operon
in the lac operon model the genes within the operon will be expressed if:
lactose is present in the cell
what would happen if the positions of the promoter and operator were reversed
the repressor will not prevent the RNA polymerase from transcribing genes
what is the operator
-located between the promoter and structural genes -when repressor protein is bound to operator, it prevents RNA polymerase from transcribing the structural genes
The lac operon structural genes only become expressed if:
lactose binds to the repressor
what is the advantage to having one promoter and one operator associated with three structural genes that produce lactose metabolizing enzymes?
it will save energy and time with one switch because we can transcribe genes at one time
what is the role of operons in a prokaryote gene expression aka protein synthesis ?
it accounts for the regulation of gene activity in response to the needs of the cells
what is the role of the promoter
a DNA sequence that binds RNA polymerase to begin the process of transcription of the DNA strand to make mRNA
What is an operon?
a unit made up of linked genes that code for proteins needed to do a specific task
repressive negative control is when the gene is transcribed by the - of a specific molecule
absence
what is the role of the regulator gene
contains the genetic code for the repressor protein
what would happen if there was a mutation in one of the structural genes
enzymes will not be created. There will be no transcription of the structural gene and mRNA will not be produced. mRNa will not carry information correctly. Gene switches will not control multiple genes
what is the role of structural genes
has the code to build the enzymes needed to break down lactose
the "on/off" switch for an operon is called the
operator
inducible negative control is when the gene is transcribed by the - of a specific molecule
presence
operons are found in the cells of which of the following types of organisms?
prokaryotes (bacteria)
what is the name of the stretch of DNA where RNA polymerase binds
promoter
a protein that binds to the operator and blocks the RNA polymerase
repressor
what would happen if there was a mutation in the promoter
the DNA sequence will not bind to RNA polymerase. So, transcription would never start. Therefore, there will be no production of the enzymes
how can a person's muscle have the same exact DNA sequences as their nerve cells even though they look and perform completely differently
the proteins expressed in each cell are different
what would happen if there was a mutation in the operator
the represessorprotein will never bind to the operator. So, it won't prevent RNA polymerase from transcribing structural genes
