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Arabinose Operon

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Arabinose Operon

Literature

 

Annotated Bibliography

 

Boel G, Mijakovic I, Maze A, Poncet S, Taha MK, Larribe M, Darbon E, Khemiri A, Galinier A, Deutscher J (2003) Transcription regulatiors potentially controlled by HPr kinase/phosphorylase in Gram-negative bacteria J Mol Microbiol Biotechnol 5(4):206-215.

 

Brückner R, Titgemeyer F (2002) Carbon catabolite repression in bacteria: choice of the carbon source and autoregulatory limitation of sugar utilization. FEMS Micro Let 209:141-148.

 

Ebright RH, Beckwith J (1985) The catabolite gene activator protein (CAP) is not required for indole-3-acetic acid to activate transcription of the araBAD operon of Escherichia coli K-12. Mol Gen Genet 201(1):51-55.

 

Eppler T, Postma P, Schutlz A, Volker U, Boos W (2002) Glycerol-3-phosphate-induced catabolite repression in Escherichia coli. J Bacteriol 184(11):3044-3052.

 

Galinier A, Kravanja M, Engelmann R, Hengstenberg W, Kilhoffer M-C, Deutscher J, Haiech J (1998) New protein kinase and protein phosphatase families mediate signal transduction in bacterial catabolite repression. PNAS 95:1823-1828.

 

Hernandez-Montalvo V, Valle F, Boliva F, Gosset G (2001) Characterization of sugar mixtures utilization by an Escherichia coli mutant devoid of the phosphotransferase system. Appl Microbiol Biotechnol 57(1-2):186-191.

 

Hogmane BM, Arents JC, Bader R, Eijkemans K, Inada T, Aiba H, Postma PW (1998) Inducer exclusion by glucose 6-phosphate in Escherichia coli. Mol Microbiol 28(4):755-765.

 

Hogema BM, Arents JC, Bader R, Eijkemans K, Yoshida H, Takahashi H, Aiba H, Postma PW (1998) Inducer exclusion in Escherichia coli by non-PTS substrates: the role of PEP to pyruvate ratio in determining the phosphorylation state of enzyme IIAglc Mol Microbiol 30(3):487-498.

 

Inacio JM, Costa C, de Sa-Nogueira (2003) Distinct molecular mechanisms involved in carbon catabolite repression in the arabinose operon of Bacillus subtilis Microbiol 149:2345-2355.

 

Kawamukai M, Kishimoto J, Utsumi R, Himeno M, Komano T, Aiba H (1985) Negative regulation of adenylate cyclase gene cya expression by cyclic AMP-cyclic AMP receptor protein in Escherichia coli: studies with cya-lac protein and operon fusion plasmids. J. Bacteriol 164(2):872-877.

 

Kimata K, Takahashi H, Inada T, Postma P, Aiba H (1997) cAMP receptor protein-cAMP plays a crucial role in glucose-lactose diauxie by activating the major glucose transporter gene in Escherichia coli. PNAS 94:12914-12919.

 

Kimata K, Tanaka Y, Inada T, Aiba H (2001) Expression of the glucose transporter gene ptsG is regulated at the mRNA degradation step in response to glycolytic flux in Escherichia coli. EMBO J 20(13):3587-3595.

 

Kline EL, Bankaitis VA, Brown CS, Monefiori DC (1980) Metabolite gene regulation: imidazole and imidazole derivatives which circumvent cyclic adenosine 3’,5’-monophosphate in induction of the Escherichia coli L-arabinose operon. J Bacteriol 141(2):770-778.

 

Kline EL, Brown CS, Bankaitis V, Montefiori DC, Craig K (1980) Metabolite gene regulation of the L-arabinose operon in Escherichia coli with indolacetic acid and other indole derivatives. PNAS 77(4)1768-1772.

 

Miyada CG, Stoltzfus L, Wilcox G (1984) Regulation of the araC gene of Escherichia coli: catabolite repression, autoregulation and effect on araBAD expression. PNAS 81(13)4120-4124.

 

Morgan-Kiss RM, Wadler C, Cronan JE Jr (2002) Long-term and homogeneous regulation of the Escherichia coli araBAD promoter by use of a lactose transporter of relaxed specificity. PNAS 99(11): 7373-7377.

 

Schleif R (2000) Regulation of the L-arabinose operon of Escherichia coli. Trends in Genet 16(12):559-565.

 

Siegele DA, Hu JC (1997) Gene expression from plasmids containing the araBAD promoter at subsaturating inducer concentrations represents mix populations. PNAS 94:8168-8172.

 

Smolke CD, Keasling JD (2002) Effect of copy number and mRNA processing and stabilization on transcription and protein levels from an engineered dual-gene operon. Biotechnol Bioeng 78(4)412-424.

 

Stülke J, Hillen W (1999) Carbon catabolite repression in bacteria. Cur Opin Microbiol 2:195-201.

 

Wang J, Gilles ED, Lengeler JW, Jahreis K (2001) Modeling of inducer exclusion and catabolite repression based on a PTS-dependent sucrose and non-PTS dependent glycerol transport systems in Escherichia coli K-12 and its experimental verification.  J Biotech 92:133-158.