Draw the chemical structure of the trinucleotide GTA. Be sure to label the ends of the molecule and the bond that connects monomers.
Draw the chemical structure of the trinucleotide GTA. Be sure to label the ends of the...
Genetics To answer the prompts below, you will need to draw the chemical structure of the trinucleotide 5' - TCA - 3', labeling the 5' and 3' ends. Opposite this structure, draw the complementary trinucleotide to make a double-stranded DNA molecule. a. What is the complementary trinucleotide sequence from 5' to 3' (enter answer e.g. CGA) b. How many non-covalent hydrogen bonds stabilize this structure? c. How many covalent phosphate linkages stabilize this structure?
. What are the three chemical components of a nucleotide? Draw and label these on the structures of a double ring and a single ring nucleotide. Label all atoms other than carbon or hydrogen (e.g. nitrogen, oxygen, phosphorous). Be sure to draw double bonds where present. (4 pt) 4. Draw the structure of the chemical linkage that connects nucleotides in a nucleic acid DNA or RNA) polymer (I pt). . What are the three chemical components of a nucleotide? Draw...
Draw the structure of the trinucleotide ACU.
. What are the three chemical components of a nucleotide? Draw and label these on the structures of a double ring and a single ring nucleotide. Label all atoms other than carbon or hydrogen (e.g. nitrogen, oxygen, phosphorous). Be sure to draw double bonds where present. (4 pt) 4. Draw the structure of the chemical linkage that connects nucleotides in a nucleic acid DNA or RNA) polymer (I pt).
Give the chemical formula and draw the structure. You can use either the line-bond/skeleton structure or draw the full molecule. a) n-pentane b) n-octane
4) Draw the titration curves for the amino acids Lysine and Alanine. Be sure to label your axes. (5 pts) a) Identify the pKi, pK and pKR (if relevant) for each amino acid. b) Identify the buffering region around pKR for arginine c) Identify the pl of each amino acid d) Draw the structure of the primary chemical species in each pH region of the titration curve.
13) Draw a schematic diagram of a cell membrane. Be sure to label the exterior of the cell, interior of the cell, a membrane protein, a cholesterol molecule and a phospholipid molecule. (6 pts)
1H-NMR: interpret the spectrum detailing chemical shifts and splittings. draw the structure of the compound and label the hydrogens for the signals. 13C-NMR: draw the structure of the compound and label the carbons for the signals. IR: draw the structure of the compound and label functional groups that are responsible for the stretches. 100 7 90 80 70 60 20 10 0 -10 2500 Wavenumbers (cm-1) 1000 4000 3500 3000 1500 2000 %Transmittance 3075.91 2937.08 2805.05 2736.70 1593.81 1575.40 1508.95...
Draw the ribonucleotide CGU. Label the 5' and 3 ends.
Re-draw the chemical structure of cinnamaldehyde (from the Reaction Scheme) and use it to answer the following solubility-based questions: 1. Circle and label all regions of the molecule that exhibit non-polar behavior. 2. Circle and label the region of the molecule that exhibits polar behavior. 3. Water prefers to interact with solute molecules with what type of intermolecular force (choose one answer): hydrogen bonding, dipole-induced dipole, or induced dipole-induced dipole (London dispersion)? 4. Based on the answers to parts (a)-(c),...