Journal of Microbiology

Journal Article

Disruption of SCO5461 Gene Coding for a Mono-ADP-Ribosyltransferase Enzyme Produces a Conditional Pleiotropic Phenotype Affecting Morphological Differentiation and Antibiotic Production in Streptomyces coelicolor: Krisztina Szirák , Judit Keser&# , Sándor Biró , Iván Schmelczer , György Barabás , András Penyige; J. Microbiol. 2012;50(3):409-418. Published online June 30, 2012; DOI: https://doi.org/10.1007/s12275-012-1440-y

Abstract: The SCO5461 gene of Streptomyces coelicolor A3(2) codes for an ADP-ribosyltransferase enzyme that is predicted to be a transmembrane protein with an extracellular catalytic domain. PCR-targeted disruption of the gene resulted in a mutant that differentiated normally on complex SFM medium; however, morphological differentiation in minimal medium was significantly delayed and this phenotype was even more pronounced on osmotically enhanced minimal medium. The mutant did not sporulate when it was grown on R5 medium, however the normal morphological differentiation was restored when the strain was cultivated beside the wild-type S. coelicolor M145 strain. Comparison of the pattern of ADP-ribosylated proteins showed a difference between the mutant and the wild type, fewer modified proteins were present in the cellular crude extract of the mutant strain. These results support our previous suggestions that protein ADP-ribosylation is involved in the regulation of differentiation and antibiotic production and secretion in Streptomyces.

Characteristics of trypsin-like protease and metalloprotease associated with mycelium differentiation of streptomyces albidoflavus SMF301: Kang, Sung Gyun , Kim, In Seop , Jeong, Byung Cheol , Ryu, Jae Gon , Rho, Yong Taik , Lee, Kye Joon; J. Microbiol. 1995;33(4):307-314.

Abstract: Trypsin like protease (TLP) and metalloprotease (MTP) were induced in associated with the mycelium differentiation in Streptomyces albidoflavus SMF301. TLP and MTP were purified and characterized from the culture. The molecular mass of TLP and MTP were estimated to be 32 kDa and 18 kDa, respectively. The molecular mass of TLP and MTP were estimated to be 32 kDa and 18 kDa, respectively. The optimum pH and temperature of TLP were 10 and 40℃. Those of MTP were 8 and 55 ℃. TLP was stable at alkaline pH (6-9) and unstable above 45℃ and MTP was stable at alkaline pH and unstable above 80℃. Km and Vmax values with benzoyl-arginyl p-nitroanilide of TLP were 139 uM, and 10 nmole of nitroanilide released per min per ㎍ protein, respectively. Km, and Vmax values with a synthetic substrate, leucine p-nitroanilide, or MTP were 58.9 uM, 3.47 nmol of nitroanilide released per min per/㎍ protein, respectively. TLP was inhibited competitively by leupeptin; the inhibition constant was 0.0031 uM. MTP was inhibited by EDTA, phenonthroline and bestatin.

Physiological importance of trypsin-like protease during morphological differentiation of streptomycetes: Kim, In Seop , Kang, Sung Gyun , Lee, Kye Joon; J. Microbiol. 1995;33(4):315-321.

Abstract: The relationship between morphological differentiation and production of trypsin-like protease (TLP_ in streptomycetes was studied. All the Streptomyces spp. In this study produced TLP just before the onset of aerial mycelium formation. Addition of TLP inhibitor, TLCK, to the top surface of colonies inhibited aerial mycelium formation as well as TLP inhibitor, TLCK, to the top surface of colonies inhibited aerial mycelium formation as well as TLP activity. Addition of 2% glucose to the Bennett agar medium repressed both the aerial mycelium formation and TLP production in S. abuvaviensis, S. coelicolor A3(2), S exfoliatus, S. microflavus, S. roseus, s. lavendulae, and S. rochei. However the addition of glucose did not affect S. limosus, S. felleus, S. griseus, S. phaechromogenes, and S. rimosus. The glucose repression on aerial mycelium formation and production of TLP was relieved by the addition of glucose anti-metabolite (methyl α-glucopyranoside). Therefore, it was concluded that TLP production is coordinately regulated with morphological differentiation and TLP activity is essential for morphological differentiation in streptomycetes. The proposed role of TLP is that TLP participates in the degradation of substrate mycelium protein for providing nutrient for aerial mycelial growth.

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