RNA-Based Life Found in Human Microbiomes

A groundbreaking scientific discovery has revealed the existence of mysterious organisms within the human body that challenge our understanding of life.

These unique life forms, termed “Obelisks,” possess RNA-based structures that defy traditional biological classifications, offering new perspectives on the microbiome and the evolution of life.

Unveiling the Obelisks: Life Redefined

The discovery of Obelisks was made by a research team from Stanford University led by Dr. Ivan Zheludev. Using advanced metatranscriptomic analysis, the researchers examined RNA sequences from human gut samples and identified over 1,000 previously unknown base pairs.

These sequences do not conform to any known genetic patterns, suggesting the presence of life forms that operate under a fundamentally different set of biological rules.

Obelisks are characterized by their circular genomes and rod-like structures, a combination that has not been observed in any existing life forms. Unlike DNA-based organisms, which dominate Earth’s biosphere, these RNA-based entities appear to have evolved independently.

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They produce a unique protein called Oblins, whose exact function remains a mystery. Early hypotheses suggest that Oblins may play a role in maintaining the structure or self-replication of these organisms.

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This discovery has significant implications for our understanding of life. The existence of RNA-based life within the human microbiome challenges the long-standing DNA-centric view of biology and raises questions about the diversity of life forms that could exist in other environments, including extraterrestrial settings.

A Hidden World Within: The Distribution of Obelisks

The presence of Obelisks within the human microbiome is both intriguing and puzzling. Initial studies reveal that these organisms are present in about 10% of microbiome samples, suggesting they are not universally distributed but are not exceptionally rare either. Their distribution is uneven, with significant variations depending on the specific microbiome niche.

In gut microbiome samples, Obelisks were found in only 7% of stool samples, indicating a relatively low prevalence in this part of the body.

However, their presence in the oral microbiome is strikingly higher, with up to 50% of samples showing evidence of these RNA-based entities. This discrepancy suggests that Obelisks may thrive in environments with specific conditions, such as those found in the mouth.

The discovery that some Obelisks reside within Streptococcus sanguinis, a typically harmless bacterial species, adds another layer of complexity.

This association raises questions about whether Obelisks are symbiotic, parasitic, or simply opportunistic. Furthermore, Obelisks appear to persist in the human body for over 300 days, leading researchers to speculate whether they are permanent residents or transient visitors influenced by environmental factors or individual microbiome compositions.

Understanding the role of Obelisks in human health and disease is now a priority for scientists. Are they benign, harmful, or even beneficial? Could their novel proteins influence human biology in ways we do not yet understand? These questions drive ongoing research into their nature and functions.

Alien Yet Earthly: Redefining the Origins of Life

While the term “alien” might evoke images of extraterrestrial beings, the alien-like nature of Obelisks lies in their departure from the life forms traditionally observed on Earth. Their RNA-based structure and self-replicating capabilities align with hypothetical models of life that could have existed during Earth’s early history or might exist on other planets.

RNA-based life forms are not a new concept in theoretical biology. The “RNA world” hypothesis, which suggests that early life forms relied on RNA for both genetic information storage and enzymatic functions, has been a cornerstone of discussions about the origins of life.

The discovery of Obelisks provides tangible evidence that RNA-based life is not just a relic of the past but may coexist with DNA-based life in modern ecosystems.

This coexistence raises profound questions about the evolution of life. Have Obelisks been part of the human microbiome for millennia, their presence overlooked due to technological limitations? Or are they relatively recent arrivals, introduced through unknown mechanisms?

Their unique characteristics suggest they could represent a “living fossil,” a window into the ancient biological processes that preceded DNA dominance.

The implications extend beyond Earth. If RNA-based life can thrive in the human microbiome, it may also exist in extreme environments elsewhere in the solar system, such as the subsurface oceans of Europa or the methane lakes of Titan.

The study of Obelisks could inform future searches for extraterrestrial life, offering new criteria for identifying and understanding alien biology.

A New Frontier in Science

The discovery of Obelisks marks a transformative moment in our understanding of biology and the human microbiome. These RNA-based organisms challenge established paradigms, opening new avenues for research into the origins, evolution, and diversity of life.

As scientists continue to explore their role within the human body, the findings may have far-reaching implications for medicine, evolutionary biology, and astrobiology.

For now, Obelisks remain a mystery, a reminder that the human body is a vast and largely uncharted ecosystem. Their existence underscores the need for continued exploration and underscores the possibility that life, in all its forms, may be far more diverse and surprising than we have ever imagined.