Cell proliferation was significantly decreased in full-length HPV16 E1 (pEGFP-E1) transfected cells. by Fern Baedyananda (11888703)

Subjects:

Comparison of the statistical significance between t-tests with C₁ = 40 and CTOT with C₁ = 32. by Wei Zhuang (146641)

Correlation between treatment-induced changes in lumbar motor control and N150 amplitude. by Soheila Qanbari (20455173)

Subjects:

Differences between median equivalized net income changes and food price changes (measured in national currencies, EU-27 in euro) relative to 2019 (p.p.). by Karolina Pawlak (13813008)

Linear relationships (Spearman’s r (p-value)) the treatment-induced changes in clinical and neurophysiological data. by Soheila Qanbari (20455173)

Subjects:

Changes in the viability of <i>S</i>. <i>japonicum</i> juveniles <i>in vitro</i>. by Jing Xu (15337)

Changes in the viability of <i>S</i>. <i>japonicum</i> female worms <i>in vitro</i>. by Jing Xu (15337)

Changes in the viability of <i>S</i>. <i>japonicum</i> male worms <i>in vitro</i>. by Jing Xu (15337)

The expression of miR-122 is decreased as liver fibrosis progressed. by Young Chang (3666829)

Subjects:

Changes in the share of food in the inflation basket in EU countries relative to 2020 (p.p.). by Karolina Pawlak (13813008)

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale by Or Eivgi (1677280)

“…Polymer growth induces physical changes to catalyst microenvironments. Here, these physical changes are quantified in real time and are found to influence microscale chemical catalysis and the polymerization rate. …”