Ref ID : 4358
Kwang W. Jeon; Macromolecules Involved in the Amoeba-Bacteria Symbiosis. J.Protozool. 39(1):199-204, 1992
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In the Amoeba-bacteria symbiosis, rod-shaped Gram-negative bacterial endosymbionts reside within symbiosomes in the host cytoplasm, and the host and symbionts are mutually dependent for survival. Three proteins and one group of lipopolysaccharides (LPS) synthesized by the bacterial endosymbionts and two proteins derived from the host cells have been found to the involved in the host-symbiont interactions, although their respective roles are not yet fully known. The symbiont-derived molecules included proteins with molecular weights of 29-kDa, 67-kDa and 96-kDa and LPS. The 29-kDa protein was most abundant in the host cytoplasm, while the 96-kDa protein and LPS were found mostly on the symbiosome membranes. The 67-kDa protein was a GroEL analog and stayed within the symbionts. The host-derived 43-kDa protein, actin, was selectively accumulated by the symbionts, while the 220/225-kDa protein, spectrin, was attached to the symbiosome membranes. The symbiont genes coding for the 29-kDa and 67-kDa proteins were cloned and sequenced. The 29-kDa protein gene was unique with no relation to any known DNA sequences but has a leucine zipper-like motif, suggesting a possible DNA-binding function. The DNA sequence of the 67-kDa protein gene showed a 70% identity with heat-shock-protein genes of Escherichia coli and Coxiella burnetii.