BICH CH. 4 : Amino Acids
AA polar - charged R groups
aspartate & glutamate -participle in ionic interactions -can be H bond ACCEPTORS
_____ side chains will form favorable interactions w/ water & each other (hydrophilic); ___-_____ side chains will interact w/ each other rather than w/ water or polar side chains (hydrophobic)
polar; non-polar
in a biological system, we classify molecules on the basis of their ________, their interaction w/ water (polar vs. nonpolar)
polarity
all amino acids are weak ________ acids
polyprotic *cationic form (+) <-> zwiterrion (neutral) <-> anionic form (-)
amino acids are the building blocks of ________
proteins
charge range for amino acids w/ NO charge on their R-group is
+1 --> -1
zwitterion charge of the amino group is __, of the carboxylate group is __, so the net charge is _
+1; -1, 0
all AAs have at least two acid-base groups:
- alpha-carboxyl group (pKa~2) - alpha-amino group (pKa~9)
pKa =
-log Ka
grouped according to various characteristics of their R groups:
-non-polar (hydrophobic) -polar (hydrophilic): uncharged, + charged, - charged
how to calculate pI
1. list all the pKa values in ascending order 2. calculate net charge for a pH range that includes each pKa value of all ionizable groups 3. identify the 2 pKa values that when titrated result in the net charge changing from +1->0->-1 4. use these 2 pKa's to calculate pI 5. pI = 1/2(pKi + pKj)
amino acid structure
1. primary amino group: -NH2 (exception is proline) 2. carboxylic acid: -COOH 3. hydrogen atom: -H 4. R group: side chain
ionizable side chain acronym
DEH CY KR: 3.9 (-), 4.1 (-), 6.0 (neutral), 8.4 (neutral), 10.5 (neutral), 10.5 (+), 12.5 (+)
__ is the ionization constant for a weak acid, HA, in water (HA -> H+ + A-)
Ka = [H+][A-]/[HA]
it is important to know the pI bc compounds are the _____ soluble when they have no net charge
LEAST
for AA: +1 --> -1 for __ charge on R group; +2 --> -1 for _ charged R-group (His, Arg, Lys); +1 --> -2 for _ charged R-group (Asp, Glu)
NO; +; -
classification of amino acids is based on _ _____ (or side chain) which determines the structural range & general physical characteristics of the amino acids
R group
at high pH the ionizable groups are ___________- anionic form
deprotonated
_______ ____ are molecules such as amino acids that contain charged groups of opposite polarity, also called zwitterions (pH ~ 7.4)
dipolar ions
AA nonpolar aliphatic R groups
glycine, alanine, proline, valine, leucine, isoleucine, methionine -form hydrophobic interactions -will minimize contact w/ water & want to associate w/ other hydrophobic groups -will NOT form H-bonds or participate in ionic or dipole interactions
________ is a measure of the combine hydrophobicity & hydrophilicity of an AA--> indicative of the likelihood offending that residue in a protein interior: highly hydrophobic (interior of protein-avoid solvent), slightly hydrophilic, highly hydrophilic (exterior or protein-solvent exposed)
hydropathy
the pH at which the molecule carries no net charge is known as the
isoelectric point (or pI)
AA polar + charged R groups
lysine, arginine, histidine -participate in ionic interactions -can be H bond DONORS
for AA ionizable side chains, when pH > pKa, H+ is ___; when pH < pKa, H+ is __
off; on
AA aromatic R groups
phenylalanine & tryptophan (non-polar), tyrosine (polar uncharged)
at low pH all ionizable groups are ________ - cationic form
protonated
at physiological pH (~7.4) the amino groups are _______, the carboxylic acid groups are in their conjugate ____ form- _________
protonated; base; deprotonated
AA uncharged polar R groups
serine, threonine, cysteine, asparagine, glutamine -hydrophilic -participate in H bonds
the _______ the pKa, the more acidic the weak acid (the more likely the acid is to donate an H+)
smaller
amino acids are ____ acids-->only partially dissociate
weak
at mid pH range the _________ form dominates
zwitterionic
