j17Chapt_17_bactGene..

... in growth medium containing both glucose and the disaccharide lactose, it will use up all the glucose before starting to metabolize the lactose. ...

14lctout - Evergreen Archives

... (1) Cells are exposed to mutagens and grown on glucose medium. (2) Each cell forms a colony. This is the "master plate." (3) A block covered with sterile velvet is pressed onto the master plate. (4) Some cells from each colony are transferred to the velvet. (5) The velvet is pressed onto a plate of ...

Regulation of Gene Expression - mvhs

... • Lactose will only be digested for energy when there isn’t much glucose around • When glucose levels are low, level of cAMP molecule builds up ...

The lac Operon - kyoussef-mci

... (a) Lactose absent, repressor active, operon off. The lac repressor is innately active, and in the absence of lactose it switches off the operon by binding to the operator. Figure 18.22a ...

ppt

... • There MUST be some way to control when a gene is turned "on" or "off" • The activation of a gene results in transcription (mRNA made) which in turn results in the formation of a protein • Chromosomes are really made up of structural genes and their ON and OFF switches ("regulatory genes") – "ON" = ...

REGULATING GENE EXPRESSION

...  When a cell no longer needs the protein, the gene is inactivated and transcription and translation can’t occur  Some genes are active in some cells but not in others. ...

Document

... Housekeeping genes (such as those required for protein synthesis and glucose metabolism). *All genes are regulated at some level! ...

Chapter 16 Gene Regulation Levels of Gene Regulation Bacterial

... • What is the ENZYMATIC ACTIVITY? ACTIVITY • Lactose Absent ...

ppt

... inducers) that dictate when activator is bound and not. Activators “RECRUIT” the polymerase. ...

Prokaryotic Regulation of Transcription

... Pc regulated by O1. As level of AraC rises, binds to AraO1 and prevents transcription from Pc. prevents wasteful accumulation of repressor Is an example of autoregulation ...

Genetic Control of Growth

... Genes code for proteins which perform all the functions required by the body. Mutations in a gene means that the “wrong” protein is made. ...

LAC OPERON ACTIVITY - Fairview High School

... 1) Below is a diagram of the lac operon model proposed by Jacob and Monot. Note: I gene codes for repressor protein. Genes Z, Y and A code for proteins directly involved in bringing lactose into the cell and breaking it down. (Note: Z is the gene for beta-galactosidase; recall that the activity of t ...

E. coli Inducible Expression Vectors E. coli Expression Vectors with

... lacI is a regulatory gene of the lac operon that codes for the repressor that binds very tightly to a short DNA sequence just downstream of the promoter near the beginning of lacZ called the lac operator. The repressor binding to the operator interferes with binding of RNAP to the promoter, and ther ...

Chapter 18, 19, 20 Summaries

... • A second molecule called an inducer then inactivates the repressor to turn the lac operon on…. ...

Genes

... Digestion of milk sugar lactose: lac Z, lac Y, and lac A Lac Z: contains 3075 bases and encodes β-galactosidase, which splits the disaccharide lactose into monosaccharides glucose and galactose Lac Y: 1254 bases and called lactose permease to encode transmembrane protein by using energy of electroch ...

Chapter 18 notes

... • The cellular metabolism is biased toward the utilization of glucose. • If glucose levels are sufficient and cAMP levels are low (lots of ATP), then the CRP protein has an inactive shape and cannot bind upstream of the lac promotor. – The lac operon will be transcribed but at a low level. ...

lacI

... In the partial diploids (lacI+/lacIs) lacIs is TRANS-DOMINANT blocking the synthesis of structural genes on both copies of the operon ...

Operon

... metabolite that triggers transcription of the lac operon. Unlike allolactose, the sulfur (S) atom creates a chemical bond which is non-hydrolyzable by the cell, preventing the cell from "eating up" or degrading the inductant. IPTG induces activity of betagalactosidase, an enzyme that promotes lactos ...

Chapter 18 - Madeira City Schools

... F. Repressible Operon – (example: the trp operon in E.coli) 1. E.coli makes tryptophan (when it is not in the environment) in a series of steps, each catalyzed by a specific enzyme 2. The trp repressor is made in an inactive form with little affinity for the trp operator. a. if tryptophan binds to ...

GENE REGULATION

... polypeptides to be assembled from the same gene Alternate splicing is common in insects and vertebrates, where 2 or 3 different proteins are produced from one gene ...

Parsek slide handout

... Operon: a collection of genes that are functionally related and are transcribed as a single unit (polycistronic or polygenic message), which is under the control of a single operator/promoter region or regulatory region. Lactose Operon: Jacob and Monod (J. Mol. Biol 3:318-356, 1961) ...

8.6 Gene Expression and Regulation

... • A promotor is a DNA segment that allows a gene to be transcribed. • An operator is a part of DNA that turns a gene “on” or ”off.” • An operon includes a promoter, an operator, and one or more structural genes that code for all the proteins needed to do a job. – Operons are most common in prokaryot ...

Section L

... Lactose = disaccharide (glucose + galactose), provides energy. ...

Section 16.2

... molecule • The repressor is allosteric, meaning that it interacts reversibly with another molecule, causing both a conformational change in threedimensional shape and a change in chemical activity ...

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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.

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Lac operon