Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers

Cheng H. Lee; James G. Wetmur

doi:10.1002/bip.1972.360110303

Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers

Cheng H. Lee
, James G. Wetmur

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

15 Scopus citations

Abstract

The rate of double helix formation by single stranded Poly A plus Poly U, Poly I plus Poly C, Poly G plus Poly C, and T2 DNA has been investigated as a function of both the length of the reacting strands and temperature. The length dependence of the rate is found to be independent of temperature. All of the reactions studied show a rate approximately proportional to the square root of the length of the shorter of the complementary strands. At or about 30°C below the melting temperature the ribopolymers react with about the same rate. This rate is four to five times slower than DNA renaturation rates. The effect of temperature on ribopolymer reaction rates is interpreted in terms of a steady‐state model for helix propagation.

Original language	English
Pages (from-to)	549-561
Number of pages	13
Journal	Biopolymers
Volume	11
Issue number	3
DOIs	https://doi.org/10.1002/bip.1972.360110303
State	Published - Mar 1972
Externally published	Yes

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title = "Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers",

abstract = "The rate of double helix formation by single stranded Poly A plus Poly U, Poly I plus Poly C, Poly G plus Poly C, and T2 DNA has been investigated as a function of both the length of the reacting strands and temperature. The length dependence of the rate is found to be independent of temperature. All of the reactions studied show a rate approximately proportional to the square root of the length of the shorter of the complementary strands. At or about 30°C below the melting temperature the ribopolymers react with about the same rate. This rate is four to five times slower than DNA renaturation rates. The effect of temperature on ribopolymer reaction rates is interpreted in terms of a steady‐state model for helix propagation.",

author = "Lee, \{Cheng H.\} and Wetmur, \{James G.\}",

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doi = "10.1002/bip.1972.360110303",

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T1 - Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers

AU - Lee, Cheng H.

AU - Wetmur, James G.

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N2 - The rate of double helix formation by single stranded Poly A plus Poly U, Poly I plus Poly C, Poly G plus Poly C, and T2 DNA has been investigated as a function of both the length of the reacting strands and temperature. The length dependence of the rate is found to be independent of temperature. All of the reactions studied show a rate approximately proportional to the square root of the length of the shorter of the complementary strands. At or about 30°C below the melting temperature the ribopolymers react with about the same rate. This rate is four to five times slower than DNA renaturation rates. The effect of temperature on ribopolymer reaction rates is interpreted in terms of a steady‐state model for helix propagation.

AB - The rate of double helix formation by single stranded Poly A plus Poly U, Poly I plus Poly C, Poly G plus Poly C, and T2 DNA has been investigated as a function of both the length of the reacting strands and temperature. The length dependence of the rate is found to be independent of temperature. All of the reactions studied show a rate approximately proportional to the square root of the length of the shorter of the complementary strands. At or about 30°C below the melting temperature the ribopolymers react with about the same rate. This rate is four to five times slower than DNA renaturation rates. The effect of temperature on ribopolymer reaction rates is interpreted in terms of a steady‐state model for helix propagation.

UR - https://www.scopus.com/pages/publications/0015304235

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DO - 10.1002/bip.1972.360110303

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SN - 0006-3525

VL - 11

SP - 549

EP - 561

JO - Biopolymers

JF - Biopolymers

IS - 3

ER -

Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers

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