<i>Rap1</i> knockin bone marrow, spleen, and BMDMs show mild NF-κB activation <i>in vivo</i>. by Amanda J. Stock (3139719)

Spline curves for assessing the association between sleep duration and constipation and related components. by Toshiaki Ohkuma (483462)

“…The circles at 4.5, 5.5, 6.5, 7.5, and 8.5 hours/day represent the points at which knots were placed. …”

Adjusted predicted GHQ-12 scores between April 2020 and July 2020 by current economic activity among UK young adults aged 16–34 in 2017–18. by Linruo Zhang (17200227)

Adjusted predicted GHQ-12 scores between September 2020 and March 2021 by current economic activity among UK young adults aged 16–34 in 2017–18. by Linruo Zhang (17200227)

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)

Plethysmogram representing the total monitoring time with EIT. by Milena S. Nascimento (14803681)

Adjusted predicted GHQ-12 scores between Sep 2020 to March 2021 by changes in economic activity since before the outbreak among UK young adults aged 16–34 in 2017–18. by Linruo Zhang (17200227)

Adjusted predicted GHQ-12 scores between April 2020 and July 2020 by changes in economic activity since before the outbreak among UK young adults aged 16–34 in 2017–18. by Linruo Zhang (17200227)

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. …”

Tree cover change in percent between 2000 and 2010 (TCC) for 5×5 km grid cells. by Jonas Nüchel (4093243)

“…<p>Green colors indicate an increase, gray colors indicate a slight increase or decrease and red colors indicate a decrease in tree cover between 2000 and 2010. …”

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. …”

Data_Sheet_5_Metagenomic Next-Generation Sequencing in the Diagnosis of HHV-1 Reactivation in a Critically Ill COVID-19 Patient: A Case Report.DOCX by Lei Shi (8144)

Image_11_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. …”