Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Tadpole-like Unimolecular Nanomotor with Sub-100 nm Size Swims in a Tumor Microenvironment Model by Huaan Li (6812009)

“…To address this problem, a unimolecular nanomotor based on molecular bottlebrush (MBB) of sub-100 nm size is reported. …”

Stx2 and SubAB decrease HGEC viability. by María M. Amaral (439445)

IL-1β decreases RBP4 production. by Primoz Kotnik (382835)

miR-24 levels decrease with replicative senescence. by Ashish Lal (43926)

LPLI decreases the transcription activity of NFκB. by Jyun-Yi Wu (103136)

APC decreases epithelial cytotoxicity induced by histones but not by NET. by Mona Saffarzadeh (180792)

ANG II treatment leads to decreased contractile function. by Renita E. Horton (847891)

“…(E) Representative stress traces generated from x-projections of films (F) ANG II treatment leads to a decrease in contractile stress generation. Control n = 85 tissues, 5 nM n = 15 tissues, 100 nM n = 69 tissues, 3 harvests. …”

Triton-induced autolysis is decreased in the absence of WalH. by Olivier Poupel (228687)

“…Lysis was determined as the decrease in OD_{600 nm} over time and indicated as a percentage of the initial OD (measured OD_{600 nm} / initial OD_{600 nm}). …”

hESCs-CM decreased cancer cells growth. by Shufeng Zhou (398572)

Activation of PAR2 decreased the frequency of mEPSCs. by Petra Mrozkova (3226530)

“…<b>(C)</b> Application of SLIGKV-NH₂ (100 μM, 4 min) decreased the mEPSC frequency (n = 17; ***p < 0.001) compared to the pretreatment period (100%). …”

U-46119 decreases blood flow in the SVZ in vivo. by Benjamin Lacar (332886)

Telomerase inhibition decreases the proliferation and tube formation of HUVECs. by Nadine Mahfouz (4097566)