Abstract
Quorum sensing peptides (QSPs) are the signaling molecules used by the Gram-positive bacteria in orchestrating cell-to-cell communication. In spite of their enormous importance in signaling process, their detailed bioinformatics analysis is lacking. In this study, QSPs and non-QSPs were examined according to their amino acid composition, residues position, motifs and physicochemical properties. Compositional analysis concludes that QSPs are enriched with aromatic residues like Trp, Tyr and Phe. At the N-terminal, Ser was a dominant residue at maximum positions, namely, first, second, third and fifth while Phe was a preferred residue at first, third and fifth positions from the C-terminal. A few motifs from QSPs were also extracted. Physicochemical properties like aromaticity, molecular weight and secondary structure were found to be distinguishing features of QSPs. Exploiting above properties, we have developed a Support Vector Machine (SVM) based predictive model. During 10-fold cross-validation, SVM achieves maximum accuracy of 93.00%, Mathew’s correlation coefficient (MCC) of 0.86 and Receiver operating characteristic (ROC) of 0.98 on the training/testing dataset (T200p+200n). Developed models performed equally well on the validation dataset (V20p+20n). The server also integrates several useful analysis tools like “QSMotifScan”, “ProtFrag”, “MutGen” and “PhysicoProp”. Our analysis reveals important characteristics of QSPs and on the basis of these unique features, we have developed a prediction algorithm “QSPpred” (freely available at: http://crdd.osdd.net/servers/qsppred).
Highlights
Bacteria communicate and coordinate their behavior by the use of signal molecules secreted by self, other bacteria or both [1]
In Quorum sensing peptides (QSPs), aromatic amino acids were found to prefer as compared to non-QSPs like Trp, Tyr and Phe
To analyze which residues are favored at specific positions in QSPs, we examined the frequency of residues at both N and C-terminal using two sample sequence logos
Summary
Bacteria communicate and coordinate their behavior by the use of signal molecules secreted by self, other bacteria or both [1]. Quorum sensing (QS) is a biological phenomenon through which bacteria communicate with each other by sending and receiving these chemical signals [1,2] They use this phenomenon to assess the size of their population by measuring the concentration of these signals [3,4]. This phenomenon was first described in a Gram-positive bacteria, Streptococcus pneumonia, in which competence was supposed to be controlled by a hormone-like extracellular peptide [5]. It was later discovered in two luminous Gram-negative marine bacterial species, Vibrio fischeri and Vibrio harveyi [6].
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