This is a Validated Antibody Database (VAD) review about rat Cd9, based on 49 published articles (read how Labome selects the articles), using Cd9 antibody in all methods. It is aimed to help Labome visitors find the most suited Cd9 antibody. Please note the number of articles fluctuates since newly identified citations are added and citations for discontinued catalog numbers are removed regularly.
Abcam
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 1f, 2e
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 1f, 2e). Theranostics (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; rhesus macaque; loading ...; fig 10d
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on rhesus macaque samples (fig 10d). Aging Dis (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:1000; fig 1b
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:1000 (fig 1b). Front Cell Dev Biol (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; rat; loading ...; fig 2g
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on rat samples (fig 2g). J Cell Biol (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 6h
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 6h). Cell Death Dis (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:200; loading ...; fig 2b
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:200 (fig 2b). Cancers (Basel) (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:1000; fig 1e
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:1000 (fig 1e). Aging (Albany NY) (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; fig s4b
  • western blot; mouse; loading ...; fig s2d
Abcam Cd9 antibody (Abcam, Ab92726) was used in western blot on human samples (fig s4b) and in western blot on mouse samples (fig s2d). Nat Commun (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • immunohistochemistry; mouse; 1:500; loading ...; fig 11h
Abcam Cd9 antibody (Abcam, ab92726) was used in immunohistochemistry on mouse samples at 1:500 (fig 11h). J Comp Neurol (2021) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 1a
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 1a). J Extracell Vesicles (2020) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:2000; loading ...; fig s4c
Abcam Cd9 antibody (Abcam, EPR2949) was used in western blot on human samples at 1:2000 (fig s4c). Cancers (Basel) (2020) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 1b
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 1b). Theranostics (2020) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; rat; 1:1000; loading ...; fig 1e
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on rat samples at 1:1000 (fig 1e). Braz J Med Biol Res (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:2000; loading ...; fig 1i
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:2000 (fig 1i). Aging (Albany NY) (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • immunohistochemistry - paraffin section; human; 1:2000; loading ...; fig 2h
Abcam Cd9 antibody (Abcam, AB92726) was used in immunohistochemistry - paraffin section on human samples at 1:2000 (fig 2h). Nature (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 1c
Abcam Cd9 antibody (Abcam, EPR2949) was used in western blot on human samples (fig 1c). Nanomedicine (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig s5e
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig s5e). Cell (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • immunocytochemistry; human; loading ...; fig 7a
  • western blot; human; loading ...; fig 1b, s4a, 3d, 4h
Abcam Cd9 antibody (Abcam, ab92726) was used in immunocytochemistry on human samples (fig 7a) and in western blot on human samples (fig 1b, s4a, 3d, 4h). Cell (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig s6g
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig s6g). Cell (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • immunohistochemistry - paraffin section; human; 1:100; loading ...; fig 1a
  • immunocytochemistry; human; 1:100; loading ...; fig 1a
  • western blot; human; loading ...; fig 1b
Abcam Cd9 antibody (Abcam, ab92726) was used in immunohistochemistry - paraffin section on human samples at 1:100 (fig 1a), in immunocytochemistry on human samples at 1:100 (fig 1a) and in western blot on human samples (fig 1b). Int J Biol Sci (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; mouse; 1:2000; loading ...; fig 3c
Abcam Cd9 antibody (abcam, ab92726) was used in western blot on mouse samples at 1:2000 (fig 3c). elife (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; mouse; loading ...; fig s1
Abcam Cd9 antibody (Abcam, EPR2949) was used in western blot on mouse samples (fig s1). J Biol Chem (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:150; loading ...; fig 2c
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:150 (fig 2c). Transl Oncol (2019) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; loading ...; fig 1c
Abcam Cd9 antibody (Abcam, EPR2949) was used in western blot on human samples (fig 1c). J Cell Biol (2018) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:500; loading ...; fig 1d
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:500 (fig 1d). Theranostics (2018) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; mouse; 1:250; fig 5b
In order to report that macrophage-derived extra vesicle-packaged WNTs are essential for intestinal regenerative response after radiation, Abcam Cd9 antibody (Abcam, AB92726) was used in western blot on mouse samples at 1:250 (fig 5b). Nat Commun (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; fig 3
In order to test if tetherin attaches to exosomes, Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 3). elife (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; mouse; 1:1000; fig 8c
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on mouse samples at 1:1000 (fig 8c). Hum Mol Genet (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:1000; fig 3b
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:1000 (fig 3b). Oncotarget (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:1000; fig 1
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples at 1:1000 (fig 1). Sci Rep (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; 1:2500; fig 2b
In order to generate and characterize extracellular vesicles decorated with ligands decorated with polyethylene glycol, Abcam Cd9 antibody (Abcam, EPR2949) was used in western blot on human samples at 1:2500 (fig 2b). J Control Release (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • western blot; human; fig 2
Abcam Cd9 antibody (Abcam, ab92726) was used in western blot on human samples (fig 2). Sci Rep (2016) ncbi
domestic rabbit monoclonal (EPR2949)
  • other; human; 1:300; loading ...; fig s1c
  • other; mouse; 1:300; loading ...; fig s1c
Abcam Cd9 antibody (Abcam, ab92726) was used in other on human samples at 1:300 (fig s1c) and in other on mouse samples at 1:300 (fig s1c). Nature (2015) ncbi
Santa Cruz Biotechnology
mouse monoclonal (C-4)
  • immunocytochemistry; mouse; loading ...; fig s1f
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, SC-13118) was used in immunocytochemistry on mouse samples (fig s1f). J Hematol Oncol (2021) ncbi
mouse monoclonal (C-4)
  • western blot; mouse; loading ...; fig 4e
Santa Cruz Biotechnology Cd9 antibody (Santa, SC-13118) was used in western blot on mouse samples (fig 4e). Cell Commun Signal (2021) ncbi
mouse monoclonal (C-4)
  • western blot; human; fig 1d
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology, sc-13118) was used in western blot on human samples (fig 1d). Cancers (Basel) (2020) ncbi
mouse monoclonal (C-4)
  • ELISA; human; 1:300; loading ...; fig 5g
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, C-4) was used in ELISA on human samples at 1:300 (fig 5g). J Extracell Vesicles (2020) ncbi
mouse monoclonal (C-4)
  • western blot; human; loading ...; fig 1f
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, RRID:AB_627213) was used in western blot on human samples (fig 1f). elife (2019) ncbi
mouse monoclonal (C-4)
  • western blot; human; loading ...; fig s6g
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology, sc-13118) was used in western blot on human samples (fig s6g). Cell (2019) ncbi
mouse monoclonal (C-4)
  • western blot; mouse; loading ...; fig 2i
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology Inc, sc-13118) was used in western blot on mouse samples (fig 2i). Cancer Res (2018) ncbi
mouse monoclonal (C-4)
  • western blot; human; loading ...; fig 4d
Santa Cruz Biotechnology Cd9 antibody (Santa cruz, Sc13118) was used in western blot on human samples (fig 4d). Int J Radiat Biol (2017) ncbi
mouse monoclonal (C-4)
  • western blot; human; loading ...; fig s2
In order to discuss methods to increase the urinary extracellular vesicle yield, Santa Cruz Biotechnology Cd9 antibody (Santa cruz, SC-13118) was used in western blot on human samples (fig s2). Eur J Pharm Sci (2017) ncbi
mouse monoclonal (C-4)
  • western blot; human; fig 2
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, sc-13118) was used in western blot on human samples (fig 2). Am J Transl Res (2016) ncbi
mouse monoclonal (C-4)
  • western blot; human; fig 5
In order to determine an enrichment in insulin-like growth factor I receptor, c-Src, G-protein-coupled receptor kinases, and focal adhesion kinase in porstate cancer cell exosomes, Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, sc13118) was used in western blot on human samples (fig 5). J Cell Biochem (2017) ncbi
mouse monoclonal (C-4)
  • western blot; mouse; 1:1000; fig 4
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz, sc-13118) was used in western blot on mouse samples at 1:1000 (fig 4). PLoS ONE (2016) ncbi
mouse monoclonal (C-4)
  • western blot; human; 1:1000; fig 1
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology, sc-13118) was used in western blot on human samples at 1:1000 (fig 1). Sci Rep (2015) ncbi
mouse monoclonal (P1/33/2)
  • immunocytochemistry; human
In order to identify the relationship between the nuclear tetraspanin-29 pool and the mitotic process, Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology, P1/33/2) was used in immunocytochemistry on human samples . Mol Cancer Res (2014) ncbi
mouse monoclonal (C-4)
  • immunohistochemistry - frozen section; human
  • immunohistochemistry - frozen section; mouse
Santa Cruz Biotechnology Cd9 antibody (Santa Cruz Biotechnology, sc-13118) was used in immunohistochemistry - frozen section on human samples and in immunohistochemistry - frozen section on mouse samples . J Biol Chem (2013) ncbi
Boster
domestic rabbit monoclonal (CED-3)
  • immunohistochemistry - frozen section; mouse; 1:50; loading ...; fig ex5b
Boster Cd9 antibody (BosterBio, M01202) was used in immunohistochemistry - frozen section on mouse samples at 1:50 (fig ex5b). Nature (2019) ncbi
BioLegend
mouse monoclonal (W3/25)
  • flow cytometry; rat; loading ...; fig 1a
BioLegend Cd9 antibody (Biolegend, 201516) was used in flow cytometry on rat samples (fig 1a). Stem Cell Reports (2018) ncbi
Articles Reviewed
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  2. Lee J, Hur J, Kwon Y, Chae C, Choi J, Hwang I, et al. KAI1(CD82) is a key molecule to control angiogenesis and switch angiogenic milieu to quiescent state. J Hematol Oncol. 2021;14:148 pubmed publisher
  3. Sil S, Singh S, Chemparathy D, Chivero E, Gordon L, Buch S. Astrocytes & Astrocyte derived Extracellular Vesicles in Morphine Induced Amyloidopathy: Implications for Cognitive Deficits in Opiate Abusers. Aging Dis. 2021;12:1389-1408 pubmed publisher
  4. Cai M, Chai S, Xiong T, Wei J, Mao W, Zhu Y, et al. Aberrant Expression of Circulating MicroRNA Leads to the Dysregulation of Alpha-Synuclein and Other Pathogenic Genes in Parkinson's Disease. Front Cell Dev Biol. 2021;9:695007 pubmed publisher
  5. Song L, Tian X, Schekman R. Extracellular vesicles from neurons promote neural induction of stem cells through cyclin D1. J Cell Biol. 2021;220: pubmed publisher
  6. Lin Y, Nhieu J, Wei C, Lin Y, Kagechika H, Wei L. Regulation of exosome secretion by cellular retinoic acid binding protein 1 contributes to systemic anti-inflammation. Cell Commun Signal. 2021;19:69 pubmed publisher
  7. Zhang K, Liu D, Zhao J, Shi S, He X, Da P, et al. Nuclear exosome HMGB3 secreted by nasopharyngeal carcinoma cells promotes tumour metastasis by inducing angiogenesis. Cell Death Dis. 2021;12:554 pubmed publisher
  8. Ganig N, Baenke F, Thepkaysone M, Lin K, Rao V, Wong F, et al. Proteomic Analyses of Fibroblast- and Serum-Derived Exosomes Identify QSOX1 as a Marker for Non-invasive Detection of Colorectal Cancer. Cancers (Basel). 2021;13: pubmed publisher
  9. Zhang Z, Zou X, Zhang R, Xie Y, Feng Z, Li F, et al. Human umbilical cord mesenchymal stem cell-derived exosomal miR-146a-5p reduces microglial-mediated neuroinflammation via suppression of the IRAK1/TRAF6 signaling pathway after ischemic stroke. Aging (Albany NY). 2021;13:3060-3079 pubmed publisher
  10. Kumar A, Sundaram K, Mu J, Dryden G, Sriwastva M, Lei C, et al. High-fat diet-induced upregulation of exosomal phosphatidylcholine contributes to insulin resistance. Nat Commun. 2021;12:213 pubmed publisher
  11. Galardi A, Colletti M, Lavarello C, Di Paolo V, Mascio P, Russo I, et al. Proteomic Profiling of Retinoblastoma-Derived Exosomes Reveals Potential Biomarkers of Vitreous Seeding. Cancers (Basel). 2020;12: pubmed publisher
  12. Pasquettaz R, Kolotuev I, Rohrbach A, Gouelle C, Pellerin L, Langlet F. Peculiar protrusions along tanycyte processes face diverse neural and nonneural cell types in the hypothalamic parenchyma. J Comp Neurol. 2021;529:553-575 pubmed publisher
  13. Crescitelli R, Lässer C, Jang S, Cvjetkovic A, Malmhäll C, Karimi N, et al. Subpopulations of extracellular vesicles from human metastatic melanoma tissue identified by quantitative proteomics after optimized isolation. J Extracell Vesicles. 2020;9:1722433 pubmed publisher
  14. Cordonnier M, Nardin C, Chanteloup G, Derangère V, Algros M, Arnould L, et al. Tracking the evolution of circulating exosomal-PD-L1 to monitor melanoma patients. J Extracell Vesicles. 2020;9:1710899 pubmed publisher
  15. Medeiros B, Goodale D, Postenka C, Lowes L, Kiser P, Hearn S, et al. Triple-Negative Primary Breast Tumors Induce Supportive Premetastatic Changes in the Extracellular Matrix and Soluble Components of the Lung Microenvironment. Cancers (Basel). 2020;12: pubmed publisher
  16. Wan Z, Zhao L, Lu F, Gao X, Dong Y, Zhao Y, et al. Mononuclear phagocyte system blockade improves therapeutic exosome delivery to the myocardium. Theranostics. 2020;10:218-230 pubmed publisher
  17. Yu T, Zhao C, Hou S, Zhou W, Wang B, Chen Y. Exosomes secreted from miRNA-29b-modified mesenchymal stem cells repaired spinal cord injury in rats. Braz J Med Biol Res. 2019;52:e8735 pubmed publisher
  18. Yang X, Yang J, Lei P, Wen T. LncRNA MALAT1 shuttled by bone marrow-derived mesenchymal stem cells-secreted exosomes alleviates osteoporosis through mediating microRNA-34c/SATB2 axis. Aging (Albany NY). 2019;11:8777-8791 pubmed publisher
  19. Ramachandran P, Dobie R, Wilson Kanamori J, Dora E, Henderson B, Luu N, et al. Resolving the fibrotic niche of human liver cirrhosis at single-cell level. Nature. 2019;575:512-518 pubmed publisher
  20. Xu J, Wang Y, Hsu C, Gao Y, Meyers C, Chang L, et al. Human perivascular stem cell-derived extracellular vesicles mediate bone repair. elife. 2019;8: pubmed publisher
  21. Ortega F, Roefs M, De Miguel Pérez D, Kooijmans S, de Jong O, Sluijter J, et al. Interfering with endolysosomal trafficking enhances release of bioactive exosomes. Nanomedicine. 2019;:102014 pubmed publisher
  22. Tikhonova A, Dolgalev I, Hu H, Sivaraj K, Hoxha E, Cuesta Dominguez A, et al. The bone marrow microenvironment at single-cell resolution. Nature. 2019;569:222-228 pubmed publisher
  23. Murillo O, Thistlethwaite W, Rozowsky J, Subramanian S, Lucero R, Shah N, et al. exRNA Atlas Analysis Reveals Distinct Extracellular RNA Cargo Types and Their Carriers Present across Human Biofluids. Cell. 2019;177:463-477.e15 pubmed publisher
  24. Jeppesen D, Fenix A, Franklin J, Higginbotham J, Zhang Q, Zimmerman L, et al. Reassessment of Exosome Composition. Cell. 2019;177:428-445.e18 pubmed publisher
  25. Huang F, Feng F. A Tumor-Agnostic NTRK (TRK) Inhibitor. Cell. 2019;177:8 pubmed publisher
  26. Liu J, Zhu G, Jia N, Wang W, Wang Y, Yin M, et al. CD9 regulates keratinocyte migration by negatively modulating the sheddase activity of ADAM17. Int J Biol Sci. 2019;15:493-506 pubmed publisher
  27. Erwig M, Patzig J, Steyer A, Dibaj P, Heilmann M, Heilmann I, et al. Anillin facilitates septin assembly to prevent pathological outfoldings of central nervous system myelin. elife. 2019;8: pubmed publisher
  28. Silverman J, Christy D, Shyu C, Moon K, Fernando S, Gidden Z, et al. CNS-derived extracellular vesicles from superoxide dismutase 1 (SOD1)G93A ALS mice originate from astrocytes and neurons and carry misfolded SOD1. J Biol Chem. 2019;294:3744-3759 pubmed publisher
  29. Tiedemann K, Sadvakassova G, Mikolajewicz N, Juhas M, Sabirova Z, Tabariès S, et al. Exosomal Release of L-Plastin by Breast Cancer Cells Facilitates Metastatic Bone Osteolysis. Transl Oncol. 2019;12:462-474 pubmed publisher
  30. Yang X, Zhou J, He J, Liu J, Wang H, Liu Y, et al. An Immune System-Modified Rat Model for Human Stem Cell Transplantation Research. Stem Cell Reports. 2018;11:514-521 pubmed publisher
  31. Messenger S, Woo S, Sun Z, Martin T. A Ca2+-stimulated exosome release pathway in cancer cells is regulated by Munc13-4. J Cell Biol. 2018;217:2877-2890 pubmed publisher
  32. Li H, Liao Y, Gao L, Zhuang T, Huang Z, Zhu H, et al. Coronary Serum Exosomes Derived from Patients with Myocardial Ischemia Regulate Angiogenesis through the miR-939-mediated Nitric Oxide Signaling Pathway. Theranostics. 2018;8:2079-2093 pubmed publisher
  33. Wan Y, Wang L, Zhu C, Zheng Q, Wang G, Tong J, et al. Aptamer-Conjugated Extracellular Nanovesicles for Targeted Drug Delivery. Cancer Res. 2018;78:798-808 pubmed publisher
  34. Yentrapalli R, Merl Pham J, Azimzadeh O, Mutschelknaus L, Peters C, Hauck S, et al. Quantitative changes in the protein and miRNA cargo of plasma exosome-like vesicles after exposure to ionizing radiation. Int J Radiat Biol. 2017;93:569-580 pubmed publisher
  35. Puhka M, Nordberg M, Valkonen S, Rannikko A, Kallioniemi O, Siljander P, et al. KeepEX, a simple dilution protocol for improving extracellular vesicle yields from urine. Eur J Pharm Sci. 2017;98:30-39 pubmed publisher
  36. Saha S, Aranda E, Hayakawa Y, Bhanja P, Atay S, Brodin N, et al. Macrophage-derived extracellular vesicle-packaged WNTs rescue intestinal stem cells and enhance survival after radiation injury. Nat Commun. 2016;7:13096 pubmed publisher
  37. Edgar J, Manna P, Nishimura S, Banting G, Robinson M. Tetherin is an exosomal tether. elife. 2016;5: pubmed publisher
  38. Coenen Stass A, Betts C, Lee Y, Mäger I, Turunen M, El Andaloussi S, et al. Selective release of muscle-specific, extracellular microRNAs during myogenic differentiation. Hum Mol Genet. 2016;25:3960-3974 pubmed publisher
  39. Pinet S, Bessette B, Vedrenne N, Lacroix A, Richard L, Jauberteau M, et al. TrkB-containing exosomes promote the transfer of glioblastoma aggressiveness to YKL-40-inactivated glioblastoma cells. Oncotarget. 2016;7:50349-50364 pubmed publisher
  40. Languino L, Singh A, Prisco M, Inman G, Luginbuhl A, Curry J, et al. Exosome-mediated transfer from the tumor microenvironment increases TGF? signaling in squamous cell carcinoma. Am J Transl Res. 2016;8:2432-7 pubmed
  41. Sun Y, Zheng W, Guo Z, Ju Q, Zhu L, Gao J, et al. A novel TP53 pathway influences the HGS-mediated exosome formation in colorectal cancer. Sci Rep. 2016;6:28083 pubmed publisher
  42. DeRita R, Zerlanko B, Singh A, Lu H, Iozzo R, Benovic J, et al. c-Src, Insulin-Like Growth Factor I Receptor, G-Protein-Coupled Receptor Kinases and Focal Adhesion Kinase are Enriched Into Prostate Cancer Cell Exosomes. J Cell Biochem. 2017;118:66-73 pubmed publisher
  43. Kharmate G, Hosseini Beheshti E, Caradec J, Chin M, Tomlinson Guns E. Epidermal Growth Factor Receptor in Prostate Cancer Derived Exosomes. PLoS ONE. 2016;11:e0154967 pubmed publisher
  44. Kooijmans S, Fliervoet L, van der Meel R, Fens M, Heijnen H, van Bergen En Henegouwen P, et al. PEGylated and targeted extracellular vesicles display enhanced cell specificity and circulation time. J Control Release. 2016;224:77-85 pubmed publisher
  45. Shimoda A, Ueda K, Nishiumi S, Murata Kamiya N, Mukai S, Sawada S, et al. Exosomes as nanocarriers for systemic delivery of the Helicobacter pylori virulence factor CagA. Sci Rep. 2016;6:18346 pubmed publisher
  46. Gallart Palau X, Serra A, Wong A, Sandin S, Lai M, Chen C, et al. Extracellular vesicles are rapidly purified from human plasma by PRotein Organic Solvent PRecipitation (PROSPR). Sci Rep. 2015;5:14664 pubmed publisher
  47. Melo S, Luecke L, Kahlert C, Fernandez A, Gammon S, Kaye J, et al. Glypican-1 identifies cancer exosomes and detects early pancreatic cancer. Nature. 2015;523:177-82 pubmed publisher
  48. Rappa G, Green T, Lorico A. The nuclear pool of tetraspanin CD9 contributes to mitotic processes in human breast carcinoma. Mol Cancer Res. 2014;12:1840-50 pubmed publisher
  49. Zeng L, Wang G, Ummarino D, Margariti A, Xu Q, Xiao Q, et al. Histone deacetylase 3 unconventional splicing mediates endothelial-to-mesenchymal transition through transforming growth factor ?2. J Biol Chem. 2013;288:31853-66 pubmed publisher