Gene regulation in Eukaryotes

There are three common ways that the function of regulatory transcription factors can be modulated

1. Binding of a small effector molecule 2. Protein-protein interactions 3. Covalent modification

Three common interactions that communicate the effects of regulatory transcription factors are

1. TFIID-direct or through coactivators 2. Mediator 3. recruiting proteins that affect nucleosome composition

ChIP sequencing

Allows determination of: Where nucleosomes are located Where histone variants are found Where covalent modifications of histones occur

GREs

Are located near promoters of many different genes. B) Are activated in response to increased glucocorticoid levels. C) Are bound by a dimerized regulatory transcription factor.

Zinc finger motif

Composed of one a-helix and two b-sheets held together by a zinc (Zn++) metal ion

the ENCODE project

Encyclopedia of DNA Elements Consortium Isolate and sequence RNA from humans Identify transcription factor binding sites Map DNA methylation sites Identify histone modification sites Map DNaseI cleavage sites

True or False: A CpG island consists of about 2000 copies of the CG dinucleotide.

False

the five histone genes

H1, H2A, H2B, H3 and H4

Changes in function of which of the following proteins by posttranslational modification (such as phosphorylation or acetylation) would be likely to, in turn, affect the expression of specific genes?

IRP

In order for CREB to activate transcription:

It must be phosphorylated.

In comparing effects of regulatory transcription factors that affect TFIID and those that affect mediator:

Mediator allows binding of RNA polymerase but transcription can be prevented by transcription factors binding to silencers.

The best explanation for interference of DNA methylation with transcription factor binding is:

Methylation of the CpG island modifies the shape of the response element to which the transcription factor normally binds.

In the absence of glucocorticoid:

None of these.

coolio

Phosphorylated CREB binds to DNA and stimulates transcription

Eukaryotes have multiple families of chromatin remodelers;

SWI/SNF ISWI INO80 Mi-2

insulators

Since eukaryotic gene regulation can occur over long distances, it is important to limit regulation to one particular gene, but not to neighboring genes Insulators are segments of DNA that insulate a gene from the regulatory effects of other genes Some act as barriers to chromatin remodeling Others block the effects of enhancers May do this by chromosome looping

ATP-dependent chromatin remodeling

The energy of ATP is used to alter the structure of nucleosomes and thus make the DNA more accessible

Gonadocorticoids

These include estrogen and testosterone They influence the growth and function of the gonads

Glucocorticoids

These influence nutrient metabolism in most cells They promote glucose utilization, fat mobilization and protein breakdown

Leucine Zipper Motif

Two a-helices intertwined due to leucine motifs Alternating leucine residues in both proteins interact ("zip up"), resulting in protein dimerization

cAMP

acts as a secondary messenger and activates protein kinase A.

CREB protein

another regulatory transcriptional factor CREB is an acronym for cAMP response element-binding CREB protein becomes activated in response to cell-signaling molecules that cause an increase in the cytoplasmic concentration of cAMP Cyclic adenosine monophosphate

CRE

cAMP response element: CREB protein recognizes a response element with the consensus sequence 5'-TGACGTCA-3' This has been termed a cAMP response element (CRE)

some chromatin modeling thingies

change in nucleosome position histone eviction replacement with histone variants

DNA methyltransferase

converts hemimethylated DNA to fully methylated DNA

heterodimers

formed by two different transcription factors

Homodimers

formed by two identical transcription factors

GRE

glucocorticoid response elements: These function as enhancers GREs are located near dozens of different genes, so the hormone can activate many genes

DNA methylation

is a change in chromatin structure that silences gene expression Carried out by the enzyme DNA methyltransferase It is common in some eukaryotic species, but not all Yeast and Drosophila have little DNA methylation Vertebrates and plants have abundant DNA methylation In mammals, ~ 2 to 7% of the DNA is methylated

hemimethylated

only one strand is methylated

Methylation of CpG islands:

prevents activation of enhancers

recognition helix

recognizes and makes contact with a base sequence along the major groove of DNA

methyl CPG binding protein

recruits other proteins that change the chromatin to a closed conformation