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Fimbria (Latin for 'fringe', pl.: fimbriae) is a term used for a short pilus, an appendage that is used to attach the bacterium to a surface, sometimes also called an "attachment pilus" [10] or adhesive pilus. The term "fimbria" can refer to many different (structural) types of pilus.
P fimbriae are large, linear structures projecting from the surface of the bacterial cell. With lengths of 1-2um, the pili can be larger than the diameter of the bacteria itself. [4] The main body of the fimbriae is composed of approx. 1000 copies of the major fimbrial subunit protein PapA, forming a helical rod. [5]
Fimbriae usually function to facilitate the attachment of a bacterium to a surface (e.g. to form a biofilm) or to other cells (e.g. animal cells during pathogenesis). A few organisms (e.g. Myxococcus ) use fimbriae for motility to facilitate the assembly of multicellular structures such as fruiting bodies .
The Pilus subunits polymerise via a non-covalent interaction to form the mature pilus which consists of an adhesive tip, helical body and an usher bound base. The P-pilus (pap) system is one of the best characterised and is shown below. [2] A schematic overview of the pap chaperone-usher system showing all subunits and their organisation.
2.The Hfr cell forms a pilus and attaches to a recipient F- cell. 3.A nick in one strand of the Hfr cell's chromosome is created. 4.DNA begins to be transferred from the Hfr cell to the recipient cell while the second strand of its chromosome is being replicated. 5.The pilus detaches from the recipient cell and retracts.
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The terms pilus and fimbria (Latin for 'fringe') can be used interchangeably, although some researchers reserve the term pilus for the appendage required for bacterial conjugation. Dozens of these structures can exist on the bacterial and archaeal surface. Twitching motility is a form of crawling bacterial motility used to move over surfaces.
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