Line graph illustrating mean body weight (in grams) at weekly intervals during the treatment phase. by Elsie D. Oduor (22521785)

Line graph illustrating mean food intake (g) at weekly intervals during the treatment phase. by Elsie D. Oduor (22521785)

6:2 Chlorinated Polyfluoroalkyl Ether Sulfonate (F-53B) Induces Aging and Parkinson’s Disease-like Disorders in <i>C. elegans</i> at Low Concentrations by Hui Li (32376)

“…After exposure to F-53B at 2, 10, and 50 ng/L, C. elegans showed an aging phenomenon as lipofuscin was significantly increased by 48.7–57.5% and locomotion, such as center point speed, was significantly decreased in all exposure groups. …”

6:2 Chlorinated Polyfluoroalkyl Ether Sulfonate (F-53B) Induces Aging and Parkinson’s Disease-like Disorders in <i>C. elegans</i> at Low Concentrations by Hui Li (32376)

“…After exposure to F-53B at 2, 10, and 50 ng/L, C. elegans showed an aging phenomenon as lipofuscin was significantly increased by 48.7–57.5% and locomotion, such as center point speed, was significantly decreased in all exposure groups. …”

6:2 Chlorinated Polyfluoroalkyl Ether Sulfonate (F-53B) Induces Aging and Parkinson’s Disease-like Disorders in <i>C. elegans</i> at Low Concentrations by Hui Li (32376)

“…After exposure to F-53B at 2, 10, and 50 ng/L, C. elegans showed an aging phenomenon as lipofuscin was significantly increased by 48.7–57.5% and locomotion, such as center point speed, was significantly decreased in all exposure groups. …”

6:2 Chlorinated Polyfluoroalkyl Ether Sulfonate (F-53B) Induces Aging and Parkinson’s Disease-like Disorders in <i>C. elegans</i> at Low Concentrations by Hui Li (32376)

“…After exposure to F-53B at 2, 10, and 50 ng/L, C. elegans showed an aging phenomenon as lipofuscin was significantly increased by 48.7–57.5% and locomotion, such as center point speed, was significantly decreased in all exposure groups. …”

(a) Surface area and volume change with water level; (b) Topographic changes in the Caspian Sea. by Zihao Duan (17403792)

Graded loading creep stress loading level. by Dengke Yang (842532)

“…The results reveal that (1) freeze-thaw cycles exert a significant influence on the rock’s creep behavior, with axial strain, instantaneous strain, and creep strain increasing progressively with the number of freeze-thaw cycles; (2) dual-fractured rock samples with varying fracture angles exhibit distinct differences in creep phenomena, where increased fracture angles result in pronounced increases in instantaneous and creep strains, and higher horizontal stress levels lead to greater strain generation; (3) all rock samples with different pre-existing fractures exhibit rock bridge breakthrough during creep failure, and the variation in fracture angle affects the failure mode; (4) and the long-term strength of the rock varies with changes in fracture angle and freeze-thaw cycle frequency, showing an increasing trend with greater fracture angles but a rapid decrease with increasing freeze-thaw cycles. …”

Schematic diagram of rock samples. by Dengke Yang (842532)

“…The results reveal that (1) freeze-thaw cycles exert a significant influence on the rock’s creep behavior, with axial strain, instantaneous strain, and creep strain increasing progressively with the number of freeze-thaw cycles; (2) dual-fractured rock samples with varying fracture angles exhibit distinct differences in creep phenomena, where increased fracture angles result in pronounced increases in instantaneous and creep strains, and higher horizontal stress levels lead to greater strain generation; (3) all rock samples with different pre-existing fractures exhibit rock bridge breakthrough during creep failure, and the variation in fracture angle affects the failure mode; (4) and the long-term strength of the rock varies with changes in fracture angle and freeze-thaw cycle frequency, showing an increasing trend with greater fracture angles but a rapid decrease with increasing freeze-thaw cycles. …”

Rock mechanics testing machine. by Dengke Yang (842532)

“…The results reveal that (1) freeze-thaw cycles exert a significant influence on the rock’s creep behavior, with axial strain, instantaneous strain, and creep strain increasing progressively with the number of freeze-thaw cycles; (2) dual-fractured rock samples with varying fracture angles exhibit distinct differences in creep phenomena, where increased fracture angles result in pronounced increases in instantaneous and creep strains, and higher horizontal stress levels lead to greater strain generation; (3) all rock samples with different pre-existing fractures exhibit rock bridge breakthrough during creep failure, and the variation in fracture angle affects the failure mode; (4) and the long-term strength of the rock varies with changes in fracture angle and freeze-thaw cycle frequency, showing an increasing trend with greater fracture angles but a rapid decrease with increasing freeze-thaw cycles. …”

Basic characteristics of the studies included. by Renáta Kiss-Miki (20760127)

Subjects:

List_of_studies_identified_31-JAN-2025. by Renáta Kiss-Miki (20760127)

Subjects:

Data_extraction_table_31-JAN-2025. by Renáta Kiss-Miki (20760127)

Subjects:

Supplementary Material for: Adult Patients with Hbs-Only Phenotype of Sickle Cell Disease have a Decreased Arginine/Asymmetric Dimethylarginine Ratio by figshare admin karger (2628495)

The role of LytA in functionally linking decreased NAM <i>O-</i>acetylation with <i>hsdS</i> inversions and colony phase. by Xiu-Yuan Li (3328056)

Table 1_Febuxostat may decrease the incidence of COVID-19 infection among patients with gout: a retrospective cohort study.docx by Weijie Wang (247184)

The requirement of LytA-associated proteins for linking decreased NAM <i>O-</i>acetylation with the orientations of <i>hsdS</i> inversions. by Xiu-Yuan Li (3328056)

Mean daily sediment transport (g m^-2 day^-1) under different vegetation types and soil cover in southeastern Utah, USA, 2004 to 2018. by Andrew Kulmatiski (833256)

BMI groups by SES. by Krystal Hunter (6820052)

“…For every increase in BMI, there was a decrease in the probability of PTB (OR = 0.923, 95% CI 0.915–0.931, P < 0.001). …”

BMISES_Data_Part2. by Krystal Hunter (6820052)

“…For every increase in BMI, there was a decrease in the probability of PTB (OR = 0.923, 95% CI 0.915–0.931, P < 0.001). …”