Table_2_A SARS-CoV-2 Negative Antigen Rapid Diagnostic in RT-qPCR Positive Samples Correlates With a Low Likelihood of Infectious Viruses in the Nasopharynx.DOCX by Isadora Alonso Corrêa (12061913)

“…The data clearly demonstrate that a negative Ag-RDT sample is less likely to harbor infectious SARS-CoV-2 and, consequently, has a lower transmissible potential.…”

Table_7_A SARS-CoV-2 Negative Antigen Rapid Diagnostic in RT-qPCR Positive Samples Correlates With a Low Likelihood of Infectious Viruses in the Nasopharynx.DOCX by Isadora Alonso Corrêa (12061913)

“…The data clearly demonstrate that a negative Ag-RDT sample is less likely to harbor infectious SARS-CoV-2 and, consequently, has a lower transmissible potential.…”

Table_1_A SARS-CoV-2 Negative Antigen Rapid Diagnostic in RT-qPCR Positive Samples Correlates With a Low Likelihood of Infectious Viruses in the Nasopharynx.xlsx by Isadora Alonso Corrêa (12061913)

“…The data clearly demonstrate that a negative Ag-RDT sample is less likely to harbor infectious SARS-CoV-2 and, consequently, has a lower transmissible potential.…”

Schematic diagram domains of phage vB_VspM_VS1 tail fiber genes ORF42 (a), ORF61 (b), ORF64 (c) and ORF82 (d) obtained from the SMART (http://smart.embl.de) database. by Xuemei Duan (6901601)

The variation of power density against current. by Nacer Badi (14046883)

“…DC conductivity measurements revealed that LSCO exhibited a high conductivity of 5.2 S/cm, attributed to the efficient flow of electrons through the electrolyte, highlighting its potential as a promising cathode material. …”

Change from baseline (t = 0) in the concentrations of biomarkers—intestinal fatty acid-binding protein (IFABP), syndecan-1, lipopolysaccharide-binding protein (LBP), soluble CD14 (... by Tamara Mogilevski (14239682)

Detectability of radiation-induced changes in magnetic resonance biomarkers following stereotactic radiosurgery: A pilot study by Jeff D. Winter (6009617)

“…Both ΔK^trans and Δv_e showed a trend with dose at day 20 within the GTV and > 12 Gy region (rho = -0.04 to -0.16). …”

Effects of FCCP and verapamil on MMP of HCT15 and CT26 cancer cells. by Jin Won Park (2901029)

Effects of FCCP and verapamil on MMP of T47D and HT29 cancer cells. by Jin Won Park (2901029)

Image_5_Establishing a Prognostic Model Based on Ulceration and Immune Related Genes in Melanoma Patients and Identification of EIF3B as a Therapeutic Target.tif by Zhengquan Wu (2843642)

Image no.5: Spatial uniformness testing based on [R1] rectangles; A: ROC curve anlysis results; B: HC algorithm with heatmap, product of odds (<i>PO</i> = 0.334) and <i>p</i>-value... by Shuting Liao (9524506)

Quantitative Imaging of the Action of vCPP2319, an Antimicrobial Peptide from a Viral Scaffold, against <i>Staphylococcus aureus</i> Biofilms of a Clinical Isolate by Susana A. Dias (16940615)

“…In fact, α-amylase decreases the density of S. aureus biofilms by 2.5-fold. …”

Quantitative Imaging of the Action of vCPP2319, an Antimicrobial Peptide from a Viral Scaffold, against <i>Staphylococcus aureus</i> Biofilms of a Clinical Isolate by Susana A. Dias (16940615)

“…In fact, α-amylase decreases the density of S. aureus biofilms by 2.5-fold. …”

Quantitative Imaging of the Action of vCPP2319, an Antimicrobial Peptide from a Viral Scaffold, against <i>Staphylococcus aureus</i> Biofilms of a Clinical Isolate by Susana A. Dias (16940615)

“…In fact, α-amylase decreases the density of S. aureus biofilms by 2.5-fold. …”

Quantitative Imaging of the Action of vCPP2319, an Antimicrobial Peptide from a Viral Scaffold, against <i>Staphylococcus aureus</i> Biofilms of a Clinical Isolate by Susana A. Dias (16940615)

“…In fact, α-amylase decreases the density of S. aureus biofilms by 2.5-fold. …”

Image_6_SmDXS5, acting as a molecular valve, plays a key regulatory role in the primary and secondary metabolism of tanshinones in Salvia miltiorrhiza.jpeg by Da-chuan Zhang (14096760)

“…Here, we found that SmDXS5, a rate-limiting enzyme-coding gene located at the intersection of primary and secondary metabolism, can effectively change the transcription level and secondary metabolome profile of hairy roots of S. miltiorrhiza, and significantly increase the content of tanshinones. …”

Image_9_SmDXS5, acting as a molecular valve, plays a key regulatory role in the primary and secondary metabolism of tanshinones in Salvia miltiorrhiza.jpeg by Da-chuan Zhang (14096760)

“…Here, we found that SmDXS5, a rate-limiting enzyme-coding gene located at the intersection of primary and secondary metabolism, can effectively change the transcription level and secondary metabolome profile of hairy roots of S. miltiorrhiza, and significantly increase the content of tanshinones. …”

Image_7_SmDXS5, acting as a molecular valve, plays a key regulatory role in the primary and secondary metabolism of tanshinones in Salvia miltiorrhiza.jpeg by Da-chuan Zhang (14096760)

“…Here, we found that SmDXS5, a rate-limiting enzyme-coding gene located at the intersection of primary and secondary metabolism, can effectively change the transcription level and secondary metabolome profile of hairy roots of S. miltiorrhiza, and significantly increase the content of tanshinones. …”

Image_10_SmDXS5, acting as a molecular valve, plays a key regulatory role in the primary and secondary metabolism of tanshinones in Salvia miltiorrhiza.png by Da-chuan Zhang (14096760)

“…Here, we found that SmDXS5, a rate-limiting enzyme-coding gene located at the intersection of primary and secondary metabolism, can effectively change the transcription level and secondary metabolome profile of hairy roots of S. miltiorrhiza, and significantly increase the content of tanshinones. …”

Table_3_SmDXS5, acting as a molecular valve, plays a key regulatory role in the primary and secondary metabolism of tanshinones in Salvia miltiorrhiza.xls by Da-chuan Zhang (14096760)

“…Here, we found that SmDXS5, a rate-limiting enzyme-coding gene located at the intersection of primary and secondary metabolism, can effectively change the transcription level and secondary metabolome profile of hairy roots of S. miltiorrhiza, and significantly increase the content of tanshinones. …”