Scientists honor Frank Zappa, naming human zit-causing bacterium now infecting vineyards

Feb 18, Biology/Cell & Microbiology


In a striking case of pathogen transfer involving the bacterium responsible for human acne, P. acnes, authors Campisano, et. al., report in the journal Molecular Biology and Evolution on a new type of P. acnes which exploits grapevines, dubbing it P. acnes type Zappae. Th

ey named the bacterium after the Italian term "zappa," meaning, hoe, as well as a tribute to eclectic composer Frank Zappa, who once wrote of "sand-blasted zits" in one of his most famous satirical songs, "Jewish Princess," from his controversial '79 "Sheik Yerbouti "album. "This bacteria is so unconventional in its behavior, and its new habitat is so unexpected that we thought of Frank Zappa. Indeed, at the time we were discovering it, we were both playing a Zappa album in our cars" say authors Andrea Campisano and Omar Rota-Stabelli.

The bacterium was first discovered by the research team via a 16S rDNA gene-based microbiome analysis gathered from the stems of plants sampled from multiple sites throughout Northeast Italy.

The bacterium colonizes bark tissues, and the pith, where the bacterium can localize intracellularly. Thus, compared to being a bane to millions of teenage faces, P. Zappae has adapted to an entirely new intracellular ecological niche in grapevines.

The research team also investigated the evolutionary history of P. Zappae by using two marker genes, recA and tly. Remarkably, their results support a human origin for the P. Zappae . Their data also suggests a loss of function of recA, a protein essential for the repair of DNA, which means that P. Zappae must rely on its grapevine host for survival. Finally, they estimate the emergence of P. Zappae around 7,000 years ago, an age highly compatible with the first domestication of the grapevine and a time when human intensive practices, such as the grafting and pruning of vines, may have led to the transfer to its new host.

This is the first evidence ever of human to plant obligate transfer and gives new perspective of bacteria host transfer between humans and domesticated plants. The significance of P. Zappae and its influence on plant growth and health will be continued in future studies.

Provided by Oxford University Press


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