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Usually, a single bacterial chromosome is present, although some species with multiple chromosomes have been described. [5] Along with chromosomal DNA, most bacteria also contain small independent pieces of DNA called plasmids that often encode advantageous traits but are not essential to their bacterial host.
Bacteria that are growing logarithmically differ from stationary phase bacteria with regard to the number of genome copies present in the cell, and this has implications for the ability to carry out an important DNA repair process. During logarithmic growth, two or more copies of any particular region of the chromosome are ordinarily present in ...
The vast majority of chromid-encoding bacteria only have a single chromid, although 9% have more than one (compared with 12% of megaplasmid-encoding bacteria containing multiple megaplasmids). The genus Azospirillum contains three species which have up to five chromids, the most chromids known in a single species to date.
There are many exceptions to this; for example, some Streptomyces and Borrelia species contain a single linear chromosome, [129] [130] while some bacteria including species of Vibrio contain more than one chromosome. [131] [132] Some bacteria contain plasmids, small extra-chromosomal molecules of DNA that may contain genes for various useful ...
Prokaryotic chromosomes have less sequence-based structure than eukaryotes. Bacteria typically have a one-point (the origin of replication) from which replication starts, whereas some archaea contain multiple replication origins. [26] The genes in prokaryotes are often organized in operons and do not usually contain introns, unlike eukaryotes.
Bacterial genetics are subtly different from eukaryotic genetics, however bacteria still serve as a good model for animal genetic studies. One of the major distinctions between bacterial and eukaryotic genetics stems from the bacteria's lack of membrane-bound organelles (this is true of all prokaryotes.
Bacteria are classified by their shape. Bacteria have been on this planet for approximately 3.5 billion years, and are classified by their shape. [9] Bacterial genetics studies the mechanisms of their heritable information, their chromosomes, plasmids, transposons, and phages.
A) Circular bacterial chromosomes contain a cis-acting element, the replicator, that is located at or near replication origins. i) The replicator recruits initiator proteins in a DNA sequence-specific manner, which results in melting of the DNA helix and loading of the replicative helicase onto each of the single DNA strands (ii).