qPCR verified the expression changes of GO and KEGG pathway enriched sarcopenia related DEGs. by Wenbin Wu (292223)

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Prohibitin2 knockdown decreases glioma malignant phenotypes and radio-resistance by inhibiting mitophagy by Xuefei Xue (16496943)

“…</p> <p>The expression of PHB2 was significantly upregulated in glioma cells and closely correlated with the malignant degree of glioma. …”

Lipidomic analysis of epidermis using LC-IMS-CID-MS reveals major changes in CKO// epidermis. by Kevin J. Mills (9270966)

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Metabolism of lipids and lipid proteins CKO vs K5Cre Reactome by Kevin J. Mills (9270966)

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Ceramide biosynthetic process CKO vs K5Cre GO: Biological Processes. by Kevin J. Mills (9270966)

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Conditional deletion of C/EBP in epidermis results in downregulation of transcripts and pathways associated with lipid biosynthesis in epidermis. by Kevin J. Mills (9270966)

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UHPLC-MS CKO vs K5Cre results. by Kevin J. Mills (9270966)

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Uncropped raw western blot images. by Kevin J. Mills (9270966)

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LC-IMS-CID-MS CKO vs K5Cre results. by Kevin J. Mills (9270966)

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Fatty acids, triacylglycerol and ketone body metabolism CKO vs K5Cre Reactome. by Kevin J. Mills (9270966)

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Phospholipid metabolism CKO vs K5Cre Reactome. by Kevin J. Mills (9270966)

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Cholesterol biosynthetic process CKO vs K5Cre GO: Biological Processes. by Kevin J. Mills (9270966)

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Targeted analysis of cholesterol and cholesterol esters in epidermis reveals changes in specific cholesterol esters in CKO epidermis. by Kevin J. Mills (9270966)

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Localization and conditional deletion of C/EBP in SKH1 mouse epidermis. by Kevin J. Mills (9270966)

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A Novel Type of PSMA-Targeting Ligands via β‑Branched Aromatic α‑Amino Acid Modification, Bearing Enhanced Tumor Targeting and Reduced Renal Toxicity by Zong-Xiao Liu (22177765)

“…With average renal uptake of less than 10%ID/g, as opposed to 25%ID/g for [⁶⁸Ga]Ga-<b>PSMA-617</b>, this substantial decrease in renal accumulation translates to a significantly improved safety profile by minimizing nephrotoxic risks. …”

A Novel Type of PSMA-Targeting Ligands via β‑Branched Aromatic α‑Amino Acid Modification, Bearing Enhanced Tumor Targeting and Reduced Renal Toxicity by Zong-Xiao Liu (22177765)

“…With average renal uptake of less than 10%ID/g, as opposed to 25%ID/g for [⁶⁸Ga]Ga-<b>PSMA-617</b>, this substantial decrease in renal accumulation translates to a significantly improved safety profile by minimizing nephrotoxic risks. …”

STM2457 and PD98059 enhanced PRV replication <i>in vivo.</i> by Lucai Wang (22050158)

NS effectively modulates the PI3K/Akt/mTOR signaling pathway and inhibits lipid transport, inflammation, and apoptosis in macrophages by enhancing autophagy. by Yihua Wang (491766)

Phosphorylation as an Effective Tool to Improve Stability and Reduce Toxicity of Antimicrobial Peptides by Zufang Ba (11036420)

“…Among them, W₃BipY₈-P stood out as the most promising peptide, exhibiting similar antibacterial activity as its unphosphorylated analog W₃BipY₈ but with significantly reduced hemolytic activity (19-fold decrease), cytotoxicity (3.3-fold decrease), and an extended serum half-life 6.3 times longer than W₃BipY₈. …”

Innovative Self-Powered Electrically Stimulated Fabric Dressing for Enhanced Diabetic Wound Healing by Lin He (102807)

“…These enhancements contributed to faster wound closure, decreased inflammatory response, increased collagen deposition, and improved angiogenesis. …”