure of nylon nucleic acid duplexes with complementary DNA and RNA strands wa...
The existence of labile bonds participating in the macromolecular structure and the biological activ...
Knowledge of the thermodynamic strength of nucleic acid duplexes and triplexes has many important ap...
The aim of this work is to discuss the thermodynamic properties, obtained by differential scanning c...
AbstractThe thermal stability of nucleic acid structures is perturbed under the conditions that mimi...
ABSTRACT: In this paper the thermal denaturation of ribonuclease S, the product of mild digestion of...
The thermal denaturation of calf-thymus DNA (ct-DNA) in aqueous solution of osmoprotectant solutes, ...