Transcription regulation Flashcards
Why do cells need to regulate transcription?
~ cells require different amounts of different proteins
~ different proteins are produced at different times in the cell cycle
~ some cells only need a few cell-specific proteins
Regulatory mechanisms - Prokaryotes
~ promotor strength
~ REPRESSORS/activators/operators/ENHANCERS
e.g. lac/trp operon + adenine riboswitch
Regulatory mechanisms - Eukaryotes
~ promoter strength
~ repressors/ACTIVATORS/ operators/enhancers
~ regulatory sequences allow binding of several proteins
Repressors
regulatory proteins that decrease transcription
e.g. LexA (SOS genes, bacteria)
Activators
regulatory proteins that increase transcription
Operators
the regulatory sequences that repressors/activators bind to
Enhancers
distal regulatory sequences
~ can be up/downstream of the gene
Operons
organise the co-expression of genes that produce proteins which work together
~ produces polycistronic mRNA
Polycistronic mRNA
the mRNA of different genes joined together which is translated into the separate proteins encoded by each gene
Function of beta-galactosidase
lactose –>galactose + glucose or
lactose –> allolactose
Lac operon (lacO)
produces polycistronic mRNA for the following genes:
~ beta-galactosidase (lacZ)
~ permease (lacY)
~ Transacetylase (lacA)
it allows lactose to be respired instead of glucose
LacI
~ lac repressor protein
~ binds to lacI and prevents RNA pol. from binding
~ when lactose is present, allolactose binds to LacI, altering its shape and causing derepression
~ negative regulation
Lac operon and presence of glucose
glucose inactivates adenylate cyclase = reduced cAMP levels
~ levels of cAMP indicate glucose levels
Catabolite activator protein
CAP
~ cAMP receptor protein that binds to DNA in presence of cAMP and bends its structure 90 degrees
~ postive regulation
Repressible regulation
operons for biosynthetic pathways are turned off when end product is readily available
e.g. trp operon
~ negative regulation
