Inhibition of pancreatic ribonuclease by 2′-5′ and 3′-5′ oligonucleotides

Moshe D. White; Shabtai Bauer; Yehuda Lapidot

doi:10.1093/nar/4.9.3029

Inhibition of pancreatic ribonuclease by 2′-5′ and 3′-5′ oligonucleotides

Moshe D. White^*, Shabtai Bauer, Yehuda Lapidot

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2′-5′ mono- phosphates were: G2′-5′G, C2′-5′G and U2′-5′G, and among the diribonucleoside 3′-5′ monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one.The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3′ phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.

Original language	English
Pages (from-to)	3029-3038
Number of pages	10
Journal	Nucleic Acids Research
Volume	4
Issue number	9
DOIs	https://doi.org/10.1093/nar/4.9.3029
State	Published - Sep 1977

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title = "Inhibition of pancreatic ribonuclease by 2′-5′ and 3′-5′ oligonucleotides",

abstract = "Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2′-5′ mono- phosphates were: G2′-5′G, C2′-5′G and U2′-5′G, and among the diribonucleoside 3′-5′ monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one.The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3′ phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.",

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AU - White, Moshe D.

AU - Bauer, Shabtai

AU - Lapidot, Yehuda

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N2 - Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2′-5′ mono- phosphates were: G2′-5′G, C2′-5′G and U2′-5′G, and among the diribonucleoside 3′-5′ monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one.The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3′ phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.

AB - Forty different oligonucleotides were investigated as possible inhibitors of the depolymerizing activity of RNase A. The strongest inhibitors among the diribonucleoside 2′-5′ mono- phosphates were: G2′-5′G, C2′-5′G and U2′-5′G, and among the diribonucleoside 3′-5′ monophosphates: ApU, ApC and GpU. Of the eight trinucleotides investigated, ApApUp, ApApCp and ApGpUp were the strongest inhibitors. All four dinucleotides studied (ApUp, ApCp, GpUp and GpCp) were very strong inhibitors, ApUp being the strongest one.The results show that the nature of the various bases in the oligonucleotide has an effect on the degree of inhibition, and that the 3′ phosphomonoester group increases the binding of the oligonucleotide to RNase A. These inhibitors can be used in physicochemical and biochemical studies of ribonuclease.

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Inhibition of pancreatic ribonuclease by 2′-5′ and 3′-5′ oligonucleotides

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