Wednesday, January 11, 2023

Scientists discover a new way of horizontal gene transfer in a common ocean microbe involved in photosynthesis

Amazing stuff!

This is also more evidence confirming the Global Warming hoax and the Climate Change religion! We don't even understand photosynthesis very well!

"... Now, new research reveals that these tiny bacteria exchange genetic information with one another, even when widely separated, by a previously undocumented mechanism. This enables them to transmit whole blocks of genes, such as those conferring the ability to metabolize a particular kind of nutrient or to defend themselves from viruses, even in regions where their population in the water is relatively sparse.
The findings describe a new class of genetic agents involved in horizontal gene transfer, in which genetic information is passed directly between organismswhether of the same or different species — through means other than lineal descent. The researchers have dubbed the agents that carry out this transfer “tycheposons,” which are sequences of DNA that can include several entire genes as well as surrounding sequences, and can spontaneously separate out from the surrounding DNA. Then, they can be transported to other organisms by one or another possible carrier system including tiny bubbles known as vesicles that cells can produce from their own membranes. ...
Chisholm, who played a role in the discovery of these ubiquitous organisms in 1988, says of the new findings, “We’re very excited about it because it’s a new horizontal gene-transfer agent for bacteria, and it explains a lot of the patterns that we see in Prochlorococcus in the wild, the incredible diversity.” Now thought to be the world’s most abundant photosynthetic organism, the tiny variants of what are known as cyanobacteria are also the smallest of all photosynthesizers. ...
describes what they found as being something like a genetic LEGO set, with chunks of DNA bundled together in ways that could almost instantly confer the ability to adapt to a particular environment. For example, a species limited by the availability of particular nutrients could acquire genes necessary to enhance the uptake of that nutrient.       
The microbes appear to use a variety of mechanisms to transport these tycheposons (a name derived from the name of the Greek goddess Tyche, daughter of Oceanus). One is the use of membrane vesicles, little bubbles pouched off from the surface of a bacterial cell and released with tycheposons inside it. Another is by “hijacking” virus or phage infections and allowing them to carry the tycheposons along with their own infectious particles, called capsids. These are efficient solutions ... “because in the open ocean, these cells rarely have cell-to-cell contacts, so it’s difficult for them to exchange genetic information without a vehicle.” ..."

From the highlights and absract:
"Highlights
• Tycheposons are novel DNA transposons promoting genomic adaptation in marine bacteria
• Tycheposons can be viral satellites or carry cargo such as nutrient-acquisition genes
• Tycheposons are abundant in viral capsids and extracellular vesicles in seawater
• Tycheposons accelerate genomic island formation and remodeling
Summary
Horizontal gene transfer accelerates microbial evolution. The marine picocyanobacterium Prochlorococcus exhibits high genomic plasticity, yet the underlying mechanisms are elusive. Here, we report a novel family of DNA transposons—“tycheposons”—some of which are viral satellites while others carry cargo, such as nutrient-acquisition genes, which shape the genetic variability in this globally abundant genus. Tycheposons share distinctive mobile-lifecycle-linked hallmark genes, including a deep-branching site-specific tyrosine recombinase. Their excision and integration at tRNA genes appear to drive the remodeling of genomic islands—key reservoirs for flexible genes in bacteria. In a selection experiment, tycheposons harboring a nitrate assimilation cassette were dynamically gained and lost, thereby promoting chromosomal rearrangements and host adaptation. Vesicles and phage particles harvested from seawater are enriched in tycheposons, providing a means for their dispersal in the wild. Similar elements are found in microbes co-occurring with Prochlorococcus, suggesting a common mechanism for microbial diversification in the vast oligotrophic oceans."

Scientists discover a new way of sharing genetic information in a common ocean microbe | MIT News | Massachusetts Institute of Technology


Graphical abstract


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