• Sakacin A is a small, 41 amino acid (the precursor is 90 aa), heat-stable polypeptide. It has been characterized genetically. The regulation of sakacin A has been shown to be related to pheromones (possibly
quorum sensing) and temperature changes. It is identical to curvacin/curvaticin A. • Sakacin B is a heat and pH stable protein. • Sakacin G is a 37 amino acid long (small) polypeptide. • Sakacin K is closely related to Sakacin A (and curvacin A), sharing the first 30
N-terminal amino acids. It has been studied extensively for its industrial applications. • Sakacin M is a heat-resistant protein, MW = 4640. • Sakacin P is a small, heat-stable, ribosomally synthesized polypeptide. Its genetics has been well-characterized. • Sakacin Q was discovered in a strain producing Sakacin P. • Sakacin R is very similar to sakacin P. It is 43 amino acids long, and is also known as sakacin 674. • Sakacin T is a class II bacteriocin. It is produced from a single
operon with sakacin X; there are three distinct promoters in the operon, the two sakacins are chemically distinct, though similar. Sakacin T • Sakacin X is a class IIa bacteriocin. It appears in the references with Sakacin T (above). • Sakacin Z was apparently never published and is known from a reference to unpublished data (refers to B. Ray, under Table 6, page 551) The conventions governing the naming of sakacins are somewhat confused. Sakacin Z was named because it is produced by
L. sakei Z, just as Sakacin 670 was named because it was produced by
L. sakei 670; but the remaining naming convention uses letters A-Z, of which few are unambiguously available. Worse yet, many strains produce several sakacins so that naming them by strain is ambiguous. ==Applications of the Sakacins==