2000
DOI: 10.7124/bc.00055e
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Study of tertiary structure elements of tRNASer from Thermus thermophilus in solution

Abstract: Інститут молекулярної біології і генетики ИЛИ України Вул. Академіка Заболотного, 150, Киї», 03143, Україна Методами хімічної модифікації вивчено реакційну здатність залишків фосфорної кислоти та азотистих основ, що входять до складу mPHJC* 1 ' з Т. thermophilus. Отримані результати свідчать про надзвичайну близкість просторової структури inPIffC Str у розчині до такої в кристалі комплексу тРНК 3 * 1 Т. thermophilus з серші-тРНК синтета:юю.

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“…4, A) is reorganized to accommodate the insertion of 20a-20b from the D loop and can be described by the notation D20a-[G15-C481, A21-[U8-A14], G9-[A22-G13], and [G23-C12]. In order to clarify the question, whether the resulting crystal structure of the tRNA Ser corresponds to that under physiological conditions, the elements of tertiary structure of tRNA Ser from T. thermophilus were studied by the methods of chemical modification in solution [31]. For this, ethylnitrosourea has been used to modify the phosphate residues; guanosines and cytidines were modified by dimethylsulphate, and adenosines by diethylpyrocarbonate [32,33].…”
mentioning
confidence: 99%
“…4, A) is reorganized to accommodate the insertion of 20a-20b from the D loop and can be described by the notation D20a-[G15-C481, A21-[U8-A14], G9-[A22-G13], and [G23-C12]. In order to clarify the question, whether the resulting crystal structure of the tRNA Ser corresponds to that under physiological conditions, the elements of tertiary structure of tRNA Ser from T. thermophilus were studied by the methods of chemical modification in solution [31]. For this, ethylnitrosourea has been used to modify the phosphate residues; guanosines and cytidines were modified by dimethylsulphate, and adenosines by diethylpyrocarbonate [32,33].…”
mentioning
confidence: 99%