H. G. Davies scite author profile

Glucagon in acid solution aggregates to produce gels and ultimately fibrils of ,&chains. The kinetics of the aggregation have been followed by viscometry, and are found to exhibit a sigmoidal profile with a long lag phase, associated with the formation of nuclei for polymerisation. This has been demonstrated by the elimination of the lag when fresh solutions are seeded with a preformed glucagon gel. The aggregation is promoted by salt, increased pH (within the acid range of solubility) and increased temperature up to 30". The addition of 5 0 / / , of dioxan completely inhibits the aggregation. The interaction has evidently a large hydrophobic driving force, and is opposed by coulombic repulsion. The latter effect can be minimised by acetylation of the amino groups, when the polymerisation is greatly accelerated. This also occurs when only the terminal amino group is blocked by carbamylation. By contrast esterification of the carboxyl groups completely prevents aggregation. At the working pH this does not involve a change in charge, and thus appears to be a specific steric effect. Optical rotatory dispersion shows no conformational difference between native glucagon and the derivatives. The transition from a gel to a fibrillar form is promoted by salt and increased temperature. A possible explanation for the appearance of the fibrillar form in the electron microscope is that it contains tubular structures 50-70 in diameter, with about 40 extended chains around the circumference lying in antiparallel manner along the axis.Glucagon, which is a polypeptide hormone containing 29 residues, possesses the property of aggregating at acid pH, where its solubility in water is high, with the formation ultimately of gels and/or fibrils. We have previously shown [l] that both these aggregated forms are in the antiparallel /3-conformation, and thus differ from other fibrillar structures, such as for example, insulin [2]. I n alkaline solution the molecule behaves in an altogether different manner : here there appears to be a specific concentrationdependent association equilibrium, resulting in the formation of a-helical structures [3-51. Glucagon thus presents a remarkable example of a molecule delicately balanced between three different conformational states, between which it can transform in response to only modest changes in the overall charge. The object of this investigation is to determine what factors lead to the preferential stabilisation of one particular form, and also to examine the nature of the acid aggregation reaction, and the interrelation between the two types of P-containing aggregates. MATERIALS AND METHODSGlucagon was the crystalline elcctrophoretically pure product of the Novo Research Institute, generously supplied to us by Dr. J. Schlichtkrull. Reagents were analytical grades. Dioxan was purified by distillation from sodium, followed by fractional crystallisation.Acetylation of glucagon was performed by addition of a 100-fold molar excess of acetic anhydride in two portions to a suspension a t 12 mg/ml i...

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Structure in Nucleated Erythrocytes

Davies

1961

104

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The structure of the nucleated erythrocyte of frog and chicken has been investigated by electron microscopy and correlated with the distribution of haemoglobin and DNA-containing material determined by haem absorption and Feulgen staining in the light microscope. The nuclei of both species are found to contain haemoglobin which is continuous with the haemoglobin in the cytoplasm through holes or pores in the nuclear envelope. In addition the nucleus of the frog erythrocyte sometimes contains a single invagination which is lined by the nuclear envelope. The structure of the nuclear envelope and the pores and the organisation of the nucleus are similar to those already described for other somatic cells. Erythrocytes differ from the cells previously studied in that a continuity, via the nuclear pores, of chemical substance in the interior of the nucleus and in the cytoplasm can be directly demonstrated. This is due to the fact that the cytoplasm of erythrocytes is simple, consisting predominantly of haemoglobin, and that haemoglobin is easily recognised by its specific absorption. The static pictures obtained by electron microscopy have been supplemented by observations in phase-contrast of the changes in refraction of the cell contents due to the diffusion of the haemoglobin from the nucleus into the cytoplasm during haemolysis.

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Anterior cruciate ligament injuries in snowboarders: a quadriceps-induced injury

Davies¹,

Tietjens²,

Sterkenburg³

et al. 2008

Knee Surg Sports Traumatol Arthrosc

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Anterior cruciate ligament (ACL) injuries in snowboarders are rare. However, in expert boarders landing big jumps, ACL injuries are occurring more frequently. We identified 35 snowboarders with an identical injury mechanism. All these patients were landing from a jump. All described a flat landing on a flexed knee with significant knee compression. In 31 of 35 boarders, it was the front knee that was injured. Only two riders felt there was any twisting component to their injury. We postulate that the ACL rupture is due to maximal eccentric quadriceps contraction, as the boarder resists a compressive landing. Internal tibial rotation of the front knee in the snowboarding stance results in preloading of the ACL predisposing to injury.

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H. G. Davies

Formation and Structure of Gels and Fibrils from Glucagon

Structure in Nucleated Erythrocytes

Anterior cruciate ligament injuries in snowboarders: a quadriceps-induced injury

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