As expected, MALDI-TOF MS showed that SapB was not secreted by ra

As expected, MALDI-TOF MS showed that SapB was not secreted by ramR or ramS mutant strains, irrespective of medium composition, whereas the wild-type strain secreted SapB in R5 medium, but not in the case of minimal mannitol medium (Fig. 1f). Taken together, these data show that SapB is unconditionally secreted by aerial hyphae of the wild type, whereas secretion of SapB by vegetative hyphae depends on medium composition. Previously, the existence of a regulatory mechanism called the sky pathway was proposed that operates after the bld cascade to control expression of aerial hyphae-specific genes such as those encoding the rodlins, chaplins, and

NepA (Claessen et al., 2004, 2006; de Jong et al., 2009). We propose that SapB production KU-57788 ic50 by vegetative hyphae is under the control of the bld cascade, while the sky pathway controls production of SapB by aerial structures. The fact that SapB is produced by aerial hyphae after their emergence infers an additional, yet

elusive role, during the later stages of morphological differentiation. Perhaps SapB contributes to spore wall assembly providing protection to the spores. Alternatively, it could contribute to providing a hydrated compartment involved in transport of nutrients up into the air, as suggested previously (Chater & Chandra, 2006; Chater Natural Product Library cost et al., 2010). Complete media used for growing S. coelicolor, such as R2YE or R5 medium, contain 10.3% sucrose, which is absent in minimal mannitol medium. We here addressed whether the presence of this sugar causes the SapB-dependent differentiation. To this end, the wild-type strain and the ramR and ramS strains were grown on minimal mannitol medium with or without 10.3% sucrose. In the absence of 10.3% sucrose, all mutant strains developed like the wild type (Fig. 2a). In contrast, sucrose strongly delayed development of the ramR and ramS mutants (Fig. 2b). This indicates that SapB has a direct or indirect role in formation of aerial hyphae under this condition.

In agreement, MALDI-TOF MS showed that SapB was present in the culture medium of the wild-type strain when the Fludarabine purchase medium was supplemented with 10.3% sucrose (Fig. 2d). To study the effect of sucrose on the interfacial surface tension, the pendant droplet technique was used, which is based on the geometry of a droplet (Thiessen & Man, 1999; Claessen et al., 2003; Sawyer et al., 2011). These data showed that 10.3% sucrose hardly, if at all, reduced the surface tension of R5 medium (values with or without sucrose: 66 ± 1.2 and 64 ± 1.1 mJ m−2, respectively) and minimal mannitol medium (73 ± 1.8 and 70 ± 1.4 mJ m−2, respectively). Moreover, sucrose did not alter the capacity of chaplins to assemble at the medium-air interface as was assessed by measuring ThT fluorescence (data not shown). These data indicate that the effect of sucrose is exerted, directly or indirectly, via a reduced turgor pressure in the hyphae.

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