Gene amplification in Entamoeba histolytica.

We show here data suggesting that Entamoeba histolytica, the protozoan responsible for human amebiasis, presents DNA amplification in a fashion similar to that described for transformed mammalian cells. By transmission electron microscopy (TEM), we found linear, circular and concentric circular DNA molecules exhibiting the main events of the unscheduled DNA amplification process. Loops were formed after the recombination of two nonadjacent DNA regions, and bubbles appeared from the recombinant strands without involving the looped-out sequences. Bubbles grew up and underwent further replication rounds to produce a nested set of partially replicated circles. Multicircle complexes were also formed from putative replication origin without recombination of distant DNA regions. Clones derived from the strain HM1:IMSS exhibited different DNA contents, suggesting DNA amplification. The parental clone A and its daughter clone C2 differed in rDNA gene copy numbers, but this was observed only when total DNA was separated by pulse field gel electrophoresis, and no significant differences were detected in nuclear DNA. The dissection of the events observed by TEM led us to propose an onion skin model for gene amplification in E. histolytica.