Parakaryon myojinensis, also known as the Myojin parakaryote, is a highly unusual species of single-celled organism known only from a single specimen, described in 2012. It has features of both prokaryotes and eukaryotes but is apparently distinct from either group, making it unique among organisms discovered thus far.[1] It is the sole species in the genus Parakaryon.
The generic name Parakaryon comes from Greek παρά (pará, "beside", "beyond", "near") and κάρυον (káryon, "nut", "kernel", "nucleus"), and reflects its distinction from eukaryotes and prokaryotes. The specific name myojinensis reflects the locality where the only sample was collected: from the bristle of a scale worm collected from hydrothermal vents at Myōjin Knoll (明神海丘,[2] 32.1033°N 191.1°W), about 1240m (4,070feet) deep in the Pacific Ocean, near Aogashima island, southeast of the Japanese archipelago. The authors explain the full binomial as "next to (eu)karyote from Myojin".
Parakaryon myojinensis has some structural features unique to eukaryotes, some features unique to prokaryotes, and some features different to both. The table below details these structures, with matching traits coloured beige.[1] [3]
Structure | Prokaryotes | Eukaryotes | P. myojinensis | |||
---|---|---|---|---|---|---|
Nucleus present | No | bgcolor=beige | Yes | bgcolor=beige | Yes | |
No. of nuclear membrane layers | 2 | 1 | ||||
Nuclear pores present | Yes | No | ||||
Ribosome location | bgcolor=beige | Cytoplasmic | bgcolor=beige | Cytoplasmic | Cytoplasmic and intranuclear | |
Endosymbionts present | No | bgcolor=beige | Yes | bgcolor=beige | Yes | |
Endoplasmic reticulum present | bgcolor=beige | No | Yes | bgcolor=beige | No | |
Golgi apparatus present | bgcolor=beige | No | Yes | bgcolor=beige | No | |
Mitochondria present | bgcolor=beige | No | Usually | bgcolor=beige | No | |
Chromosome structure | Variable | Filamentous | ||||
Cytoskeleton present | bgcolor=beige | Yes | bgcolor=beige | Yes | No |
Yamaguchi et al. proposed in their 2012 paper that there were three reasons why the specimen they named P. myojinensis was not simply a result of parasitic or predatory bacteria living within another prokaryote host, which they acknowledged is known from several examples:
In 2016, Yamaguchi et al. detailed the discovery of helical bacteria on polychaetes collected from the same location, which they named "Myojin spiral bacteria".[4] In 2020, Yamaguchi and two others published a new short paper on their studies of the microbiota of polychaetes from Myojin Knoll. The authors stated "Among them, we often observed bacteria that contained intracellular bacteria on ultrathin sections." They studied one such specimen and concluded that the "host" bacterium was dead and its cell wall broken. The smaller bacteria could have been feeding on the larger bacterium but they also suggest "The association of the bacteria with dead bacteria could also have been artificially caused by the centrifugation steps used for the preparation of specimens for electron microscopy." In this paper, all five mentions of P. myojinensis were as a valid taxon with no implication that it is an artifact.[5]
It is not clear whether P. myojinensis can or should be classified as a eukaryote or a prokaryote, the two categories to which all other cellular life belongs. Adding to the difficulties of classification, only one instance of this organism has been discovered to date, and so scientists have been unable to study it further. Its discoverers suggested that additional specimens would be needed for culturing and DNA sequencing to place the organism in a phylogenetic context.
British evolutionary biochemist Nick Lane hypothesized in a 2015 book that the existence of P. myojinensis might be an important clue to the origins of life on Earth, perhaps as an example of the abiogenesis of simple organisms from organic compounds continuing in the present day. The fact that P. myojinensis was discovered near hydrothermal vents, which have been proposed as possible primordial reaction chambers for the earliest ancestors of prokaryotes and eukaryotes, lends credence to this idea.[6]