- Wang J, Wang W, Wang L, Zhang G, Fan K,
Tan H et al (2011) A novel role of ‘pseudo’γ-
butyrolactone receptors in controllingγ-butyr-
olactone biosynthesis in Streptomyces. Mol
Microbiol 82:236–250 - Takano E, Nihira T, Hara Y, Jones JJ, Gersha-
ter CJ, Yamada Y et al (2000) Purification and
structural determination of SCB1, a gamma-
butyrolactone that elicits antibiotic production
inStreptomyces coelicolorA3(2). J Biol Chem
275:11010–11016 - Hsiao NH, Nakayama S, Merlo ME, de Vries
M, Bunet R, Kitani S et al (2009) Analysis of
two additional signaling molecules inStrepto-
myces coelicolor and the development of a
butyrolactone-specific reporter system. Chem
Biol 16:951–960 - Ohnishi Y, Kameyama S, Onaka H, Horinouchi
S (1999) The A-factor regulatory cascade lead-
ing to streptomycin biosynthesis inStreptomyces
griseus: identification of a target gene of the A-
factor receptor. Mol Microbiol 34:102–111 - Takano E, Kinoshita H, Mersinias V, Bucca G,
Hotchkiss G, Nihira T et al (2005) A bacterial
hormone (the SCB1) directly controls the
expression of a pathway-specific regulatory
gene in the cryptic type I polyketide biosyn-
thetic gene cluster ofStreptomyces coelicolor.
Mol Microbiol 56:465–479- Pawlik K, Kotowska M, Chater KF, Kuczek K,
Takano E (2007) A cryptic type I polyketide
synthase (cpk) gene cluster inStreptomyces coe-
licolorA3(2). Arch Microbiol 187:87–99 - Kieser T, Bibb MJ, Buttner MJ, Chater KF,
Hopwood DA (2000) PracticalStreptomyces
genetics. Norwich, UK - Sidda JD, Poon V, Song L, Wang W, Yang K,
Corre C (2016) Overproduction and
identification of butyrolactones SCB1-8 in
the antibiotic production superhostStreptomy-
cesM1152. Org Biomol Chem 14:6390–6393 - Nakano H, Takehara E, Nihira T, Yamada Y
(1999) Gene replacement analysis of the
Streptomyces virginiae barA gene encoding
the butyrolactone autoregulator receptor
reveals that BarA acts as a repressor in virginia-
mycin biosynthesis. J Bacteriol 180:
3317–3322
128 Marc Biarnes-Carrera et al.