1. How does the structure of Gal4p relate to its function? Make sure to include the structure and function of Gla4p in your answer.
This is the structure of GAL4p (I derived this structure with the help of Pymol software). Now, GAL4p is a transcription activator. So it has mainly two domains, one is a DNA binding domain which has different DNA binding secondary structures and the other is the activation domain. The activation domain recruits RNA polymerase at the promoter region and induces transcription of the target gene. GAL4p generally binds at the DNA region known as Upstream Activating Sequence and was first discovered in yeast.
1. How does the structure of Gal4p relate to its function? Make sure to include the...
atp is critical to all cells. how does the structure of atp relate to the function of atp. what is the overall atp hydrolyzing and synthesizing reaction
how does your ear receive and interpret sounds waves? make sure to include information about how the vibrations transfer.
How does molecular structure relate to the properties that we can see?
What is the major function of the large artery and how does its structure enable it to function efficiently?
1- how does structure/function relationship illustrate/explain cystic fibrosis 2- how does structure/function relationship illustrate sickle cell disease?
How does the structure and properties of an organic molecular impact its function for a cell or tissue? (consider different types of lipids and amino acids/protein structure). Explain five examples.
Give the structure or name (whichever is appropriate) for the following. Make sure to include stereochemistry when needed. Read section 10.3 and watch alkene nomenclature video. (E-3-methyl-2-heptene (Z)-1,3,5-tribromo-2-pentene
15) Fill in the following table. For the VSEPR structure, make sure to include all nonbonding electron pairs, formal charges on atoms, and draw an arrow representing the net dipole moment if the molecule or ion has one: Name the molecular Name the electron Molecular Formula VSEPR structure pair geometry geometry AIB 3 AsBr4 BrOCl So2 SeO22
Proteins vary dramatically in structure; DNA strands are very similar in structure. How does this observation about differences in structure relate to differences in function between the two classes of biological molecules? How does the rather simple structure of DNA contain the information for such a complex and varied collection of proteins?
3b: a simple tertiary structure. Be sure to save an image for your lab report. Observe: Draw a sketch of the peptide, including where you would expect to find H-bonds and the location of the hydrophobic amino acids. Reflect: How does primary sequence relate to the stability of the peptide's folded structure? In other words, how does the pattern of hydrophobic residues effect protein stability? Briefly examine you prelab model and describe any changes you might make.