Peptide 1 (one-letter-codes, no punctuation between letters) will bind more tightly to (one-letter- exchange column than...
Peptides can be separated using an ion-exchange column based on their isoelectric (pl) values. At which pH values would two different peptides, one with a pl of 5.0 and the other with a pl of 9.2, bind to a cation- and anion-exchange column? Each peptide may be capable of binding to each column at more than one pH value. anion-exchange column at pH = 3.0 cation-exchange column at pH = 3.0 Answer Bank peptide B pI = 9.2 peptide A...
uestion 3 of 9 > Peptides can be separated using an ion-exchange column based on their isoelectric (pl) values. At which pH values would two different peptides, one with a pl of 5.7 and the other with a pl of 9.2, bind to a cation- and anion-exchange column? Each peptide may be capable of binding to each column at more than one pH value. anion-exchange column at pH = 3.0 cation-exchange column at pH = 3.0 Answer Bank peptide B...
0 0 0 N-term он O CH OH 1) Identify amino acids 1-7 using three letter codes or full names. [3.5 min] 2) What class of peptide mimetic is this? [1.5 min] 3) Describe 2 advantages of peptide mimetics as comparted to small molecule therapeutics. [2 min] 4) Describe 2 disadvantages of peptide mimetics as compared to small molecule therapeutics. [2 min] 5) What type of protein target would be better suited for a peptide mimetic approach rather than a...
1) Consider the following two pentapeptides (one letter codes): LARGE & SMALL a) Draw the structure for LARGE at pH=7. b) Which pentapeptide is more water soluble and why?
1. Given the following peptide, which of the following statements is true? Question options: a) The N-terminal residue is leucine. b)This peptide contains 4 amino acid residues. c) The peptide contains a total of 6 ionizable groups. d) The net charge of this peptide at pH 7 is +1 Locate any peptide bond along the backbone of the given peptide. e) The bond between the C (of the C=O) and the N (of the N-H) of a peptide bond has...
13. Suppose a second enzyme binds the substrate even more tightly than the enzyme shown in model 1 (the ES complex is more stable than the one shown in graph B). Draw this new E.S complex on graph B. What happens to the magnitude of the activation energy, AGact? 14. Suppose a third enzyme binds the transition state even more tightly than the enzyme diagramed Model 2. What happens to the magnitude of the activation energy, AGact? Model 2 Generalized...
For multiple-choice questions, cirele the letter of the one best answer (unless more than one answer is asked for). Show your work on free-response questions. Be sure to use proper units and significant figures in your final answers. Organization and neatness count, too. Do NOT use red ink please reserve that color for grading. 1. For each arrangement of point charges below, neatly draw between 12 and 16 electric field lines. Indicate direction on ALL field lines with arrowheads. Show...
How many three-letter "words" can be made from 6 letters "FGHIJK" if repetition of letters (a) is allowed? An access code consists of 1 letter of the alphabet followed by 6 digits. (Digits are 0, 1, 2, 3, 4, 5, 6, 7, 8, 9.) How many different access codes are possible? A jar contains 9 red marbles, numbered 1 to 9, and 12 blue marbles numbered 1 to 12. a) A marble is chosen at random. If you're told the...
For multiple-choice questions, circle the letter of the one best answer (unless more than one answer is asked for). Show your work on free-response questions. Be sure to use proper units and significant figures in your final answers. Organization and neatness count, too. Do NOT use red ink-please reserve that color for grading. 1. For each arrangement of point charges below, neatly draw between 12 and 16 electric field lines. Indicate direction on ALL field lines with arrowheads. Show the...
(b.) Huffman code is a way to encode information using variable-length binary strings to represent symbols depending on the frequency of each individual letter. Specifically, letters that appear more frequently can be encoded into strings of shorter lengths, while rarer letters can be turned into longer binary strings. On average, Huffman code is a more efficient way to encode a message as the number of bits in the output string will be shorter than if a fixed-length code was used....