Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

The Fig illustrates the effects of mutations on the stability, flexibility, compactness, and interactions of the AKT2-Akt1/Akt2-IN-1 through molecular dynamics simulations. by Sadia Afrin Runa (22504971)

Subjects:

AZ10606120 treatment significantly increased cytotoxicity and reduced cell number in a dose-dependent manner. by Matthew Drill (22258391)

(A) Duration of contacts, (B) Distance covered, (C) Number of interacting contacts, (D) Number of frozen events for social interaction test. by Hammad Ismail (4227988)

Hdc does not interact with JNK, E-cad and EGFR in the PSC. by Bayan Kharrat (19959505)

Myeloid knockout <i>VANGL2</i> exacerbates the progression of DSS-induced colitis in mice. by Huaji Jiang (16907514)

Down-regulation of VANGL2 in IBD patients triggers overt activation of NLRP3 inflammasome. by Huaji Jiang (16907514)

Lys823 in NLRP3 is essential for its K27-linked ubiquitination and autophagic degradation. by Huaji Jiang (16907514)

VANGL2 specifically inhibits the activation of NLRP3 inflammasome. by Huaji Jiang (16907514)

VANGL2 recruits NLRP3 to OPTN for selective autophagic degradation. by Huaji Jiang (16907514)

VANGL2 recruits MARCH8 to promote the K27-linked ubiquitination of NLRP3. by Huaji Jiang (16907514)

Potential targets and PPI networks of PA against osteosarcoma. by Zeyu Zhan (22305085)

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”