e , Δpbs2, Δhog1, Δslt2,

e., Δpbs2, Δhog1, Δslt2, S63845 or Δfks1), indicating strong alterations in the CW deposition or response to stress. Remarkably, none of these and the other MAPK pathway mutants were severely affected in their sensitivity to peptides (see also Additional File 5). Other deletion strains were selected from the GO processes identified by functional annotation. From the three mutants tested that lack genes involved in ribosome biogenesis and RNA processing, two of them (Δcgr1 and Δnop16) were more resistant to PAF26 than to melittin (Figure 5A). A noticeable specific response occurred with most of the ARG deletants analyzed; all of them involved in the “”arginine biosynthesis”" and “”urea cycle and metabolism

of amino groups”" pathways. In addition to deletants from ARG1, ARG3, ARG5,6 and ARG7 that

showed a substantial specific up-regulation by PAF26, A-1210477 molecular weight those from ARG2, ARG4 and CAR1 were also assayed. These seven deletants showed varying degrees of increased resistance to PAF26, which was substantial for ARG1, ARG4 and ARG5,6. Importantly, none of these strains showed phenotypes associated to CW weakening as determined by their sensitivity to SDS or CFW (Figure 5B and Additional File 5). Figure 5 Analysis of sensitivity to peptides and to SDS of specific S. cerevisiae deletion mutants. (A), (B) and (C) show results of three independent experiments, with specific genes as indicated in the figure. See the text for additional details on the selected genes. Other details as in ASK1 Figure 4. The IPT1 gene codes for the enzyme responsible of the last step in the biosynthesis of the major plasma membrane sphingolipid mannose-(inositol-P)2-ceramide [M(IP)2C] [57]. Its deletion confers resistance to other antifungals and plant antimicrobial proteins [16, 58]. In our experiments, IPT1 this website expression decreased in response to melittin but not in response to PAF26. Within the same pathway, LCB1 encodes the enzyme of the first committed step of sphingolipid biosynthesis, and its

expression was markedly repressed by PAF26 (see Additional File 3.2). The Δipt1 mutant showed a remarkable phenotype of high resistance to PAF26 combined with increased sensitivity to SDS (Figure 5C). Another mutant lacking a gene involved in ceramide synthase synthesis (i.e., YPC1/YBR183W) was assayed but no alteration on sensitivity to peptides was found (see details on Additional File 5). PAF26 and related peptides are arginine-rich and penetratin-type peptides [46]. BTN2 codes for a protein with protein binding activity involved in amino acid transport, pH and ion homeostasis and arginine uptake [59]. It was, together with STE5 (see above), the gene with the highest repression common to both peptides (Figure 3 and Additional File 2). However, neither the corresponding deletion strain nor the related Δbtn1 [60] displayed significant differences regarding sensitivity to peptides (Figure 5C).

Comments are closed.