An extremely short RNA is infectious and prevalent in the human microbiome.
While the last century might be called the DNA century, at least for molecular biology, the current century might be called that of RNA. A blizzard of new RNA types and potentials have been discovered in the normal eukaryotic milieu, including miRNA, eRNA, lincRNA. An RNA virus caused a pandemic, which was remedied by an RNA vaccine. Nobel prizes have been handed out in these fields, and we are also increasingly aware that RNA lies at the origin of life itself, as the first genetic and catalytic mechanism.
One of these Nobel prize winners recently undertook a hunt for small RNAs that might be lurking in the human microbiome- the soup of bacteria, fungi, and all the combined products that cover our surfaces, inside and out. What they found was astonishing- an RNA of merely 1164 nucleotides, which folds up into a rigid, linear rod, which they call "obelisks". This is not a product of the host genome, nor of any other known organism, but is rather some kind of extremely minimal pathogen that, like a transposon or self-splicing intron, is entirely nucleic-acid based. And the more they hunted, the more they found, ultimately finding thousands of obelisk-like entities hidden in the many databases of the world drawn from various environmental and microbiome samples. There is some precedent for this kind of structure, in the form of hepatitis D. This "viroid" of only 1682 nucleotides is a parasite of hepatitis B virus, depending on that virus for key replication functions. While normal viruses (like hepatitis B) encode many key functions of their own, like envelope proteins, genome packaging proteins, and replication enzymes, viroids tend to not encode anything, though hepatitis D does encode one antigenic protein, which exacerbates hepatitis B infections.
The obelisk RNA viroid-like species appear to encode one or two proteins, and possibly a ribozyme as well. The functions of all these are as yet unknown, but necessarily the RNAs rely entirely some host cell (currently unknown) functions to do their thing, such as the RNA polymerase to create copies of itself. Unknown also is whether they are dependent on other viruses, or only on cells for their propagation. Being just discovered, the researchers can do a great deal of bioinformatics, such as predicting the structure of the encoded protein, and the structure of the RNA genome. But key biology, like how they interact with host cells, what functions the host provides, and how they replicate, not to mention possible pathogenic consequences, remain unknown.
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| The highly self-complementary structure of one obelisk RNA sequence, leading to its identification and naming. In green is one reading frame, which codes for the main protein, of unknown function. |
The curious thing about these new obelisk viroid-like RNAs is that, while common in human microbiomes, both oral and gut-derived, they are found only in 5-10% of them, not in all samples. This sort of suggests that they may account for some of the variability traceable to microbiomes, such as autoimmune issues, chronic ailments, nutritional variations, even effects on mood, etc.
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| Once a lot of databases were searched, obelisk RNAs turn up everywhere, even in some bacteria. |
This work was done entirely in silico. Not a single wet-lab experiment was performed. It is a testament to the power of having alot of genomes at our disposal, and of modern computational firepower. This lab just had the idea that novel small viroid-like RNAs might exhibit certain types of (circular, self-complementary) structure, which led to this discovery of a novel form of "life". Are these RNAs alive? Certainly not. They are mere molecules and parasites that feed off, and transport themselves between, more fully functional cells. But they are part of the tapestry of life, which itself is wholly molecular, with many amazing emergent properties. Whether these obelisks turn out to have any medical or ecological significance, they are one more example of the lengths (and shorts) to which Darwinian selection has gone in the struggle for existence.
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