Table 11_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

Table 1_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

Table 9_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

Table 5_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

Table 3_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

Table 6_CX3CR1 upregulation modulates microglial activation and preserves synapses in the hippocampus and frontal cortex of middle-aged mice.xlsx by Jinfeng Liu (32678)

“…Following CX3CR1 knockout in the middle-aged mice, TNF-α and IL-1α levels increased, while CD68, SRA, and RAGE levels decreased in the hippocampus. Similarly, CD68, CD36, SRB1, and RAGE levels decreased in the frontal cortex. …”

<b>Association between myristic acid in plasma triglycerides and metabolic dysfunction-associated steatotic liver disease in patients with type 2 diabetes: A comprehensive analysis... by Shigero Hosoe (21735020)

“…After comprehensive diabetes treatment for 2 weeks, FA levels in many TGs significantly decreased; especially, FA 14:0 levels in TGs decreased notably, and this reduction was more pronounced in patients with MASLD.…”

Image 2_Distribution and metabolism of iPSC-MSCs in the joint cavity of an osteoarthritis rat model.jpeg by Xiaoyang Yuan (11216262)

Image 1_Distribution and metabolism of iPSC-MSCs in the joint cavity of an osteoarthritis rat model.jpeg by Xiaoyang Yuan (11216262)

Image 3_Distribution and metabolism of iPSC-MSCs in the joint cavity of an osteoarthritis rat model.tif by Xiaoyang Yuan (11216262)

Image 4_Transcriptome-based WGCNA reveals the molecular regulation of xylem plasticity in acclimation to drought and rewatering in mulberry.tif by Yue Tian (1765825)

“…<p>Xylem plasticity is important for trees to coordinate hydraulic efficiency and safety under changing soil water availability. However, the physiological and transcriptional regulations of cambium on xylem plasticity are not well understood. …”

Data Sheet 1_Acute hypobaric hypoxia attenuates the anti-fatigue effects of pitolisant by downregulating the expression of organic cation transporter 1 and P-glycoprotein.docx by Gang Zhao (161405)

Image 3_Transcriptome-based WGCNA reveals the molecular regulation of xylem plasticity in acclimation to drought and rewatering in mulberry.tif by Yue Tian (1765825)

“…<p>Xylem plasticity is important for trees to coordinate hydraulic efficiency and safety under changing soil water availability. However, the physiological and transcriptional regulations of cambium on xylem plasticity are not well understood. …”

Image 1_Transcriptome-based WGCNA reveals the molecular regulation of xylem plasticity in acclimation to drought and rewatering in mulberry.tif by Yue Tian (1765825)

“…<p>Xylem plasticity is important for trees to coordinate hydraulic efficiency and safety under changing soil water availability. However, the physiological and transcriptional regulations of cambium on xylem plasticity are not well understood. …”

Table 1_Transcriptome-based WGCNA reveals the molecular regulation of xylem plasticity in acclimation to drought and rewatering in mulberry.xlsx by Yue Tian (1765825)

“…<p>Xylem plasticity is important for trees to coordinate hydraulic efficiency and safety under changing soil water availability. However, the physiological and transcriptional regulations of cambium on xylem plasticity are not well understood. …”

Image 2_Transcriptome-based WGCNA reveals the molecular regulation of xylem plasticity in acclimation to drought and rewatering in mulberry.tif by Yue Tian (1765825)

“…<p>Xylem plasticity is important for trees to coordinate hydraulic efficiency and safety under changing soil water availability. However, the physiological and transcriptional regulations of cambium on xylem plasticity are not well understood. …”

Data Sheet 1_Impact of digital health on Type 2 diabetes management: a randomised controlled trial of the ‘TreC Diabete’ platform (TELEMECHRON Study).docx by Alexia Giovanazzi (16816139)

“…At 12 months, the median change in HbA1c levels did not differ significantly between groups. …”

Data Sheet 2_Impact of digital health on Type 2 diabetes management: a randomised controlled trial of the ‘TreC Diabete’ platform (TELEMECHRON Study).docx by Alexia Giovanazzi (16816139)

“…At 12 months, the median change in HbA1c levels did not differ significantly between groups. …”

Figure 4 from Claudin-4 Modulates Autophagy via SLC1A5/LAT1 as a Mechanism to Regulate Micronuclei by Fabian R. Villagomez (18098633)

“…It also indicates the corresponding mean fold change in the (top) of circles, (red and green; red indicates decreased while greed indicates increase of metabolites). …”

<b>Enhanced Regulation of Carbon Emissions and DOM Transport by Cascade Reservoirs in the Upper Yellow River</b> by Li Chunhui (19796262)

“…<p dir="ltr">Under the influence of global climate change and human activities, the carbon emission characteristics and driving mechanisms of inland waters, especially river reservoir systems, have attracted widespread attention in recent years. …”