Through a forward genetics screen in Arabidopsis you have identified a mutation that results in leaves curling upward, rather than being flat as in wild type. You have cloned the corresponding gene and note that it is a member of a small gene family composed of three additional members in Arabidopsis. How will you determine if the other three members of the gene family have similar or distinct functions as compared with the gene you first identified?

Although a single activator may bind many enhancers in the genome to control several target genes, in many cases, the enhancers have some sequence conservation but are not all identical. Keeping this in mind, consider the following hypothetical example:

- Undifferentiated cells adopt different fates depending on the concentration of activator protein, Act1.
- A high concentration of Act1 leads to cell fate 1, an intermediate level leads to cell fate 2, and low levels to cell fate 3.
- Research shows that Act1 regulates the expression of three different target genes (A, B, and C) with each having an enhancer recognized by Act1 but a slightly different sequence that alters the affinity of Act1 for the enhancer. Act1 has a high affinity for binding the enhancer for gene A, a low affinity for the gene B enhancer, and an intermediate affinity for the gene C enhancer.

From these data, speculate on how Act1 concentrations can specify different cell fates through these three target genes? Furthermore, which target genes specify which fates?

Hereditary spherocytosis (HS) is a disorder characterized by sphere-shaped red blood cells, anemia, and other abnormal traits. Ankyrin-1 (ANK1) is a protein that links membrane proteins to the cytoskeleton. Loss of this activity is associated biochemically to HS. However, Gallagher et al. (2010) (J. Clin. Invest. 120:4453–4465) show that HS can also be caused by mutations within a region from -282 to -101 relative to the transcriptional start site, which lead to constitutive transcriptional repression in erythroid cells due to local chromatin condensation. Propose a hypothesis for the function of the -282 to -101 region of the ANK1 gene.

Transcription factors play key roles in the regulation of gene expression, but to do so, they must act within the nucleus. Like most proteins, however, transcription factors are translated in the cytoplasm. To enter the nucleus, transcription factors contain nuclear localization signals, which in some cases can work only when bound to some other molecule such as a steroid hormone. After entering the nucleus, transcription factors must bind to appropriate DNA sites and must interact with other transcription proteins at promoters, enhancers, and silencers. Transcription factors then activate or repress transcription through their activation or repression domains. Many drug therapies target transcription factors. Based on the information provided above, suggest three specific mechanisms through which a successful drug therapy, targeted to a transcription factor, might work.

Which of the following terms describes the study of physical interactions between DNA, RNA, and Protein?

Which of the following methods is used to study protein interactions in live cells?

Which of the following methods is used to study protein-DNA interactions?