Cortical inheritance

Cortical Inheritance or structural inheritance was discovered by Tracy Sonneborn, and other researchers, during his study on protozoa in the late 1930s. The mainstream scientific community believes that all inheritance is passed on via the genes in the nucleus of a cell. Sonneborn, however, demonstrated during his research on Paramecium that the structure of the cortex was not dependent on genes, or the liquid cytoplasm, but in the cortical structure of the surface of the ciliates. Preexisting cell surface structures provided a template that was passed on for many generations.^[1]

John R. Preer, Jr., following up on Sonneborn's work, says, "The arrangement of surface structures is inherited, but how is not known, Macronuclei pass on many of their characteristics to new macronuclei, by an unknown and mysterious mechanism." ^[2]

Other researchers have come to the conclusion that "the phenomena of cortical inheritance (and related nongenic, epigenetic processes) remind us that the fundamental reproductive unit of life is not a nucleic acid molecule, but the remarkably versatile, intact, living cell." ^[3]

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