In this article, we will explore the importance of Biological dark matter in contemporary society. From its origins to the present, Biological dark matter has exerted a great influence in various areas of daily life. Throughout history, Biological dark matter has been an object of fascination and study, and its impact has left its mark on culture, politics, economics and psychology. Through detailed analysis, we will discover how Biological dark matter has shaped our perceptions and behaviors, and examine its key role in the formation of individual and collective identities. Likewise, we will delve into the different perspectives and approaches that have been developed around Biological dark matter, in order to better understand its relevance in today's world.
Unclassified/poorly understood genetics
Biological dark matter is an informal term for unclassified or poorly understood genetic material. This genetic material may refer to genetic material produced by unclassified microorganisms. By extension, biological dark matter may also refer to the un-isolated microorganism whose existence can only be inferred from the genetic material that they produce. Some of the genetic material may not fall under the three existing domains of life: Bacteria, Archaea and Eukaryota; thus, it has been suggested that a possible fourth domain of life may yet be discovered, although other explanations are also probable. Alternatively, the genetic material may refer to non-coding DNA (so-called "junk DNA") and non-coding RNA produced by known organisms.
Much of the genomic dark matter is thought to originate from ancient transposable elements and from other low-complexity repetitive elements. Uncategorized genetic material is found in humans and many other species. Their phylogenetic novelty could indicate the cellular organisms or viruses from which they evolved.
Sequences that are believed to be derived from unknown microbes are referred to as the microbial dark matter, the dark virome, or dark matter fungi. Such sequences are not rare. It has been estimated that in material from humans, between 40 and 90% of viral sequences are from dark matter. Human blood contains over three thousand different DNA sequences which cannot yet be identified. A mycological study from 2023 found that dark matter fungi seem to dominate the fungal kingdom.
Algorithms have been developed that examine sequences for similarities to bacterial 16S RNA sequences,K-mer similarities to known viruses, specific features of codon usage, or for inferring the existence of proteins. These approaches have suggested, for example, the existence of a novel bacteriophage of the microviridae family, and a novel bacterioidales-like phage. Other studies have suggested the existence of 264 new viral genera, discovered in publicly available databases, and a study of human blood suggested that 42% of people have at least one previously unknown virus each, adding up to 19 different new genera. A comprehensive study of DNA sequences from multiple human samples inferred the existence of 4,930 species of microbes of which 77% were previously unreported. Health-related findings include a prophage that might be associated with cirrhosis of the liver, and seven novel sequences from children with type-1 diabetes that have characteristics of viruses. Although they might exist, no organisms that clearly cause human disease have been discovered in the dark matter.
In February 2023, scientists reported the findings of unusual DNA strands from the microorganisms in "dark microbiome" in the driest non-polar desert on the Earth.