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On the kinetics of helix formation between complementary ribohomopolymes and deoxyribohomopolymers

✍ Scribed by Cheng H. Lee; James G. Wetmur

Publisher
Wiley (John Wiley & Sons)
Year
1972
Tongue
English
Weight
467 KB
Volume
11
Category
Article
ISSN
0006-3525

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✦ Synopsis

The rate of double helix formation by single-stranded poly A plus poly dT, poly dA plus poly U, poly dA plus poly dT, poly G plus poly dC, poly dG plus poly C, and poly dG plus poly dC have been investigated and compared to rates of ribohomopolymer h e l i formation rates. After correction for molecular weight, comparisons of rate data at 30Β°C below the melting temperature of the double helix show that:

  1. Rates of helix formation by all combinations of guanine plus cytosine homopolymers are the same.

The rate of helix formation for poly dA plus poly dT is three times faster than the rate for poly A plus poly U. Rates of formation of DNA-RNA hybrid molecules are intermediate between these two rates, but closer to the poly dA plus poly dT rate.

The effect of temperature on the rate of helix formation is interpreted in terms of a steady-state model for helix propagation. The results are consistent with a mechanism in which the formation of the second base pair is the rate-determining step.

πŸ“œ SIMILAR VOLUMES

Independence of length and temperature e
Independence of length and temperature effects on the rate of helix formation between complementary ribopolymers
✍ Cheng H. Lee; James G. Wetmur πŸ“‚ Article πŸ“… 1972 πŸ› Wiley (John Wiley & Sons) 🌐 English βš– 483 KB πŸ‘ 1 views

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 T 2 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. A

Effect of non-complementary nucleotides
Effect of non-complementary nucleotides on the rate of helix formation: Kinetics of formation of poly (I)Β·poly (C,I) and poly (I)Β·poly (C,U) complexes
✍ Neville R. Kallenbach; Stanley D. Drost πŸ“‚ Article πŸ“… 1972 πŸ› Wiley (John Wiley & Sons) 🌐 English βš– 386 KB πŸ‘ 2 views

## Abstract Apparent second‐order rate constants for complex formation between poly (I) and poly (C) and copolymers of C containing non‐complementary I or U residues have been determined spectrophotometrically. The rate constants decrease as the concentration of either I or U in the C strands incre

Investigation on the Kinetics and Mechan
Investigation on the Kinetics and Mechanism of the Reaction Between Potassium Peroxodisulphate and Tartaric Acid
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## Abstract The kinetics of tartaric acid oxidation by peroxodisulphate ion has been studied to elucidate the mechanism of oxidation. Uncommon to many peroxodisulphate reactions it shows a variation in order. It is found to progress bimolecularly in the beginning and unimolecularly till completion.

Study on the kinetics of transesterifica
Study on the kinetics of transesterification reaction between poly(ethylene terephthalate) and its copolyesters
✍ Cheng Fang Ou; Min Shiun Chao; Shih Liang Huang πŸ“‚ Article πŸ“… 1999 πŸ› John Wiley and Sons 🌐 English βš– 149 KB πŸ‘ 2 views

Polyethylene terephthalate (PET) was blended with two kinds of co[poly-(ethylene terephthalate-p-oxybenzoate)] (POB-PET) copolyester, designated as P46 and P64, respectively. The PET and POB-PET copolyester were combined in the ratios of 85/15, 70/30, and 50/50. The blends were melt mixed in a Brabe