GENE REGULATION AT THE PROMOTER LEVEL
... The binding of the lactose, at a specific lactose-binding site of the repressor protein causes a change in shape of the repressor protein so that it can no longer bind to at the operator site of the lac operon. The operator site could also be called the regulatory site. The roadblock to RNA polymera ...
... The binding of the lactose, at a specific lactose-binding site of the repressor protein causes a change in shape of the repressor protein so that it can no longer bind to at the operator site of the lac operon. The operator site could also be called the regulatory site. The roadblock to RNA polymera ...
12-5 Gene Regulation - Lincoln Park High School
... When is the repressor protein bound to the operator? When lactose is not present Can transcription occur when the repressor is bound to the operator? No Why or why not? The repressor protein blocks RNA polymerase from binding to the promoter How does the presence of lactose help start transcription ...
... When is the repressor protein bound to the operator? When lactose is not present Can transcription occur when the repressor is bound to the operator? No Why or why not? The repressor protein blocks RNA polymerase from binding to the promoter How does the presence of lactose help start transcription ...
Chapter 7
... o But, you should understand how each step works and how those steps fit together. For instance, if I ask “How does the bacteria sense there is high glucose in the media?” you should be able to answer “The glucose gets transported inside the cell where the R (transporter component) becomes unphospho ...
... o But, you should understand how each step works and how those steps fit together. For instance, if I ask “How does the bacteria sense there is high glucose in the media?” you should be able to answer “The glucose gets transported inside the cell where the R (transporter component) becomes unphospho ...
Ch 18 Lecture
... Constantly needed and therefore constantly transcribed Examples: Ribosomal proteins, tRNAs, RNA polymerase, glycolysis enzymes Neither inducible nor repressible and active at all times The activity of constitutive genes is controlled by how efficiently RNA polymerase binds to their promoter regions. ...
... Constantly needed and therefore constantly transcribed Examples: Ribosomal proteins, tRNAs, RNA polymerase, glycolysis enzymes Neither inducible nor repressible and active at all times The activity of constitutive genes is controlled by how efficiently RNA polymerase binds to their promoter regions. ...
Chapter 15 - jl041.k12.sd.us
... Operon is a regulatory system that controls DNA transcription in prokaryotes. Operon contains a promoter (the specific nucleotide sequence that tells a cell to begin or start transcription), an operator (a segment of DNA that can be used to turn gene expression on or off) and more than one gene. ...
... Operon is a regulatory system that controls DNA transcription in prokaryotes. Operon contains a promoter (the specific nucleotide sequence that tells a cell to begin or start transcription), an operator (a segment of DNA that can be used to turn gene expression on or off) and more than one gene. ...
BISC403 Genetic and Evolutionary Biology Spring, 2011 May 16
... The AraC protein stimulates RNA polymerase binding to the promoter in the arabinose operon: when arabinose is present in high concentration. by linking together two copies of the same binding site on the DNA to from a ...
... The AraC protein stimulates RNA polymerase binding to the promoter in the arabinose operon: when arabinose is present in high concentration. by linking together two copies of the same binding site on the DNA to from a ...
File
... cAMP binds to CAP regulatory protein, causing it to bind to the promoter of the lac operon The enzymes needed for lactose metabolism must be transcribed when lactose is present cAMP levels increase because glucose is scarce (ATP is not being produced through cell respiration) Lactose binds to the La ...
... cAMP binds to CAP regulatory protein, causing it to bind to the promoter of the lac operon The enzymes needed for lactose metabolism must be transcribed when lactose is present cAMP levels increase because glucose is scarce (ATP is not being produced through cell respiration) Lactose binds to the La ...
BIO208
... g. _____________________________ encoded by the I gene h. __________undergoes a conformational (shape) change which prevents binding to the operator i. _____________________________ gene that is actively transcribed when derepressed j. _____________________________ enzyme that cleaves lactose into g ...
... g. _____________________________ encoded by the I gene h. __________undergoes a conformational (shape) change which prevents binding to the operator i. _____________________________ gene that is actively transcribed when derepressed j. _____________________________ enzyme that cleaves lactose into g ...
BIO 208 Homework: Bacterial Genetics 2011 17.1 constitutive gene
... gene active in response to cellular needs. 17.3 polycistronic mRNA – coding information from more than one gene on one mRNA molecule. A number of genes may be under regulatory control of a single promoter. The mRNA is translated into the appropriate proteins. 17.4 Lactose triggers the coordinate ind ...
... gene active in response to cellular needs. 17.3 polycistronic mRNA – coding information from more than one gene on one mRNA molecule. A number of genes may be under regulatory control of a single promoter. The mRNA is translated into the appropriate proteins. 17.4 Lactose triggers the coordinate ind ...
AP gene regulation
... – Some genes are constantly transcribed because their proteins are always needed (constitutive genes) – Other genes are only transcribed when their proteins are required – Example: Bacteria growing in the colon of an adult cow do not have lactose (milk sugar) available as an energy source, but if th ...
... – Some genes are constantly transcribed because their proteins are always needed (constitutive genes) – Other genes are only transcribed when their proteins are required – Example: Bacteria growing in the colon of an adult cow do not have lactose (milk sugar) available as an energy source, but if th ...
Prokaryotic Biology and Genetic
... can change the efficiency of RNA polymerase stopping. If the gene is part of an operon, terminators can modulate relative expression levels of the different genes in the operon. The terminator is therefore a site which can be engineered. ...
... can change the efficiency of RNA polymerase stopping. If the gene is part of an operon, terminators can modulate relative expression levels of the different genes in the operon. The terminator is therefore a site which can be engineered. ...
Winter School on Mathematical Methods in Life
... Beta-galactosidase is expressed by the lacZ gene ...
... Beta-galactosidase is expressed by the lacZ gene ...
Lac Operon - Faculty Web Pages
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
Bacterial Gene Expression—Lac Operon
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
... Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. ...
Gene Regulation: Prokaryotes and Eukaryotes
... (a) Tryptophan absent, repressor inactive, operon on. RNA polymerase attaches to the DNA at the promoter and transcribes the operon’s genes. ...
... (a) Tryptophan absent, repressor inactive, operon on. RNA polymerase attaches to the DNA at the promoter and transcribes the operon’s genes. ...
control of gene expression
... • A repressor, which is always present in the cell, binds to the lac operon and prevents transcription by blocking the passage of RNA polymerase. • However, when lactose is present, it binds to the repressor and changes its shape, such that the repressor can no longer bind to the operon. • In this c ...
... • A repressor, which is always present in the cell, binds to the lac operon and prevents transcription by blocking the passage of RNA polymerase. • However, when lactose is present, it binds to the repressor and changes its shape, such that the repressor can no longer bind to the operon. • In this c ...
Chapter 11: Gene Expression
... • Genes for these proteins are sequential • An operator sits between promoter & these structural genes • lac operon = promoter + operator + 3 genes • Upstream regulatory gene codes for repressor ...
... • Genes for these proteins are sequential • An operator sits between promoter & these structural genes • lac operon = promoter + operator + 3 genes • Upstream regulatory gene codes for repressor ...
Review for Exam II (Exam this Wed) Bring One of These Multiple
... lacI+ gene on a plasmid would restore normal function If it’s a lacOC mutant operator that can’t bind repressor a wild-type lacI+ gene on a plasmid would not restore normal function ...
... lacI+ gene on a plasmid would restore normal function If it’s a lacOC mutant operator that can’t bind repressor a wild-type lacI+ gene on a plasmid would not restore normal function ...
trp
... of lactose present. Effector = level of lactose trp Operon Transcription repressed when high levels of tryptophan present. Effector = level of tryptophan ...
... of lactose present. Effector = level of lactose trp Operon Transcription repressed when high levels of tryptophan present. Effector = level of tryptophan ...
Bacterial Genetics
... - SG's for related enzymes adjacent on chromosome are activated == enzymes made - lactose metabolism uses these three enzymes • operator gene next to 3 SG's for lactose metabolism • promoter genes adjacent to operator • the operator and promoter do not code for mRNA Op ...
... - SG's for related enzymes adjacent on chromosome are activated == enzymes made - lactose metabolism uses these three enzymes • operator gene next to 3 SG's for lactose metabolism • promoter genes adjacent to operator • the operator and promoter do not code for mRNA Op ...
Cell Division and Mitosis
... ribosomes translating; fast/more = more product Although control probably involves all of these, the most understood are changes in the rate of transcription ...
... ribosomes translating; fast/more = more product Although control probably involves all of these, the most understood are changes in the rate of transcription ...
Regulation of Gene Expression
... Consists of three structural genes lacZ (β-galactosidase), lacY (permease), and lacA (transacetylase) o These are coordinately inducible The analysis of various classes of mutants was crucial to understanding the lac operon But that is only part of the lac operon story ... o Many bacteria will ...
... Consists of three structural genes lacZ (β-galactosidase), lacY (permease), and lacA (transacetylase) o These are coordinately inducible The analysis of various classes of mutants was crucial to understanding the lac operon But that is only part of the lac operon story ... o Many bacteria will ...
Lac Operon - Iowa State University
... 8. What is the function of cAMP in regulation of the lac operon? a) it activates a repressor protein b) it activates an activator protein c) it inactivates a repressor protein d) it inactivates an activator protein 9. 14. A mutant E. coli strain, grown under conditions that normally induce the lac o ...
... 8. What is the function of cAMP in regulation of the lac operon? a) it activates a repressor protein b) it activates an activator protein c) it inactivates a repressor protein d) it inactivates an activator protein 9. 14. A mutant E. coli strain, grown under conditions that normally induce the lac o ...
Lac operon
lac operon (lactose operon) is an operon required for the transport and metabolism of lactose in Escherichia coli and many other enteric bacteria. Although glucose is the preferred carbon source for most bacteria, the lac operon allows for the effective digestion of lactose when glucose is not available. Gene regulation of the lac operon was the first genetic regulatory mechanism to be understood clearly, so it has become a foremost example of prokaryotic gene regulation. It is often discussed in introductory molecular and cellular biology classes at universities for this reason.Bacterial operons are polycistronic transcripts that are able to produce multiple proteins from one mRNA transcript. In this case, when lactose is required as a sugar source for the bacterium, the three genes of the lac operon can be expressed and their subsequent proteins translated: lacZ, lacY, and lacA. The gene product of lacZ is β-galactosidase which cleaves lactose, a disaccharide, into glucose and galactose. LacY encodes lactose permease, a protein which becomes embedded in the cytoplasmic membrane to enable transport of lactose into the cell. Finally, lacA encodes galactoside O-acetyltransferase. Layout of the lac operon.It would be wasteful to produce the enzymes when there is no lactose available or if there is a more preferable energy source available, such as glucose. The lac operon uses a two-part control mechanism to ensure that the cell expends energy producing the enzymes encoded by the lac operon only when necessary. In the absence of lactose, the lac repressor halts production of the enzymes encoded by the lac operon. In the presence of glucose, the catabolite activator protein (CAP), required for production of the enzymes, remains inactive, and EIIAGlc shuts down lactose permease to prevent transport of lactose into the cell. This dual control mechanism causes the sequential utilization of glucose and lactose in two distinct growth phases, known as diauxie.