Data_Sheet_1_Genome-Wide Characterization of Ascorbate Peroxidase Gene Family in Peanut (Arachis hypogea L.) Revealed Their Crucial Role in Growth and Multiple Stress Tolerance.ZIP by Ali Raza (3558965)

“…<p>Ascorbate peroxidase (APX), an important antioxidant enzyme, plays a significant role in ROS scavenging by catalyzing the decrease of hydrogen peroxide under various environmental stresses. …”

Data_Sheet_1_Genome-Wide Characterization of Ascorbate Peroxidase Gene Family in Peanut (Arachis hypogea L.) Revealed Their Crucial Role in Growth and Multiple Stress Tolerance.ZIP by Ali Raza (3558965)

“…<p>Ascorbate peroxidase (APX), an important antioxidant enzyme, plays a significant role in ROS scavenging by catalyzing the decrease of hydrogen peroxide under various environmental stresses. …”

Table_4_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_7_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_6_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_8_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Data_Sheet_3_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.DOCX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Data_Sheet_2_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.DOCX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_3_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Data_Sheet_4_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.DOCX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_2_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.XLSX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Table_1_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.DOCX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

Data_Sheet_1_Physiological and Proteomic Analysis of Different Molecular Mechanisms of Sugar Beet Response to Acidic and Alkaline pH Environment.DOCX by Gui Geng (6706085)

“…Limited data are available on sugar beet growth status under different pH conditions. In this study, we analyzed the growth status and phenotype of sugar beet under pH 5, pH 7.5, and pH 9.5. …”

DataSheet1_DNA Condensation Triggered by the Synergistic Self-Assembly of Tetraphenylethylene-Viologen Aggregates and CT-DNA.pdf by Sajena Kanangat Saraswathi (11169489)

“…Decrease in the hydrodynamic size, increase in the zeta potential value with the addition of TPE-V molecules to CT-DNA, failure of TPE-V/cucurbit(8)uril complex to condense CT-DNA, and the enhanced DNA condensation ability of TPE-V2 with two viologen units compared to TPE-V1 with a single viologen unit confirm the importance of positively charged viologen units in the DNA condensation process. …”

Monitoring intracellular K⁺ concentrations with GINKO2 in <i>E</i>. <i>coli</i> grown in K⁺-depleted media. by Sheng-Yi Wu (10887927)

“…<p>(A) <i>E</i>. <i>coli</i> are capable of accumulating K⁺ to a higher concentration than the environment. …”

SBDS expression is downregulated during human cord blood CD34⁺ neutrophil differentiation. by Claudia Orelio (217728)

“…(B) Representative quantitative RT-PCR analysis shows that SBDS mRNA expression decreases 5-fold with human cord blood neutrophil differentiation (n = 3; mean±SEM). …”

EGR1 prevents osteosarcoma cell migration into blood vessel in vivo. by Yukihiro Matsunoshita (232591)

“…To examine tumour cell invasion of blood vessels, we counted GFP- positive- 143B cells within 50 µl blood aspirates from hearts at 5 weeks after inoculation (A). …”

Examples of CFIR domains adapted to our research. by Ricardo Castillo-Neyra (682311)

“…With these stakeholders we explored factors contributing to the decrease in MDVC post COVID-19. …”

Supplementary Material for: THE ROLE OF IMMUNOMODULATORY THERAPY WITH OXIRIS IN COVID 19 WITH RENAL FAILURE AND IMMUNE DYSFUNCTION. by QuilezTrasobares N. (19074308)

“…Subgroup analysis in patients exposed to therapy also showed a significant decrease in D-Dimer of 55% from baseline; 6000 (1984.5-277750) pre-therapy vs 2700 (2119.5-6145) (95% CI -23000, -2489) post-therapy with a strong effect size (p .001, d:0.65). …”

Three examples out of eight reaction networks that show oscillatory behaviour with high amplitude by Sébastien Clodong (25291)

“…The middle graph shows the time course of the KaiC phosphorylation level for protein concentrations taken from experiments with =6 (green line) and =20 (blue line) phosphorylation steps. Changes in phase and frequency owing to a collective five-fold increase or 10-fold decrease in protein concentrations are shown by the solid black (only partially drawn) and dashed red line, respectively, for =20. …”