The nsP4-Q192L and C483Y mutations decrease the 4′-FlU sensitivity of both replication and transcription. by Peiqi Yin (6533747)

A schematic overview of the bioinformatic tools conducted in this study. by Zeynab Hosseinpoor (19762319)

Schema of the reflexology circuit and the stimulated reflex zones. a. by Karel Joineau (21799908)

Everolimus decreased mesangial TfR1 expression in α1^KICD89^Tg mice. by Alexandra Cambier (22307216)

(A) O2PLS−Scores scatter diagram; (B) Integrated analysis of the top 20 KEGG pathways. by Bingshuo Shi (21485387)

Descriptive statistics and estimated parameters of length-weight relationships (w = <i><i>a</i></i>L^<i>b</i>) for <i><i>E. erythropterus</i></i> before and after opening... by Jeong-Soo Gim (18058588)

Blood Pressure and LDL-C During Follow-up. by Karl Ingard (22582091)

“…The risk of cardiovascular death was significantly decreased (HR 0.64, 95% CI 0.41–0.998, <i>P</i> = 0.049) and the risk of fracture non-significantly increased (HR 1.47, 95% CI 0.95–2.27, <i>P</i> = 0.08) in the intervention group compared to the control group.…”

Baseline Characteristics of Included Patients. by Karl Ingard (22582091)

“…The risk of cardiovascular death was significantly decreased (HR 0.64, 95% CI 0.41–0.998, <i>P</i> = 0.049) and the risk of fracture non-significantly increased (HR 1.47, 95% CI 0.95–2.27, <i>P</i> = 0.08) in the intervention group compared to the control group.…”

qPCR and Western blotting of activation of CK8 receptor and RhoA/ROCK1 pathway proteins in Caco-2 cells treated with rTsSPc and IIL ES antigens. by Wen Wen Zheng (17721404)

Localization and conditional deletion of C/EBP in SKH1 mouse epidermis. by Kevin J. Mills (9270966)

Lipidomic analysis of epidermis using LC-IMS-CID-MS reveals major changes in CKO// epidermis. by Kevin J. Mills (9270966)

“…(p< 0.05 ANOVA). See (A) for lipid class nomenclature. (E) Dendrogram showing all 247 significantly changed lipids in CKO epidermis. …”

Conditional deletion of C/EBP in epidermis results in downregulation of transcripts and pathways associated with lipid biosynthesis in epidermis. by Kevin J. Mills (9270966)

(A) Monthly drug costs of patients in the ESAs group and Roxadustat group. by Jie Liu (15128)

Position of each slice of anthracite. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Minimal data set. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

Schematic of the experiment apparatus. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

A) KRAS-orientin docked complex illustrated in the 2-d interaction, B) 3-d interaction of KRAS-orientin, C) 2-d interaction between NTRK and orientin, and D) 3-d interaction patter... by Yashwanth Elumalai (21743452)

A) EGFR-orientin docked complex represented in the 2-d interaction, B) 3-d interaction of EGFR-orientin, C) 2-d interaction between ALK and orientin, and D) 3-d interaction pattern... by Yashwanth Elumalai (21743452)

Physicochemical properties of CO₂, CH₄ and N₂. by Danan Zhao (20861666)

“…The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. The increase in temperature has the greatest influence on the CO₂ absorption capacity, followed by the CH₄ and N₂ adsorption capacities. …”

The composition of the body of a mouldboard plough. by Xueting Ma (390540)