E. Couture scite author profile

Purpose: To determine the structure and various physicochemical properties of man-gafodipir (MnDPDP) trisodium, the active ingredient of Teslascan, a new organ-specific contrast medium for MR imaging. Material and Methods: The structure of MnDPDP trisodium crystals was determined by X-ray crystallography. The possible existence of polymorphism in MnDPDP trisodium was evaluated by powder X-ray diffraction, optical microscopy, thermal analysis and IR spectroscopy. In addition, various spectroscopic techniques and physicochemical measurements were used for characterisation of MnDPDP trisodium. Results: The crystallographic data obtained for MnDPDP trisodium show that the general core structure of the MnDPDP anion is similar to that seen in related substances. The metal coordination geometry is a distorted octahedron defined by 2 phenolate oxygens, 2 carboxylate oxygens and 2 amine nitrogens. The unit cell contains 2 MnDPDP anions, 6 sodium ions and 50 water molecules. The various spectroscopic data are consistent with the structure determined by X-ray crystallography. The product (Teslascan) has low viscosity, is isotonic with blood and has a physiological pH. Conclusion: MnDPDP trisodium is a crystalline, hygroscopic solid which is readily soluble in water. No evidence of polymorphism was seen in the samples studied.

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Assembly of bacteriophage T4 head-related structures

R¹,

Couture²

1978

Journal of Molecular Biology

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Studies related to the head‐maturation pathway of bacteriophages T4 and T2: II. Nuclear disruption, protein synthesis and particle formation with the mutant 43⁻·30⁻·46⁻

et al. 1977

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We describe the aberrant phage multiplication of the triple conditional lethal mutant 43-(polymerase).30-(ligase).46-(exonuclease) of bacteriophage T4D in which phage DNA replication is arrested but some late protein synthesis occurs (33). The nuclear disruption is indistinguishable from wild type. Forty-five empty small and empty large particles are assembled per cell when the multiplicity of infection (m.o.i.) is 100. This number corresponds closely to the 38 phage equivalents of cleaved major head protein determined biochemically. By reducing the m.o.i. the number of observable particles decreases, reaching 1-5 per cell at an m.o.i. of 5(+5). The total synthesis of phage related proteins is not significantly dependant on the m.o.i. The synthesis of late proteins is about 10% of that of wild type at high m.o.i. and decreases with the m.o.i. The different early and late proteins do not show the same relative proportions as in wild type and respond differently to an increased m.o.i. These and other results are discussed with respect to the role of phage DNA in prehead assembly and head maturation.

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E. Couture

Assembly of the scaffolding core of bacteriophage T4 preheads

Structure of T4 polyheads

Physicochemical characterisation of mangafodipir trisodium

Assembly of bacteriophage T4 head-related structures

Studies related to the head‐maturation pathway of bacteriophages T4 and T2: II. Nuclear disruption, protein synthesis and particle formation with the mutant 43⁻·30⁻·46⁻

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About

E. Couture

Assembly of the scaffolding core of bacteriophage T4 preheads

Structure of T4 polyheads

Physicochemical characterisation of mangafodipir trisodium

Assembly of bacteriophage T4 head-related structures

Studies related to the head‐maturation pathway of bacteriophages T4 and T2: II. Nuclear disruption, protein synthesis and particle formation with the mutant 43−·30−·46−

Contact Info

Product

Resources

About

Studies related to the head‐maturation pathway of bacteriophages T4 and T2: II. Nuclear disruption, protein synthesis and particle formation with the mutant 43⁻·30⁻·46⁻