Colicin
Colicin[edit | edit source]
Structure of a colicin protein
Colicin is a type of antimicrobial protein produced by certain strains of Escherichia coli bacteria. It is a potent bacteriocin that exhibits a narrow spectrum of activity against closely related bacterial species. Colicins are known for their ability to kill or inhibit the growth of competing bacterial strains, providing a competitive advantage to the producing organism.
Discovery[edit | edit source]
Colicins were first discovered in the 1950s by A. J. Clark and Martha K. Geider. They observed that certain strains of E. coli were capable of producing substances that could kill or inhibit the growth of other E. coli strains. These substances were later named colicins.
Structure and Function[edit | edit source]
Colicins are large, complex proteins with a variety of structural and functional domains. They are typically composed of three main regions: the N-terminal translocation domain, the central receptor-binding domain, and the C-terminal cytotoxic domain.
The translocation domain allows colicins to cross the outer membrane of target cells and gain access to the periplasmic space. The receptor-binding domain recognizes specific receptors on the surface of target cells, facilitating the binding and subsequent entry of the colicin into the cell. Finally, the cytotoxic domain exerts its antimicrobial activity by disrupting essential cellular processes, such as DNA replication or protein synthesis.
Mechanism of Action[edit | edit source]
Colicins employ various mechanisms to kill or inhibit the growth of target bacteria. Some colicins, known as pore-forming colicins, create channels in the cytoplasmic membrane of target cells, leading to the dissipation of the transmembrane potential and cell death. Other colicins, called DNases or RNases, degrade the DNA or RNA of target cells, respectively, disrupting vital cellular processes.
Applications[edit | edit source]
Colicins have been extensively studied for their potential applications in various fields. Their antimicrobial properties make them attractive candidates for the development of novel antibiotics. Additionally, colicins have been used as tools in molecular biology research to study bacterial physiology and genetics. They have also been investigated for their potential use in food preservation and as alternatives to traditional chemical preservatives.
See Also[edit | edit source]
References[edit | edit source]
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Contributors: Prab R. Tumpati, MD