Air Pollution

Kay, Kingsley

doi:10.1021/ac60124a015

Cited by 13 publications

(5 citation statements)

References 133 publications

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“…Proteolytic activity measurements were made against haemoglobin at pH2 (Anson, 1948) and Azocoll at pH5.3 (Kay, 1975). Activation experiments with pepstatin were performed by adding pepstatin (6.2mg/ml in methanol; 0.14ml) to 32ml of 3.2mM-HCl and mixing with a Vibramixer.…”

Section: Umezawamentioning

confidence: 99%

Conversion of pepsinogen into pepsin is not a one-step process

Dykes¹,

Kay²

1976

Biochemical Journal

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Section: Umezawamentioning

confidence: 99%

Conversion of pepsinogen into pepsin is not a one-step process

Dykes¹,

Kay²

1976

Biochemical Journal

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“…A number of different thermal precipitators have been developed over the years (e.g., Kay 1952, 1957, Mercer 1973, many of which have been based on the original design of Green and tson. Notable exprecipitators deand Orr (1964) which sampled aerosol, of these allowed continuous sampling onto a moving substrate.…”

Section: Theorymentioning

confidence: 99%

The Development of a New Thermophoretic Precipitator for Scanning Transmission Electron Microscope Analysis of Ultrafine Aerosol Particles

Maynard¹

1995

Aerosol Science and Technology

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“…Kumar & Kassell 1977) and polylysine (Anderson 1970) inhibition of pepsin have usually been based on the use of milk-clotting systems for enzyme activity determination but these systems are understandably complex, and end point determination involves a subjective observation; furthermore, variability of the dried milk substrate depending on its source and manner of drying make comparison of results difficult (unpublished observations from this laboratory). Many of the problems of the milk clotting tests were avoided in the present work by using the chromogenic substrate azocoll, used by Kay (1975) for pepsin, which has been found suitable for studying polylysine inhibition, the only difficulty being the laborious necessity t o weigh out the insoluble substrate into every flask. The linear relationships which necessarily underly quantitative interpretations of the enzyme activity and inhibition results were easily shown.…”

Section: Studies Of Peptide (Anderson and Harthill 1973;mentioning

confidence: 99%

The influence of molecular size and pH on the macrocationic inhibition of pepsin by polylysine

Anderson

Harthill

Rahmatalla

1980

Journal of Pharmacy and Pharmacology

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Polylysines of 7–371 lysine residues inhibited pepsin over the pH range 3·6‐5·0 in a system using azocoll as substrate. Tetralysine was inactive. An almost 1: 1 molar ratio with pepsin gave maximum inhibition for a polylysine containing 59 lysine residues but increase in polylysine molecular size beyond this size was not accompanied by increase in activity on a weight basis although the polylysine: pepsin molar ratio for maximum inhibition decreased and inhibition mechanism varied. Polylysines of 59 and 158 lysine residues which were intermediate in the series were non‐competitive inhibitors, whilst polylysines of greater and smaller molecular size were competitive inhibitors, although only the smallest inhibitory polylysine, containing 7 lysine residues, was a pure competitive inhibitor. Polylysine inhibition of pepsin was found to be strongest at pH 5·0 and the pH dependence appeared to be associated with the relative concentrations of the enzyme and inhibitors in ionized form. For each polylysine it was possible to detect a polylysine: pepsin concentration ratio for which inhibition was pH‐independent over the range 3·6‐5·0.

show abstract

Air Pollution

Cited by 13 publications

References 133 publications

Conversion of pepsinogen into pepsin is not a one-step process

Conversion of pepsinogen into pepsin is not a one-step process

The Development of a New Thermophoretic Precipitator for Scanning Transmission Electron Microscope Analysis of Ultrafine Aerosol Particles

The influence of molecular size and pH on the macrocationic inhibition of pepsin by polylysine

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