A terD domain-encoding gene (SCO2368) is involved in calcium homeostasis and participates in calcium regulation of a DosR-like regulon in Streptomyces coelicolor.

Although Streptomyces coelicolor is not resistant to tellurite, it possesses several TerD domain-encoding (tdd) genes of unknown function. To elucidate the function of tdd8, the transcriptomes of S. coelicolor strain M145 and of a tdd8 deletion mutant derivative (the Δtdd8 strain) were compared. Several orthologs of Mycobacterium tuberculosis genes involved in dormancy survival were upregulated in the deletion mutant at the visual onset of prodiginine production. These genes are organized in a putative redox stress response cluster comprising two large loci. A binding motif similar to the dormancy survival regulator (DosR) binding site of M. tuberculosis has been identified in the upstream sequences of most genes in these loci. A predicted role for these genes in the redox stress response is supported by the low NAD(+)/NADH ratio in the Δtdd8 strain. This S. coelicolor gene cluster was shown to be induced by hypoxia and NO stress. While the tdd8 deletion mutant (the Δtdd8 strain) was unable to maintain calcium homeostasis in a calcium-depleted medium, the addition of Ca(2+) in Δtdd8 culture medium reduced the expression of several genes of the redox stress response cluster. The results shown in this work are consistent with Tdd8 playing a significant role in calcium homeostasis and redox stress adaptation.

Deletion of TerD-domain-encoding genes: effect on Streptomyces coelicolor development.

TerD-domain-encoding genes (tdd genes) are highly represented in the Streptomyces coelicolor genome. One of these, the tdd8 gene, was recently shown to have a crucial influence on growth, differentiation, and spore development of this filamentous bacterium. The investigation of the potential role of tdd genes has been extended here to tdd7 (SCO2367) and tdd13 (SCO4277). Both genes are highly expressed in bacteria grown in liquid-rich medium (tryptic soy broth). However, the deletion of these genes in S. coelicolor showed contrasting effects regarding developmental patterns, sporulation, and antibiotic production. Deletion of the tdd7 gene induced a reduction of growth in liquid medium, wrinkling of the mycelium on solid medium, and poor spore and actinorhodin production. On the other hand, deletion of the tdd13 gene did not significantly affect growth in liquid medium but induced a small colony phenotype on solid medium with abundant sporulation and overproduction of undecylprodigiosin. Although their exact functions remain undefined, the present data suggest a major involvement of TerD proteins in the proper development of S. coelicolor.

tdd8: a TerD domain-encoding gene involved in Streptomyces coelicolor differentiation.

The Streptomyces coelicolor genome contains 17 TerD domain-encoding genes (tdd genes) of unknown function. The proteins encoded by these genes have been presumed to be involved in tellurite resistance on the basis of their homology with the protein TerD of Serratia marcescens. To elucidate the role of a Tdd protein (Tdd8), both a deletion mutant for the corresponding gene tdd8 (SCO2368) and a recombinant strain over-expressing tdd8 were produced in S. coelicolor M145. The deletion mutant (Δtdd8), like the wild strain, was not resistant to potassium tellurite. The deletion was not lethal but had a marked effect on differentiation. The deletion strain showed more rapid growth in liquid medium and produced long chains of short spores with a dense and non-spherical spore wall on agar plates. The strain over-expressing tdd8 had a growth delay in liquid medium and produced very few spores of irregular shapes and sizes on solid medium. The results of this study demonstrated that Tdd proteins might have a function other than tellurite resistance and this function seems to be of crucial importance for the proper development of the actinomycete S. coelicolor.