Recognition site for phosphorus-containing compounds and other negatively charged solutes on the PhoE protein pore of the outer membrane of Escherichia coli K12
| Autor: | Nico Overbeeke, Ben J. J. Lugtenberg |
|---|---|
| Rok vydání: | 1982 |
| Předmět: |
Aqueous solution
Binding Sites Cell Membrane Permeability Chemistry Cefsulodin Membrane Proteins Phosphorus Permeation medicine.disease_cause Phosphate Biochemistry Cephalosporins Residue (chemistry) chemistry.chemical_compound Bacterial Proteins medicine Cephaloridine Escherichia coli Bacterial outer membrane medicine.drug Bacterial Outer Membrane Proteins |
| Zdroj: | European journal of biochemistry. 126(1) |
| ISSN: | 0014-2956 |
| Popis: | Experiments are described which were designed to obtain insight into the question why Escherichiu coli K12 induces the PhoE protein pore in its outer membrane under conditions of phosphate limitation. Growth experiments showed that the presence of PhoE protein is advantageous for the growth rate of cells growing in a medium with large linear polyphosphates, but not with Pi, as the only phosphorus source. Further experiments, in which rates of permeation of p-lactam antibiotics through the outer membrane were determined, showed that the most likely explanation for this result is that the PhoE protein pore is a relatively efficient channel for negatively charged solutes in general. Comparison of the rates of permeation of the two p-lactam antibiotics cephaloridine and cefsulodin through PhoE protein pores and through OmpF protein pores in vivo suggested that the relatively efficient permeation of cefsulodin through PhoE protein pores must be attributed to the negative charge of a sulphate residue which is present in cefsulodin but absent in cephaloridine. Subsequent experiments showed that the rate of uptake of cefsulodin through PhoE protein pores, but not through OmpF protein pores, was reversibly inhibited by linear polyphosphates whereas phosphorylated compounds and other negatively charged solutes were also found to be inhibitory. The largest inhibition was observed with solutes containing several phosphate residues. Dixon plots showed that inhibition by Pi and linear polyphosphates was of the competitive type. The results are interpreted in terms of a recognition site on the PhoE protein pore for phosphorus-containing solutes and for other negatively charged compounds. Two proteins in the outer membrane of Escherichiu coli K12, the products of the genes ompC and ompF, are involved in the formation of non-specific aqueous pores through which hydrophilic molecules with a molecular weight of up to approximately 600 can pass the outer membrane by a diffusionlike process [I - 71. An effective diameter of about 1.2- 1.4 nm has been calculated for such pores [8]. |
| Databáze: | OpenAIRE |
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