Adsorption of soluble proteins to rumen bacteria and the role of adsorption in proteolysis
1. Following the addition of I4C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At O°, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism...
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| Published in | British journal of nutrition Vol. 53; no. 2; pp. 399 - 408 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge, UK
Cambridge University Press
01.03.1985
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| Subjects | |
| Online Access | Get full text |
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| Abstract | 1. Following the addition of I4C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At O°, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. 2. The adsorption of 14C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 μ I4C-labelled casein/mg bacterial protein. 3. The ability of bacteria to adsorb 14C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloroacetic acid/l. 4. Adsorbed 14C-labelled casein could be partly displaced by the addition of Triton XI00 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14C-labelled haemoglobin could similarly be displaced by an excess of cold casein. 5. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I. I.I.49) and glucosephosphate isomerase (EC 5.3. I.9) had been adsorbed, little active enzyme was displaced. 6. The susceptibility of different 14C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. 7. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. 8. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation. |
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| AbstractList | Following the addition of 14C-labelled casein to mixed rumen bacteria at 39 degrees, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At 0 degrees, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. The adsorption of 14C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 micrograms 14C-labelled casein/mg bacterial protein. The ability of bacteria to adsorb 14C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloracetic acid/l. Adsorbed 14C-labelled casein could be partly displaced by the addition of Triton X100 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14C-labelled haemoglobin could similarly be displaced by an excess of cold casein. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I.I.I.49) and glucosephosphate isomerase (EC 5.3.I.9) had been adsorbed, little active enzyme was displaced. The susceptibility of different 14C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation. 1. Following the addition of I4C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At O°, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. 2. The adsorption of 14C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 μ I4C-labelled casein/mg bacterial protein. 3. The ability of bacteria to adsorb 14C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloroacetic acid/l. 4. Adsorbed 14C-labelled casein could be partly displaced by the addition of Triton XI00 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14C-labelled haemoglobin could similarly be displaced by an excess of cold casein. 5. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I. I.I.49) and glucosephosphate isomerase (EC 5.3. I.9) had been adsorbed, little active enzyme was displaced. 6. The susceptibility of different 14C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. 7. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. 8. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation. 1. Following the addition of I4 C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At O°, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. 2. The adsorption of 14 C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 μ I4 C-labelled casein/mg bacterial protein. 3. The ability of bacteria to adsorb 14 C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloroacetic acid/l. 4. Adsorbed 14 C-labelled casein could be partly displaced by the addition of Triton XI00 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14 C-labelled haemoglobin could similarly be displaced by an excess of cold casein. 5. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I. I.I.49) and glucosephosphate isomerase (EC 5.3. I.9) had been adsorbed, little active enzyme was displaced. 6. The susceptibility of different 14 C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. 7. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. 8. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation. Following the addition of 14C-labelled casein to mixed rumen bacteria at 39 degrees, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At 0 degrees, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. The adsorption of 14C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 micrograms 14C-labelled casein/mg bacterial protein. The ability of bacteria to adsorb 14C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloracetic acid/l. Adsorbed 14C-labelled casein could be partly displaced by the addition of Triton X100 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14C-labelled haemoglobin could similarly be displaced by an excess of cold casein. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I.I.I.49) and glucosephosphate isomerase (EC 5.3.I.9) had been adsorbed, little active enzyme was displaced. The susceptibility of different 14C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation.Following the addition of 14C-labelled casein to mixed rumen bacteria at 39 degrees, some radioactivity was adsorbed to the bacteria before the casein was hydrolysed. At 0 degrees, the rate of hydrolysis was greatly diminished but adsorption still occurred, and this enabled a study of the adsorption mechanism to be made. The adsorption of 14C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 micrograms 14C-labelled casein/mg bacterial protein. The ability of bacteria to adsorb 14C-labelled casein was abolished when they had been boiled for 5 min. Boiling caused the release of material from the bacteria which rendered some undigested protein soluble in 50 g trichloracetic acid/l. Adsorbed 14C-labelled casein could be partly displaced by the addition of Triton X100 or an excess of unlabelled casein, or by boiling, or by removal of capsular material by blending. Adsorbed 14C-labelled haemoglobin could similarly be displaced by an excess of cold casein. When an excess of casein was added to bacteria to which glucose-6-phosphate dehydrogenase (EC I.I.I.49) and glucosephosphate isomerase (EC 5.3.I.9) had been adsorbed, little active enzyme was displaced. The susceptibility of different 14C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of 14C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probably identical and so not likely to be subject to independent manipulation. Following the addition of super(14)C-labelled casein to mixed rumen bacteria at 39 degree , some radioactivity was adsorbed the bacteria before the casein was hydrolysed. at 0 degree , the rate of hydrolysis was greatly diminished but adsorption had occurred, and this enabled a study of the adsorption mechanism to be made. The adsorption of super(14)C-labelled casein to rumen bacteria was a saturable process. The maximum binding capacity was about 10 mu g super(14)C-labelled casein/mg bacterial protein. The susceptibility of different super(14)C-labelled proteins to hydrolysis corresponded to their relative adsorption affinities. The pattern of sensitivity to inhibitors of the adsorption mechanism was the same as that for the inhibition of the bacterial hydrolysis of super(14)C-labelled casein, and the synthetic substrates leucine p-nitroanilide and benzoyl arginine p-nitroanilide. It was concluded that the adsorption site and the catalytic site for proteolysis by rumen bacteria are probable identical and so not likely to be subject to independent manipulation. |
| Author | Wallace, R. J. |
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| Keywords | Stomach Digestive system Adsorption site Microflora Rumen Proteins Vertebrata Mammalia Adsorption Proteolysis Sheep Catalytic site Artiodactyla Ungulata |
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| References | S0007114585001064_ref001 S0007114585001064_ref002 S0007114585001064_ref007 S0007114585001064_ref008 S0007114585001064_ref005 Brock (S0007114585001064_ref003) 1982; 44 Kopecny (S0007114585001064_ref006) 1982; 43 S0007114585001064_ref009 Wright (S0007114585001064_ref012) 1967; 15 Wallace (S0007114585001064_ref011) 1983; 45 S0007114585001064_ref010 Hazlewood (S0007114585001064_ref004) 1981; 125 |
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| Snippet | 1. Following the addition of I4C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was... 1. Following the addition of I4 C-labelled casein to mixed rumen bacteria at 39°, some radioactivity was adsorbed to the bacteria before the casein was... Following the addition of 14C-labelled casein to mixed rumen bacteria at 39 degrees, some radioactivity was adsorbed to the bacteria before the casein was... Following the addition of super(14)C-labelled casein to mixed rumen bacteria at 39 degree , some radioactivity was adsorbed the bacteria before the casein was... |
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| SubjectTerms | absorption Adsorption Animals Bacteria Bacteria - metabolism Biological and medical sciences Carbon Radioisotopes Caseins Caseins - metabolism diagnostic use Fundamental and applied biological sciences. Psychology metabolism microbiology Papers on General Nutrition Peptide Hydrolases Peptide Hydrolases - metabolism proteins Proteins - metabolism proteolysis Rumen Rumen - microbiology rumen bacteria Sheep Solubility Stomach Vertebrates: digestive system |
| Title | Adsorption of soluble proteins to rumen bacteria and the role of adsorption in proteolysis |
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