The type I signal peptidase SpsB completes the N�� terminal cleavage of AgrD, releasing fully formed AIP from the cell surface [75].Figure 1.The structure and function of the agr operon in S. aureus. AgrB is a multifunctional endopeptidase and chaperone protein, and it has been suggested that AgrB is also involved in the export of AIP. AgrD is a propeptide processed by AgrB into the small …Figure 2.Structures of thiolactone and lactone signal peptides. (a) Structure of the prototypical autoinducing peptide, S. aureus AIP-1. (b) AIP-1 from S. pseudintermedius, the only reported Staphylococcus species with a lactone autoinducing molecule. (c) Gelatinase …The receptor for AIP, AgrC, is an integral membrane protein, and a member of the class 10 receptor histidine protein kinases (HPKs) with homology to members of the LytST/R two-component regulatory system (2CRS) family.
AgrC has a high affinity for AIP, with activation EC50 values in the low nanomolar range. This exquisite sensitivity may serve as a defense mechanism for S. aureus, as we have previously shown that a single cell enclosed in a small space, such as the phagosome of a macrophage, can secrete sufficient AIP within a short time to trigger the agr-mediated QS transcriptional program [76]. AgrC can dimerize without binding AIP and binding even a single AIP molecule is sufficient to activate the receptor complex [77]. The two cytoplasmic HPK tails of AgrC cross-phosphorylate to allow AgrC to in turn activate the response regulator module AgrA.
Like AgrC, the transcription factor AgrA shares significant homology with LytST/R family members, and the consensus binding sequence has been identified for AgrA, with unsurprising similarities to the sequence for LytTR binding [78]. The best known target for AgrA binding, and the region most important for virulence regulation in S. aureus, is the divergent promoter region P2/P3 which controls transcription of the agr operon and the RNAIII
Aflatoxins are known as a toxic secondary metabolites produced by the some species of fungi of the genus Aspergillus [1]. The International Agency for Research on Cancer (IARC) has classified the aflatoxins B1 (AFB1), AV-951 B2 (AFB2), G1 (AFG1), and G2 (AFG2) as Group-1 carcinogenic substances [2].AFB1 is one of the most potent hepato-carcinogens known, and the long-term chronic exposure to extremely low levels of AFB1 in food and feed is an important consideration for human and animal health.
Consequently, maximum residue levels (MRL) of aflatoxins for human food and animal feed have been set by the European Union (EU). For maize and rice to be subjected to sorting or other physical treatment before human consumption or use as an ingredient in foodstuffs, AFB1 and total aflatoxin limits have been set at 5 ��g/kg and 10 ��g/kg [3].