A borg is a "giant extrachromosomal element with the potential to augment methane oxidation", [1] described by Basem Al-Shayeb and Jill Banfield. Borgs are long DNA sequences existing alongside the main chromosome [2] in the archaea Methanoperedens, in oxygen-starved environments such as deep mud. [3] [4] Borgs were discovered by Professor Jill Banfield and her team in the soil of a wetland, an aquifer, a riverbed, and a deserted mercury mine in the states of California and Colorado. [1]
Borgs are considered to be a new form of "giant linear plasmids" or giant viruses rather than unknown DNA elements. [5] [1] [2] They co-occur within a species of archaea which likely hosts them and shares many of their genes. The archaeon's main chromosome is only three times larger, and their capacity for anaerobic oxidation of methane as well as other biological functions – such as production of proteins – may be augmented by borgs. [6] [7] [1]
They were discovered in March 8 2020 by Banfield and others. The structure of Borg genomes are conserved and are distinguished from the plasmids and chromosomes of Methanoperedens, as well as other archaeal genomes. [8] Borgs do not possess discernible proteins that are associated with plasmids or viruses, rRNA loci, origins of replication, or vital genes that are commonly found within minichromosomes, also known as megaplasmids, of archaea. [1] A sample of borg genomes have been found to measure between 0.66-0.92 Mbp long, which is beyond the genome length of archaea viruses currently known. [8] Instead, the size of Borg genomes are characteristic of eukaryote-specific double-stranded DNA viruses from the phylum Nucleocytoviricota, also known as nucleocytoplasmic large DNA viruses (NCLDV), which can surpass 2.5 Mbp. [8] [9] Tandem direct repeat sequences are prevalent throughout a Borg's genome, and long inverted repeats terminate the genome. This differs from the megaplasmids of some bacteria, which carry interspaced repeats and usually are not responsible for encoding necessary genes. [8]
Below are some of the reported genes that are encoded via Borg genomes: [1]
Note that not every Borg genome contains the same genes.
Their name was chosen as a reference to the Star Trek species of the same name due to their propensity to assimilate genes from organisms, most notably Methanoperedens. [1]
A borg is a "giant extrachromosomal element with the potential to augment methane oxidation", [1] described by Basem Al-Shayeb and Jill Banfield. Borgs are long DNA sequences existing alongside the main chromosome [2] in the archaea Methanoperedens, in oxygen-starved environments such as deep mud. [3] [4] Borgs were discovered by Professor Jill Banfield and her team in the soil of a wetland, an aquifer, a riverbed, and a deserted mercury mine in the states of California and Colorado. [1]
Borgs are considered to be a new form of "giant linear plasmids" or giant viruses rather than unknown DNA elements. [5] [1] [2] They co-occur within a species of archaea which likely hosts them and shares many of their genes. The archaeon's main chromosome is only three times larger, and their capacity for anaerobic oxidation of methane as well as other biological functions – such as production of proteins – may be augmented by borgs. [6] [7] [1]
They were discovered in March 8 2020 by Banfield and others. The structure of Borg genomes are conserved and are distinguished from the plasmids and chromosomes of Methanoperedens, as well as other archaeal genomes. [8] Borgs do not possess discernible proteins that are associated with plasmids or viruses, rRNA loci, origins of replication, or vital genes that are commonly found within minichromosomes, also known as megaplasmids, of archaea. [1] A sample of borg genomes have been found to measure between 0.66-0.92 Mbp long, which is beyond the genome length of archaea viruses currently known. [8] Instead, the size of Borg genomes are characteristic of eukaryote-specific double-stranded DNA viruses from the phylum Nucleocytoviricota, also known as nucleocytoplasmic large DNA viruses (NCLDV), which can surpass 2.5 Mbp. [8] [9] Tandem direct repeat sequences are prevalent throughout a Borg's genome, and long inverted repeats terminate the genome. This differs from the megaplasmids of some bacteria, which carry interspaced repeats and usually are not responsible for encoding necessary genes. [8]
Below are some of the reported genes that are encoded via Borg genomes: [1]
Note that not every Borg genome contains the same genes.
Their name was chosen as a reference to the Star Trek species of the same name due to their propensity to assimilate genes from organisms, most notably Methanoperedens. [1]