0. 17 Distinguishing positive and negative control 10.18 Catabolite repression involves the inducer cyclic AMP and the activator CAP 10.19 CAP functions in different ways in different target operons 10.20 caP bendS dna 10.2 1 The stringent response produces(p)ppGpp 10.22(p)pp Gpp is produced by the ribosome 10.23 pgpp has many effects 10.24 Translation can be regulated 10.25 r-protein synthesis is controlled by autogeneous regulation 10.26 Phage t4 p32 is controlled by an autogenous circuit 10.27 Autogenous regulation is often used to control synthesis of macromolecular assemblies 10.28 Alternative secondary structures control attenuation 10.29 The tryptophan operon is controlled by attenuation 0 30 Attenuation can be controlled by translation 10.31 Small RNA molecules can regulate translation 10. 32 Antisense RNa can be used to inactivate gene expression 消当10.17 Distinguishing positive and negative control 10.18 Catabolite repression involves the inducer cyclic AMP and the activator CAP 10.19 CAP functions in different ways in different target operons 10.20 CAP bends DNA 10.21 The stringent response produces (p)ppGpp 10.22 (p)ppGpp is produced by the ribosome 10.23 pGpp has many effects 10.24 Translation can be regulated 10.25 r-protein synthesis is controlled by autogeneous regulation 10.26 Phage T4 p32 is controlled by an autogenous circuit 10.27 Autogenous regulation is often used to control synthesis of macromolecular assemblies 10.28 Alternative secondary structures control attenuation 10.29 The tryptophan operon is controlled by attenuation 10.30 Attenuation can be controlled by translation 10.31 Small RNA molecules can regulate translation 10.32 Antisense RNA can be used to inactivate gene expression