|
antitumor agents |
4 |
|
asparagine synthetase |
4 |
|
cysteine thiol conjugation |
4 |
|
gold |
4 |
|
ligand reactivity |
4 |
|
n-heterocyclic carbenes |
4 |
|
platinum complexes |
4 |
|
porphyrin |
4 |
|
thermal proteome profiling |
4 |
|
archaeal secondary metabolites |
2 |
|
chemical biology |
2 |
|
endothelial cells |
2 |
|
lanthipeptide |
2 |
|
lipoprotein lipase |
2 |
|
nanosims |
2 |
|
ripp |
2 |
|
triglycerides |
2 |
|
accessible cholesterol |
1 |
|
accumulation |
1 |
|
adhesion |
1 |
|
anthrolysin o |
1 |
|
antibiotics |
1 |
|
apex chert |
1 |
|
archaean life |
1 |
|
atomic force microscopy |
1 |
|
backscattered electron imaging |
1 |
|
bio-nano interactions |
1 |
|
bone loss |
1 |
|
bromine |
1 |
|
bromotyrosine |
1 |
|
brown adipose tissue |
1 |
|
bundle sheath extension |
1 |
|
cadherin-17 |
1 |
|
carbon |
1 |
|
carrier localization |
1 |
|
chemotherapy |
1 |
|
cholesterol |
1 |
|
cholesterol efflux |
1 |
|
chylomicronemia |
1 |
|
chylomicrons |
1 |
|
collagen iv |
1 |
|
colloidal quantum dots |
1 |
|
correlative analysis |
1 |
|
cuticle |
1 |
|
dark-field light microscopy |
1 |
|
de novo protein design |
1 |
|
diastereomers |
1 |
|
electron microscopy |
1 |
|
extracellular vesicles |
1 |
|
fatigue |
1 |
|
fatty acids |
1 |
|
fluorescence imaging |
1 |
|
foliar absorption |
1 |
|
gastric cancer |
1 |
|
granum |
1 |
|
hair |
1 |
|
hdl metabolism |
1 |
|
hierarchical structures |
1 |
|
hole transport layer |
1 |
|
hypertriglyceridemia |
1 |
|
imaging |
1 |
|
immunotherapy |
1 |
|
immunotoxin |
1 |
|
innate host defense |
1 |
|
ischemia |
1 |
|
jingbo ma, xiaolong xu and chunjin fu are contribute equally to this work and share the first-authorship |
1 |
|
la-icp-ms |
1 |
|
lead sulfide |
1 |
|
light absorbance intensity |
1 |
|
lipid transport |
1 |
|
lipids |
1 |
|
lu (ly6/upar) protein family |
1 |
|
lxr |
1 |
|
macrophage migration inhibitory factor (mif) |
1 |
|
macrophages |
1 |
|
manganese |
1 |
|
membrane contact sites |
1 |
|
metabolism |
1 |
|
micro x-ray fluorescence |
1 |
|
microprobe |
1 |
|
microvilli |
1 |
|
midkine |
1 |
|
miss |
1 |
|
mrsa |
1 |
|
multimodal imaging |
1 |
|
myelin regulatory factor gene |
1 |
|
nanobodies |
1 |
|
nanobody |
1 |
|
nanomanufacturing |
1 |
|
nanometrology |
1 |
|
nanoscale imaging |
1 |
|
nanoscale secondary ion mass spectrometry |
1 |
|
nanoscopy |
1 |
|
nanosims imaging |
1 |
|
nanotoxicology |
1 |
|
nonvesicular transport |
1 |
|
nuclear architecture |
1 |
|
nucleoplasmic reticulum |
1 |
|
nutrient uptake |
1 |
|
obacunone |
1 |
|
oligodendrocyte precursor cell |
1 |
|
oligodendroglia |
1 |
|
oocytes |
1 |
|
osteoclast |
1 |
|
oxidation |
1 |
|
oxidative stress |
1 |
|
oyster |
1 |
|
p3ht |
1 |
|
pancreatic ductal adenocarcinoma |
1 |
|
perfringolysin o |
1 |
|
phosphate |
1 |
|
photocatalyst |
1 |
|
photothermal therapy |
1 |
|
pilbara |
1 |
|
pixe |
1 |
|
polarity control |
1 |
|
porous nanomaterial |
1 |
|
proliferation and differentiation |
1 |
|
protein design |
1 |
|
reactive oxygen species (ros) |
1 |
|
reproductive cycle |
1 |
|
second ion mass spectrometry (sims) |
1 |
|
silicate |
1 |
|
silver nanoparticles |
1 |
|
sims |
1 |
|
smooth muscle cells |
1 |
|
solar cell |
1 |
|
sonochemistry |
1 |
|
sperm cells |
1 |
|
sr-bi |
1 |
|
srebp |
1 |
|
stable isotope |
1 |
|
steroidogenesis |
1 |
|
stomata |
1 |
|
subcellular distribution |
1 |
|
sulfilimine cross-links |
1 |
|
sulphur |
1 |
|
sunflower |
1 |
|
synchrotron |
1 |
|
targeted delivery |
1 |
|
targeted therapy |
1 |
|
thermal barrier coatings (tbcs) |
1 |
|
titania |
1 |
|
toxicity |
1 |
|
transmission electron microscopy (tem) |
1 |
|
trichomes |
1 |
|
triglyceride oils |
1 |
|
uv emitters |
1 |
|
white adipose tissue |
1 |
|
x-ray absorption spectroscopy |
1 |
|
xfm |
1 |
|
zn foliar fertilizer |
1 |
