Deck 21: Gene Expression: Transcription

Eukaryotic repression generally occurs by physical blockage of the promoter.

Embryonic development is orchestrated by a cascading series of genes, the expression of many of which are controlled in time and space by transcription factors and effector molecules of various kinds. But what controls the expression of the first regulatory genes to be transcribed in the newly fertilized zygote?

Gene silencing is a form of regulation controlled by repressor proteins.

Methylation, which in prokaryotes protects DNA from restriction, plays a role in gene silencing in eukaryotes.

Interference RNA technology is one of the most exciting new developments in genetics in recent years. In April 2004, Cancer Research UK and the Netherlands Cancer Institute announced creation of a 24,000-molecule iRNA library, designed to inactivate about 8,000 human genes. One hope for this library is its application in combating cancer. How might iRNA be implemented in cancer treatment?

Some genes that are expressed in the fetal stage are never expressed again in that individual's life. What do you think is the most common mechanism for affecting this, preventing the expression of such genes?

Plants produce steroids called phytosterols, which have various functions in plant physiology. Some phytosterols are thought to have a defensive function, however, specifically in repelling insect herbivores. How might plant-derived steroids help protect plants from insect attack?

In genetic imprinting, expression depends on the parent of origin of a given allele. How might imprinting affect the expression of a hypothetical autosomal disease that expresses in dominant fashion and recessive fashion, and how might imprinting be detected?

Steriod hormones are effector molecules.

Steroid and peptide hormone receptors are typically cytoplasmic.

Explain how combinatorial gene regulation permits regulation of a large diversity of genes with relatively few regulatory proteins.

Gene silencing in eukaryotes is often achieved through chromatin structure.

Imprinting is thought to be implicated in Prader-Willi and Angelman's syndromes.

Insect growth and metamorphosis is controlled by the steroid hormones ecdysone and juvenile hormone (JH). In insects like butterflies and moths with a distinct larval (juvenile) and adult stage, the relative amount of JH determines whether the insect molts to the next juvenile stage or switches to become an adult. Can you think of a way to use this hormonal system to control caterpillar agricultural pests?

What is the essential difference between the growth and reproductive strategies of prokaryotes and multicellular eukaryotes that help us understand why the latter have far more sophisticated regulatory mechanisms?

Describe the use of the DNA-degrading enzyme DNase I in experiments exploring the effect of chromatin on gene inactivation.

What would happen developmentally if a zygote with XY sex chromosome karyotype had a defective testosterone receptor?

Explain how the 3' untranslated AU-rich sequence element (ARE) can control poly(A) tail length (and thus mRNA translatability) in opposite ways.

Transcriptionally active genes show lower levels of DNA methylation when compared to transcriptionally inactive genes.

Recombinases mediate transcript processing from pre-mRNA to mature mRNA.

What are some advantages and disadvantages of arranging gene clusters into operons?

Several common protein structural motifs are now known to be involved in DNA recognition and binding. What are these, and how would researchers use genomic data to help figure out if new candidate genes encode such DNA-binding proteins?

Evolutionary biologists suspect that genetic imprinting evolved through parent-offspring conflict. What kinds of "conflict of interest" in progeny development can you imagine between mammalian parents?