Extensive Natural Variation for Cellular Hydrogen Peroxide Release Is Genetically Controlled by Homa Attar (138799)

“…We did not find replication of SNPs across all cohorts, but replication within the same genomic region. Finally, a highly significant decrease in H₂O₂ release was observed in Down Syndrome (DS) individuals (p<2.88×10−12). …”

Metabolomics of Microliter Hemolymph Samples Enables an Improved Understanding of the Combined Metabolic and Transcriptional Responses of <i>Daphnia magna</i> to Cadmium by Helen C. Poynton (1265052)

“…Crustacean hemolymph represents a largely untapped biochemical resource for such toxicity studies. We sought to characterize changes in the hemolymph metabolome and whole-body transcriptome to reveal early processes leading to chronic toxicity in the indicator species, <i>Daphnia magna</i>, after 24-h sublethal cadmium exposure (18 μg/L, corresponding to 1/10 LC₅₀). …”

Data_Sheet_1_Variation of the BrO/SO2 Molar Ratio in the Plume of Tungurahua Volcano Between 2007 and 2017 and Its Relationship to Volcanic Activity.PDF by Simon Warnach (6901565)

“…For five phases, we additionally observe a progressive decrease to the initial values of 2 to 5 × 10⁻⁵ toward the end of the phase. …”

Impact of Global <i>Fxr</i> Deficiency on Experimental Acute Pancreatitis and Genetic Variation in the <i>FXR - Figure 2 </i> Locus in Human Acute Pancreatitis by Rian M. Nijmeijer (208613)

EspO promotes neutrophile transmigration. by Cedric N. Berger (4544008)

Figure 2 from Repurposing Amiodarone for Bladder Cancer Treatment by Francisco J. Roa (21479153)

“…<p>Amiodarone decreases proliferation in bladder cancer cell lines. …”

data_sheet_1_Matrix Remodeling Associated 7 Deficiency Alleviates Carbon Tetrachloride-Induced Acute Liver Injury in Mice.docx by Dandan Lin (239047)

Hepatitis B Virus HBx Activates Notch Signaling via Delta-Like 4/Notch1 in Hepatocellular Carcinoma by Pornrat Kongkavitoon (845888)

Table_1_A comparison of the composition and functions of the oral and gut microbiotas in Alzheimer’s patients.docx by Lili Chen (66681)

Removal of Fast Flowing Nitrogen from Marshes Restored in Sandy Soils by Eric L. Sparks (651356)

“…Simulated groundwater flow into the marsh was introduced at a rate to mimic intense rainfall events. Restoration designs varied in initial planting density and corresponded to 25%, 50%, 75% and 100% of the plot area planted. …”

Quality measures of the reconstructed hierarchies for the “easy” synthetic data set. by Gergely Tibély (504070)

DataSheet12_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.pdf by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet6_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.pdf by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet1_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.PDF by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet2_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.PDF by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet8_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.pdf by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet14_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.PDF by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet3_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.PDF by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet7_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.pdf by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”

DataSheet10_Cost-Effective Transcriptome-Wide Profiling of Circular RNAs by the Improved-tdMDA-NGS Method.pdf by Ashirbad Guria (12539992)

“…<p>Covalently closed circular RNAs are neoteric to the eukaryotic family of long non-coding RNAs emerging as a result of 5′–3′ backsplicing from exonic, intronic, or intergenic regions spanning the parental gene. …”