Name | Number Pages |
---|
2003 | 30 |
abstract | 25 |
biochemistry | 24 |
m. | 22 |
s. | 22 |
2004 | 21 |
protein | 21 |
studies | 21 |
dna | 21 |
2001 | 20 |
proteins | 18 |
2002 | 17 |
structure | 17 |
understanding | 17 |
enzyme | 17 |
a. | 17 |
research | 16 |
interactions | 16 |
chem | 16 |
y. | 16 |
laboratory | 16 |
j. | 15 |
function | 15 |
molecular | 15 |
use | 15 |
order | 14 |
enzymes | 14 |
university of illinois | 14 |
mechanism | 13 |
addition | 13 |
study | 13 |
development | 13 |
k. | 12 |
such | 12 |
characterization | 12 |
chemistry | 12 |
students | 12 |
important | 12 |
one | 11 |
gene | 11 |
regulation | 11 |
application | 11 |
methods | 11 |
h. | 11 |
1 | 11 |
2000 | 11 |
3 | 11 |
c. | 11 |
ability | 10 |
n. | 10 |
of | 10 |
mechanisms | 10 |
expression | 10 |
e. | 10 |
t. | 10 |
sci | 10 |
2 | 10 |
sequence | 10 |
j. biol | 10 |
2005 | 10 |
interested | 10 |
information | 10 |
r. | 9 |
department | 9 |
program | 9 |
structures | 9 |
cellular biology | 9 |
synthesis | 9 |
complex | 9 |
techniques | 9 |
press | 9 |
reaction | 9 |
identification | 9 |
first | 9 |
l. | 9 |
bacteria | 9 |
molecular biology | 9 |
crystallography | 9 |
p. | 9 |
d. | 9 |
biophys | 9 |
4 | 9 |
kinetic | 8 |
modifications | 8 |
structural | 8 |
essential | 8 |
department of biochemistry | 8 |
b | 8 |
b. | 8 |
course | 8 |
etc. | 8 |
proc | 8 |
mutagenesis | 8 |
work | 8 |
biochemical | 8 |
collaboration | 8 |
chemical | 8 |
more | 8 |
g. | 8 |
m.a. | 8 |
w. | 8 |
cell | 8 |
biochemistry 455 | 8 |
note | 8 |
binding | 8 |
biochemistry 42 | 8 |
crystal structure | 8 |
example | 8 |
ph | 8 |
biology | 7 |
reactions | 7 |
specificity | 7 |
receptor | 7 |
other | 7 |
due | 7 |
time | 7 |
x. | 7 |
role | 7 |
j.a. | 7 |
li | 7 |
affinity | 7 |
evolution | 7 |
f. | 7 |
1994 | 7 |
many | 7 |
applications | 7 |
eds | 7 |
apoptosis | 7 |
1999 | 7 |
escherichia coli | 7 |
step | 7 |
transcription | 7 |
acad | 7 |
mass spectrometry | 7 |
membrane | 7 |
relationships | 7 |
s.a. | 7 |
analysis | 7 |
vivo | 6 |
rna | 6 |
lab | 6 |
j.r. | 6 |
purification | 6 |
membranes | 6 |
questions | 6 |
pp | 6 |
active site | 6 |
r.j. | 6 |
degree | 6 |
catalyze | 6 |
substrate | 6 |
site | 6 |
isolation | 6 |
location | 6 |
biophysics | 6 |
selection | 6 |
process | 6 |
catalysis | 6 |
model | 6 |
natl | 6 |
variety | 6 |
v. | 6 |
enolase superfamily | 6 |
5 | 6 |
d.m. | 6 |
engineering | 6 |
nature | 6 |
particular | 6 |
1998 | 6 |
mol | 6 |
light | 6 |
i. | 6 |
johnson | 6 |
fact | 5 |
number | 5 |
fluorescence | 5 |
general | 5 |
goals | 5 |
background | 5 |
will | 5 |
structure of | 5 |
immunology | 5 |
enzymology | 5 |
substrates | 5 |
student | 5 |
biological | 5 |
nucleotide | 5 |
possible | 5 |
cho | 5 |
biology workbench | 5 |
group | 5 |
activity | 5 |
structural biology | 5 |
project | 5 |
new | 5 |
screening | 5 |
j. am | 5 |
functions | 5 |
total | 5 |
inhibitors | 5 |
useful | 5 |
q. | 5 |
ii | 5 |
complete | 5 |
graduate students | 5 |
response | 5 |
bind | 5 |
approach | 5 |
cloning | 5 |
fluorescence techniques | 5 |
miller | 5 |
school | 5 |
serial dilutions | 5 |
faculty | 5 |
comparison | 5 |
construction | 5 |
goal | 5 |
jr. | 5 |
contact | 5 |
several | 5 |
microbiology | 5 |
biosynthesis | 5 |
cellular | 5 |
members | 5 |
resolution | 5 |
urbana | 5 |
aa | 5 |
nucleic acids | 5 |
change | 5 |
assay | 5 |
complexes | 5 |
j.e. | 5 |
transfer | 5 |
science | 5 |
biological systems | 5 |
applicants | 5 |
methanococcus jannaschii | 5 |
chem. 278 | 5 |
able | 5 |
available | 5 |
bacillus subtilis | 5 |
determination | 5 |
center | 5 |
changes | 5 |
molecules | 5 |
proton | 5 |
materials | 5 |
potential | 5 |
nmr spectroscopy | 5 |
assembly | 5 |
spectroscopy | 4 |
calculation of extinction coefficients | 4 |
standard curves | 4 |
tlc | 4 |
dynamics | 4 |
biochem | 4 |
limited | 4 |
two | 4 |
total protein quantitation | 4 |
data entry | 4 |
system | 4 |
programmed cell death | 4 |
eukaryal rna polymerases | 4 |
c.p. | 4 |
j. mol | 4 |
representative publications | 4 |
protein science 9 | 4 |
partition chromatography | 4 |
kinetics | 4 |
bioorganic chemistry | 4 |
r.a. | 4 |
genes | 4 |
receptors | 4 |
fems micro | 4 |
clear | 4 |
8 | 4 |
olsen gj | 4 |
liu | 4 |
implications | 4 |
acid | 4 |
introduction | 4 |
discovery | 4 |
two common protein assays | 4 |
1991 | 4 |
gerlt | 4 |
undergraduate students | 4 |
method | 4 |
1996 | 4 |
il | 4 |
charge | 4 |
sligar | 4 |
j.m. | 4 |
triplicate data | 4 |
resistance | 4 |
edman degradation | 4 |
responsible | 4 |
novel | 4 |
smith | 4 |
cancer | 4 |
ammonium sulfate precipitation | 4 |
semester | 4 |
preparative | 4 |
13c | 4 |
pathways | 4 |
importance | 4 |
interest | 4 |
form | 4 |
ki | 4 |
departmental approval | 4 |
similar subunit architecture of archaeal | 4 |
active enzyme | 4 |
brown | 4 |
organic extraction | 4 |
biological membranes | 4 |
volume | 4 |
synthase | 4 |
energetics | 4 |
protein synthesis | 4 |
class | 4 |
ion exchange chromatography | 4 |
epimerases | 4 |
enzyme assays | 4 |
nat | 4 |
university of california | 4 |
biol | 4 |
gst | 4 |
printed | 4 |
mapping | 4 |
mcb | 4 |
products | 4 |
sequence analysis | 4 |
p.m. | 4 |
lab skills | 4 |
detection | 4 |
kinetic analysis | 4 |
t cell receptor | 4 |
heat denaturation | 4 |
biochemistry curriculum | 4 |
financial support | 4 |
solution | 4 |
calculation of kinetic constants | 4 |
results | 4 |
bioinformatics | 4 |
assays of | 4 |
cell biology | 4 |
phone | 4 |
natural source | 4 |
270 lincoln hall | 4 |
original articles | 4 |
role of phosphorylation | 4 |
paper chromatography | 4 |
training | 4 |
small peptide | 4 |
total hydrolysis | 4 |
of monod | 4 |
construction of purification table | 4 |
copy | 4 |
rational design | 4 |
accurate pipetting | 4 |
u | 4 |
lowry | 4 |
thomas | 4 |
las college office | 4 |
rna polymerase subunits | 4 |
calculation of km | 4 |
spread sheet | 4 |
properties | 4 |
research notebook | 4 |
amino acid sequence analysis | 4 |
domain | 4 |
ed | 4 |
chen | 4 |
vmax | 4 |
can | 4 |
curve fitting | 4 |
specific activity | 4 |
binds | 4 |
alpha peptide | 4 |
size | 4 |
growth | 4 |
biochemical characterization | 4 |
10 | 4 |
biotechnology | 4 |
monoclonal antibodies | 4 |
second | 4 |
means | 4 |
total protein concentration | 4 |
lac operon | 4 |
yeast | 4 |
amino acid composition | 4 |
kinetic assays of | 4 |
j. 83 | 4 |
recognition | 4 |
structure of insulin | 4 |
analysis of hplc | 4 |
juers et al. | 4 |
fluorescence spectroscopy | 4 |
field | 4 |
design | 4 |
current research | 4 |
university | 4 |
wang | 4 |
ml | 4 |
interface | 4 |
1995 | 4 |
two different competitive inhibitors | 4 |
chemotaxis | 4 |
nobel | 4 |
mutations | 4 |
preparation | 4 |
total protein assays | 4 |
s.k. | 4 |
plants | 4 |
enzyme active site | 4 |
various temperatures | 4 |
d.h. | 4 |
1993 | 4 |
chem. 279 | 4 |
analytical scale procedures | 4 |
physical | 4 |
folin | 4 |
b.s. | 4 |
bradford | 4 |
original description | 4 |
lett. 195 | 4 |
3 lab periods | 4 |
bioinformatics tools | 4 |
1685 | 4 |
presence | 4 |
phosphorylation | 4 |
calculation | 4 |
uninhibited | 4 |
ms data | 4 |
visualization of purification progress | 4 |
conformation | 4 |
retrieval of sequence data | 4 |
requirements | 4 |
activity assays | 4 |
courses | 4 |
peptides | 4 |
zhao | 4 |
e.g. | 4 |
log | 4 |
unknown | 4 |
year | 4 |
monoclonal ascites | 3 |
international applicants | 3 |
annu | 3 |
combination | 3 |
catalyzes | 3 |
huang | 3 |
integrative physiology | 3 |
w.s. | 3 |
sciences | 3 |
students interested | 3 |
usa | 3 |
tuesday | 3 |
graduate assistantships | 3 |
spectrum of riboflavin | 3 |
colorimetric quantitation | 3 |
elisa | 3 |
ether | 3 |
sligar lab | 3 |
point | 3 |
1.0 100 2.8 2160 48 765 17 45 | 3 |
tot | 3 |
m.c. | 3 |
c | 3 |
opportunity | 3 |
computerized data analysis | 3 |
l | 3 |
a.j. | 3 |
e.v. | 3 |
lecture | 3 |
faculty advisor | 3 |
mg | 3 |
h | 3 |
enzymatic synthesis | 3 |
organization | 3 |
graduate | 3 |
o. | 3 |
3x | 3 |
of prey | 3 |
left | 3 |
reading | 3 |
covalent | 3 |
three step purification | 3 |
cells | 3 |
actv | 3 |
nature 227 | 3 |
gene expression | 3 |
agarose gel electrophoresis | 3 |
cofactor | 3 |
churchill | 3 |
ph.d. degree | 3 |
units | 3 |
impact | 3 |
full tuition | 3 |
hager | 3 |
transcription factors | 3 |
protein mixture | 3 |
molecular machines | 3 |
transcripts | 3 |
spectroscopic | 3 |
synthetase | 3 |
gel | 3 |
site specific | 3 |
u.s.a. | 3 |
option | 3 |
appointments | 3 |
immune | 3 |
e.a. | 3 |
680 | 3 |
archaea | 3 |
e.s. | 3 |
tse test scores | 3 |
phosphorylase activity | 3 |
r.m. | 3 |
evolutionary potential | 3 |
1980 | 3 |
transfer credit information | 3 |
enrollment | 3 |
computational biology | 3 |
full report | 3 |
signal transduction cascades | 3 |
original article | 3 |
s.g. | 3 |
determination of detection limit of coomassie | 3 |
education | 3 |
primary literature | 3 |
chemical biology | 3 |
test | 3 |
japan postdoc | 3 |
j.l. | 3 |
synge | 3 |
curr | 3 |
activation | 3 |
j.f. | 3 |
nmr | 3 |
source | 3 |
nonimmune rabbit sera | 3 |
barrels | 3 |
of dna | 3 |
partial purification | 3 |
illinois schools | 3 |
campbell | 3 |
compounds | 3 |
do | 3 |
laemmli | 3 |
structural studies of | 3 |
illinois state law | 3 |
academic press | 3 |
tools | 3 |
usa 100 | 3 |
mutant | 3 |
western detection of bait | 3 |
5 lab periods | 3 |
restriction mapping | 3 |
kranz | 3 |
interaction | 3 |
. | 3 |
6 | 3 |
j. w. | 3 |
arch | 3 |
w.e. | 3 |
pathway | 3 |
focus | 3 |
relationship | 3 |
fall | 3 |
rhodobacter sphaeroides | 3 |
1987 | 3 |
purif | 3 |
antigens | 3 |
formation | 3 |
institute | 3 |
comparison of mobility of igg | 3 |
structural basis | 3 |
histidine residue | 3 |
effects of amp | 3 |
antibodies | 3 |
bc1 complex | 3 |
rates | 3 |
murphy | 3 |
functional genomics | 3 |
recombination | 3 |
1970 | 3 |
diversity | 3 |
environment | 3 |
sealed envelopes | 3 |
sequences | 3 |
e. coli | 3 |
of krebs | 3 |
rna molecules | 3 |
orotidine 5 | 3 |
unpurified sera | 3 |
u.s. citizens | 3 |
pig heart muscle | 3 |
degradation | 3 |
regard | 3 |
triplicate data analysis | 3 |
substitutions | 3 |
allosteric regulation | 3 |
name | 3 |
evidence | 3 |
las | 3 |
folding | 3 |
observation | 3 |
chromatography | 3 |
functional assignment | 3 |
biol. 10 | 3 |
plant | 3 |
model system | 3 |
is | 3 |
elsevier | 3 |
antibiotics | 3 |
soc. 125 | 3 |
covalent regulation of glycogen phosphorylase | 3 |
knowledge | 3 |
affinity chromatography | 3 |
utility | 3 |
approval | 3 |
western blot | 3 |
gene 67 | 3 |
williams | 3 |
understanding expression vectors | 3 |
projects | 3 |
same | 3 |
b.j. | 3 |
processing | 3 |
localization | 3 |
k.m. | 3 |
quantitation | 3 |
proton transfer | 3 |
examination | 3 |
room 420a ral | 3 |
viral | 3 |
oxidases | 3 |
finding | 3 |
confirmation of protein gene sequences | 3 |
standard electrophoresis apparatus | 3 |
yield spec | 3 |
technology | 3 |
electrophoretic transfer | 3 |
applications of | 3 |
molecular recognition | 3 |
nucleotides | 3 |
genetics | 3 |
catalyze different reactions | 3 |
glycogen | 3 |
p.c. | 3 |
textbooks | 3 |
scores | 3 |
a.r. | 3 |
biochemistry department | 3 |
1 lab period | 3 |
regulation of | 3 |
n.l. | 3 |
membrane proteins | 3 |
communication skills | 3 |
15n | 3 |
plasma membrane | 3 |
plasmid dna sequencing | 3 |
interaction of rna polymerase subunits | 3 |
small proteins | 3 |
graduate program | 3 |
physiology | 3 |
sample preparation | 3 |
rapid | 3 |
data | 3 |
fisher | 3 |
editing | 3 |
molecular level | 3 |
kinetic assays | 3 |
partial fee waiver | 3 |
crystallographic | 3 |
understanding hybridoma production | 3 |
cultural studies | 3 |
m.w. | 3 |
strategies | 3 |
necessary | 3 |
mab | 3 |
hydrolysis | 3 |
inc. | 3 |
place | 3 |
1988 | 3 |
dna sequence | 3 |
degrees | 3 |
of martin | 3 |
h.l. | 3 |
orginal description of pgex vectors | 3 |
three | 3 |
total protein | 3 |
aqueous | 3 |
specific antigen protein | 3 |
major | 3 |
salmonella enterica serovar typhimurium | 3 |
properties of polyclonal | 3 |
j. a. | 3 |
acceptable | 3 |
photocopies | 3 |
r.s. | 3 |
catalytic activity | 3 |
similar | 3 |
temperature | 3 |
dehydrogenase | 3 |
strong | 3 |
teaching | 3 |
conversion of glycogen | 3 |
components | 3 |
transformation | 3 |
restriction digests | 3 |
fluorescence anisotropy microplate assay | 3 |
oxidase | 3 |
top | 3 |
area | 3 |
scholarship | 3 |
advances | 3 |
phosphorylase kinase | 3 |
protocols | 3 |
2 periods | 3 |
sanger first lecture | 3 |
conformational | 3 |
domains | 3 |
toefl | 3 |
additional information | 3 |
1982 | 3 |
protons | 3 |
enolase | 3 |
abstraction | 3 |
current list | 3 |
mechanistic | 3 |
official | 3 |
discussion | 3 |
protein engineering | 3 |
biochemistry office of student affairs | 3 |
7 | 3 |
ets | 3 |
j. h. prestegard | 3 |
stability | 3 |
photosynthesis | 3 |
2 lab periods | 3 |
arabidopsis thaliana | 3 |
biological molecules | 3 |
evolution of enzymatic | 3 |
selectivity | 3 |
g.s. | 3 |
page | 3 |
mathematics | 3 |
certain | 3 |
less | 3 |
epr | 3 |
incorporation | 3 |
protein structure | 3 |
titers of purified sera | 3 |
xu | 3 |
1997 | 3 |
review | 3 |
electron transfer | 3 |
t.m. | 3 |
simulation | 3 |
d.j. | 3 |
speakers of english | 3 |
sites | 3 |
600 s mathews ave urbana | 3 |
office | 3 |
appointment | 3 |
date | 3 |
role of | 3 |
soluble | 3 |
functional promiscuity | 3 |
iv | 3 |
crystallographic evidence | 3 |
intermediates | 3 |
analyzing | 3 |
m.d. | 3 |
clicking | 3 |
modeling | 3 |
d.c. | 3 |
genetic recombination | 3 |
characterization of | 3 |
genetic | 3 |
differentiation | 3 |
m. inouye | 3 |