phosphorus-radioisotopes and terbium-chloride

phosphorus-radioisotopes has been researched along with terbium-chloride* in 1 studies

Other Studies

1 other study(ies) available for phosphorus-radioisotopes and terbium-chloride

Article	Year
Use of terbium as a probe of tRNA tertiary structure and folding. RNA (New York, N.Y.), 2000, Volume: 6, Issue:11 Lanthanide metals such as terbium have previously been shown to be useful for mapping metal-binding sites in RNA. Terbium binds to the same sites on RNA as magnesium, however, with a much higher affinity. Thus, low concentrations of terbium ions can easily displace magnesium and promote phosphodiester backbone scission. At higher concentrations, terbium cleaves RNA in a sequence-independent manner, with a preference for single-stranded, non-Watson-Crick base-paired regions. Here, we show that terbium is a sensitive probe of human tRNALys,3 tertiary structure and folding. When 1 microM tRNA is used, the optimal terbium ion concentration for detecting Mg2+-induced tertiary structural changes is 50-60 microM. Using these concentrations of RNA and terbium, a magnesium-dependent folding transition with a midpoint (KMg) of 2.6 mM is observed for unmodified human tRNALys,3. At lower Tb3+ concentrations, cleavage is restricted to nucleotides that constitute specific metal-binding pockets. This small chemical probe should also be useful for detecting protein induced structural changes in RNA. Topics: Autoradiography; Base Sequence; Binding Sites; Electrophoresis, Polyacrylamide Gel; Humans; Magnesium; Models, Molecular; Molecular Sequence Data; Nucleic Acid Conformation; Phosphorus Radioisotopes; Ribonuclease T1; RNA, Transfer; RNA, Transfer, Amino Acyl; Terbium	2000

Article

Year

Use of terbium as a probe of tRNA tertiary structure and folding.

RNA (New York, N.Y.), 2000, Volume: 6, Issue:11

Lanthanide metals such as terbium have previously been shown to be useful for mapping metal-binding sites in RNA. Terbium binds to the same sites on RNA as magnesium, however, with a much higher affinity. Thus, low concentrations of terbium ions can easily displace magnesium and promote phosphodiester backbone scission. At higher concentrations, terbium cleaves RNA in a sequence-independent manner, with a preference for single-stranded, non-Watson-Crick base-paired regions. Here, we show that terbium is a sensitive probe of human tRNALys,3 tertiary structure and folding. When 1 microM tRNA is used, the optimal terbium ion concentration for detecting Mg2+-induced tertiary structural changes is 50-60 microM. Using these concentrations of RNA and terbium, a magnesium-dependent folding transition with a midpoint (KMg) of 2.6 mM is observed for unmodified human tRNALys,3. At lower Tb3+ concentrations, cleavage is restricted to nucleotides that constitute specific metal-binding pockets. This small chemical probe should also be useful for detecting protein induced structural changes in RNA.

Topics: Autoradiography; Base Sequence; Binding Sites; Electrophoresis, Polyacrylamide Gel; Humans; Magnesium; Models, Molecular; Molecular Sequence Data; Nucleic Acid Conformation; Phosphorus Radioisotopes; Ribonuclease T1; RNA, Transfer; RNA, Transfer, Amino Acyl; Terbium

2000