1. Metabolite Profile of Salidroside in Rats by Ultraperformance Liquid Chromatography Coupled with Quadrupole Time-of-Flight Mass Spectrometry and High-Performance Liquid Chromatography Coupled with Quadrupole-Linear Ion Trap Mass Spectrometry
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  3. Modulation of epithelial-to-mesenchymal cancerous transition by natural products
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  4. An Approach to Characterizing the Complicated Sequential Metabolism of Salidroside in Rats
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  5. Salidroside Inhibits HMGB1 Acetylation and Release through Upregulation of SirT1 during Inflammation
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  6. Salidroside attenuates inflammatory response via suppressing JAK2-STAT3 pathway activation and preventing STAT3 transfer into nucleus
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  7. Role of purines on the copper-catalyzed oxidative damage in biological systems: Protection versus promotion
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  12. In Vitro Antioxidant Activities of Phenols and Oleanolic Acid from Mango Peel and Their Cytotoxic Effect on A549 Cell Line
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  16. Design, synthesis, crystal structures and anticancer activity of 4-substituted quinolines to target PDK1
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  17. Screening bioactive compounds with multi-targets from Rhodiola crenulata by a single column containing co-immobilized beta2-adrenergic receptor and voltage dependent anion channel isoform 1
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  19. Salidroside protects ATDC5 cells against lipopolysaccharide-induced injury through up-regulation of microRNA-145 in osteoarthritis
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  20. Rosenroot (Rhodiola): Potential Applications in Aging-related Diseases
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  21. GRP78/BIP/HSPA5 as a Therapeutic Target in Models of Parkinson’s Disease: A Mini Review
    Adaze Bijou Enogieru et al, 2019, Advances in Pharmacological Sciences CrossRef
  22. Salidroside represses proliferation, migration and invasion of human lung cancer cells through AKT and MEK/ERK signal pathway
    Mei Ren et al, 2019, Artificial Cells, Nanomedicine, and Biotechnology CrossRef
  23. Salidroside protects inner ear hair cells and spiral ganglion neurons from manganese exposure by regulating ROS levels and inhibiting Apoptosis
    Xuerui ding et al, 2019, Toxicology Letters CrossRef
  24. Beneficial Effects of Rhodiola and Salidroside in Diabetes: Potential Role of AMP-Activated Protein Kinase
    Tao Zheng et al, 2019, Mol Diagn Ther CrossRef
  25. Evaluation of antileishmanial efficacy of Salidroside against the SSG-sensitive and resistant strain of Leishmania donovani
    Kalpana Chauhan et al, 2019, Parasitology International CrossRef
  26. Thiophenols, Promising Scavengers of Peroxyl Radicals: Mechanisms and kinetics
    Mirzam Carreon‐Gonzalez et al, 2019, J Comput Chem CrossRef
  27. Salidroside protects against ox-LDL-induced endothelial injury by enhancing autophagy mediated by SIRT1-FoxO1 pathway.
    Zhongsheng Zhu et al, 2019, BMC Complement Altern Med CrossRef
  28. Preparation and biological evaluation of quinoline amines as anticancer agents and its molecular docking
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  29. Detailed Investigation of the Outstanding Peroxyl Radical Scavenging Activity of Two Novel Amino-Pyridinol-Based Compounds
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  30. New Free Radicals to Measure Antiradical Capacity: A Theoretical Study
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  31. Salidroside inhibits the proliferation and migration of gastric carcinoma cells and tumor growth via the activation of ERS-dependent autophagy and apoptosis
    Wei Yan et al, 2019, RSC Adv. CrossRef
  32. SiRNA-HMGA2 weakened AGEs-induced epithelial-to-mesenchymal transition in tubular epithelial cells
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  33. Adrenaline and noradrenaline: protectors against oxidative stress or molecular targets?
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  34. Rhodiola crenulata inhibits Wnt/β-catenin signaling in glioblastoma
    Maria Carmen Mora et al, 2015, Journal of Surgical Research CrossRef
  35. Infrared-assisted extraction of salidroside from the root of Rhodiola crenulata with a novel ionic liquid that dissolves cellulose
    Fajie Li et al, 2015, RSC Adv. CrossRef
  36. Rhodiola plants: Chemistry and biological activity
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  37. Salidroside Protects against Cadmium-Induced Hepatotoxicity in Rats via GJIC and MAPK Pathways
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  38. Free-radical scavenging by tryptophan and its metabolites through electron transfer based processes
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  40. Anthranilic acid as a secondary antioxidant: Implications to the inhibition of OH production and the associated oxidative stress
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  41. Salidroside protects against bleomycin-induced pulmonary fibrosis: activation of Nrf2-antioxidant signaling, and inhibition of NF-κB and TGF-β1/Smad-2/-3 pathways.
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  42. Salidroside Protects Against 6-Hydroxydopamine-Induced Cytotoxicity by Attenuating ER Stress
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  43. Salidroside protects against kainic acid-induced status epilepticus via suppressing oxidative stress
    Pei-Pei Si et al, 2016, Neuroscience Letters CrossRef
  44. Discovery of 3,4,6-Triaryl-2-pyridones as Potential Anticancer Agents that Promote ROS-Independent Mitochondrial-Mediated Apoptosis in Human Breast Carcinoma Cells
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  45. Salidroside induces apoptosis and autophagy in human colorectal cancer cells through inhibition of PI3K/Akt/mTOR pathway.
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  46. Altered expression of TRAIL on mouse T cells via ERK phosphorylation by Rhodiola rosea L. and its marker compounds
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  48. Copper or free radical scavenger?
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  49. Salidroside Attenuates LPS-Induced Acute Lung Injury in Rats
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  50. Salidroside, a scavenger of ROS, enhances the radioprotective effect of Ex-RAD® via a p53-dependent apoptotic pathway
    Tian Feng et al, 2017 CrossRef
  51. Inhibition of autophagy enhances synergistic effects of Salidroside and anti-tumor agents against colorectal cancer
    Hai Li et al, 2017, BMC Complement Altern Med CrossRef
  52. The sources of salidroside and its targeting for multiple chronic diseases
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  53. Salidroside induces apoptosis and protective autophagy in human gastric cancer AGS cells through the PI3K/Akt/mTOR pathway.
    Li Rong et al, 2020, Biomed Pharmacother CrossRef
  54. Preparation and Characterization of PLGA–PEG–PLGA Nanoparticles Containing Salidroside and Tamoxifen for Breast Cancer Therapy
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  55. Structurally Related Edaravone Analogues: Synthesis, Antiradical, Antioxidant, and Copper-Chelating Properties
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  56. Advances in Research on Anticancer Properties of Salidroside
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  57. A Potential Anti-cancer Compound Separated from the Chloroform Extract of the Chinese Medicine Formula Shenqi San
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  58. Design and synthesis of imidazole based zinc binding groups as novel small molecule inhibitors targeting Histone deacetylase enzymes in lung cancer
    Saravanan Kandasamy et al, 2020, Journal of Molecular Structure CrossRef
  59. CEMTDD: The database for elucidating the relationships among herbs, compounds, targets and related diseases for Chinese ethnic minority traditional drugs
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  60. Protective Evaluation of Compounds Extracted from Root of Rhodiola rosea L. against Methylglyoxal-Induced Toxicity in a Neuronal Cell Line
    Cheng-Hao Wang et al, 2020, Molecules CrossRef
  61. Salidroside suppresses the metastasis of hepatocellular carcinoma cells by inhibiting the activation of the Notch1 signaling pathway.
    Linlin Lu et al, 2019, Mol Med Rep CrossRef
  62. Salidroside suppresses the growth and invasion of human osteosarcoma cell lines MG63 and U2OS in vitro by inhibiting the JAK2/STAT3 signaling pathway
    Lintuo Huang et al, 2019, Int J Oncol CrossRef
  63. Curcumin reverses tobacco smoke‑induced epithelial‑mesenchymal transition by suppressing the MAPK pathway in the lungs of mice
    Zhaofeng Liang et al, 2017, Mol Med Report CrossRef
  64. Salidroside inhibits the proliferation and migration of gastric cancer cells via suppression of Src‑associated signaling pathway activation and heat shock protein 70 expression.
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  65. Salidroside inhibits migration, invasion and angiogenesis of MDA‑MB 231 TNBC cells by regulating EGFR/Jak2/STAT3 signaling via MMP2.
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  66. Salidroside prevents diabetes‑induced cognitive impairment via regulating the Rho pathway
    Xiuzhen Hao et al, 2018, Mol Med Report CrossRef
  67. Salidroside promotes human periodontal ligament cell proliferation and osteocalcin secretion via ERK1/2 and PI3K/Akt signaling pathways.
    Yukang Ying et al, 2018, Exp Ther Med CrossRef
  68. Neuroprotective effects of salidroside administration in a mouse model of Alzheimer's disease
    Qingyun Li et al, 2018, Mol Med Report CrossRef
  69. Salidroside could enhance the cytotoxic effect of L‑OHP on colorectal cancer cells
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  70. Anti-gastric cancer effect of Salidroside through elevating miR-99a expression.
    Lin Yang et al, 2019, Artif Cells Nanomed Biotechnol CrossRef
  71. Concept of ʻʼ in Unani Medicine – A correlation with oxidative stress, and future prospects
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  72. Insight on the pro‐oxidant capability of amphotericin B in lipid media: A theoretical study
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  73. Salidroside: A review of its recent advances in synthetic pathways and pharmacological properties
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  74. Salidroside alleviates diabetic neuropathic pain through regulation of the AMPK-NLRP3 inflammasome axis
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  75. Salidroside induces cell apoptosis and inhibits the invasiveness of HT29 colorectal cells by regulating protein kinase R, NF-κB and STAT3
    Attalla F. El-kott et al, 2021, CBM CrossRef
  76. Salidroside - Can it be a Multifunctional Drug?
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  77. Salidroside Suppresses the Proliferation and Migration of Human Lung Cancer Cells through AMPK-Dependent NLRP3 Inflammasome Regulation
    Weidong Ma et al, 2021, Oxidative Medicine and Cellular Longevity CrossRef
  78. Antioxidant activity of Trolox derivatives toward methylperoxyl radicals: thermodynamic and kinetic theoretical study
    Anes El-hadj Saїd et al, 2021, Theor Chem Acc CrossRef
  79. Salidroside induces apoptosis in human gastric cancer cells via the downregulation of ENO1/PKM2/GLUT1 expression
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  81. Salidroside prevents PM2.5-induced BEAS-2B cell apoptosis via SIRT1-dependent regulation of ROS and mitochondrial function
    Hui Shan et al, 2022, Ecotoxicology and Environmental Safety CrossRef
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  83. Chemical repair of damaged leucine and tryptophane by thiophenols at close to diffusion‐controlled rates: Mechanisms and kinetics
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  84. Salidroside Ameliorates Ultraviolet-Induced Keratinocyte Injury by Inducing SIRT1-Dependent Autophagy
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  85. Phytofabricated Br-AgNP synthesis using Brassica oleracea var. italica and their anti-carcinogenic applications
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  87. Selected Phytochemicals to Combat Lungs Injury: Natural Care
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  88. Combination of chloroquine diphosphate and salidroside induces human liver cell apoptosis via regulation of mitochondrial dysfunction and autophagy
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