Gene description for CD9 |
Gene name |
CD9 molecule |
Gene symbol |
CD9 |
Other names/aliases |
BTCC-1 DRAP-27 MIC3 MRP-1 TSPAN-29 TSPAN29 |
Species |
Homo sapiens |
Experiment description of studies that identified CD9 in Breast cancer cells |
1
|
Experiment ID | 575 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | EVs |
Identification method | Mass spectrometry [LTQ]
|
PubMed ID |
27894104
|
Organism | Homo sapiens |
Experiment description | Proteomic profiling of NCI-60 extracellular vesicles uncovers common protein cargo and cancer type-specific biomarkers. |
Authors | Hurwitz SN, Rider MA, Bundy JL, Liu X, Singh RK, Meckes DG Jr. |
Journal name |
Oncotarget
|
Publication year | 2016 |
Sample | Breast cancer cells |
Sample name | BT549 |
Isolation/purification methods | Differential centrifugation Polymer-based precipitation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectrometry [LTQ] |
EV-TRACK |
-
|
|
|
2
|
Experiment ID | 579 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | EVs |
Identification method | Mass spectrometry [LTQ]
|
PubMed ID |
27894104
|
Organism | Homo sapiens |
Experiment description | Proteomic profiling of NCI-60 extracellular vesicles uncovers common protein cargo and cancer type-specific biomarkers. |
Authors | Hurwitz SN, Rider MA, Bundy JL, Liu X, Singh RK, Meckes DG Jr. |
Journal name |
Oncotarget
|
Publication year | 2016 |
Sample | Breast cancer cells |
Sample name | MDA-MB-468 |
Isolation/purification methods | Differential centrifugation Polymer-based precipitation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectrometry [LTQ] |
EV-TRACK |
-
|
|
|
3
|
Experiment ID | 1029 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | EVs |
Identification method | Mass spectrometry
|
PubMed ID |
26378940
|
Organism | Homo sapiens |
Experiment description | Redefining the Breast Cancer Exosome Proteome by Tandem Mass Tag Quantitative Proteomics and Multivariate Cluster Analysis. |
Authors | Clark DJ, Fondrie WE, Liao Z, Hanson PI, Fulton A, Mao L, Yang AJ. |
Journal name |
Anal Chem.
|
Publication year | 2015 |
Sample | Breast cancer cells |
Sample name | SKBR3B - 100 K pellet |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectrometry Western blotting |
EV-TRACK |
EV150004: EV-METRIC:67%, 38%
|
|
|
4
|
Experiment ID | 886 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | EVs |
Identification method | Mass spectrometry Western blotting
|
PubMed ID |
25102470
|
Organism | Homo sapiens |
Experiment description | Examination of the specificity of tumor cell derived exosomes with tumor cells in vitro |
Authors | Smyth TJ, Redzic JS, Graner MW, Anchordoquy TJ. |
Journal name |
Biochim Biophys Acta
|
Publication year | 2014 |
Sample | Breast cancer cells |
Sample name | MCF-7 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation Density gradient centrifugation |
Flotation density | 1.10-1.20 g/mL |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectrometry Western blotting |
EV-TRACK |
EV140013: EV-METRIC:56%
|
|
|
5
|
Experiment ID | 1568 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
6
|
Experiment ID | 1569 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
7
|
Experiment ID | 1622 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34796683
|
Organism | Homo sapiens |
Experiment description | High TSPAN8 expression in epithelial cancer cell-derived small extracellular vesicles promote confined diffusion and pronounced uptake |
Authors | Wang T, Wang X, Wang H, Li L, Zhang C, Xiang R, Tan X, Li Z, Jiang C, Zheng L, Xiao L, Yue S. |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | T-47D |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
8
|
Experiment ID | 1623 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34796683
|
Organism | Homo sapiens |
Experiment description | High TSPAN8 expression in epithelial cancer cell-derived small extracellular vesicles promote confined diffusion and pronounced uptake |
Authors | Wang T, Wang X, Wang H, Li L, Zhang C, Xiang R, Tan X, Li Z, Jiang C, Zheng L, Xiao L, Yue S. |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | T-47D |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
9
|
Experiment ID | 1963 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectometry Immuno-EM Flow cytometry ELISA |
EV-TRACK |
-
|
|
|
10
|
Experiment ID | 1964 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MCF10A |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
11
|
Experiment ID | 1965 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
12
|
Experiment ID | 1968 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Fraction 5 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation Sucrose density gradient centrifugation |
Flotation density | 1.149 g/mL |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
13
|
Experiment ID | 1969 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Fraction 6 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation Sucrose density gradient centrifugation |
Flotation density | 1.174 g/mL |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
14
|
Experiment ID | 1970 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Fraction 7 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation Sucrose density gradient centrifugation |
Flotation density | 1.2 g/mL |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
15
|
Experiment ID | 1971 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Fraction 8 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation Sucrose density gradient centrifugation |
Flotation density | 1.227 g/mL |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
16
|
Experiment ID | 1998 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34112803
|
Organism | Homo sapiens |
Experiment description | Tumor microenvironmental cytokines bound to cancer exosomes determine uptake by cytokine receptor-expressing cells and biodistribution |
Authors | Lima LG, Ham S, Shin H, Chai EPZ, Lek ESH, Lobb RJ, Müller AF, Mathivanan S, Yeo B, Choi Y, Parker BS, Möller A. |
Journal name |
Nat Commun
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography Centrifugal ultrafiltration |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
17
|
Experiment ID | 1999 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34112803
|
Organism | Homo sapiens |
Experiment description | Tumor microenvironmental cytokines bound to cancer exosomes determine uptake by cytokine receptor-expressing cells and biodistribution |
Authors | Lima LG, Ham S, Shin H, Chai EPZ, Lek ESH, Lobb RJ, Müller AF, Mathivanan S, Yeo B, Choi Y, Parker BS, Möller A. |
Journal name |
Nat Commun
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography Centrifugal ultrafiltration |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
18
|
Experiment ID | 2003 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34112803
|
Organism | Mus musculus |
Experiment description | Tumor microenvironmental cytokines bound to cancer exosomes determine uptake by cytokine receptor-expressing cells and biodistribution |
Authors | Lima LG, Ham S, Shin H, Chai EPZ, Lek ESH, Lobb RJ, Müller AF, Mathivanan S, Yeo B, Choi Y, Parker BS, Möller A. |
Journal name |
Nat Commun
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | EO771 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography Centrifugal ultrafiltration |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
19
|
Experiment ID | 2004 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34112803
|
Organism | Mus musculus |
Experiment description | Tumor microenvironmental cytokines bound to cancer exosomes determine uptake by cytokine receptor-expressing cells and biodistribution |
Authors | Lima LG, Ham S, Shin H, Chai EPZ, Lek ESH, Lobb RJ, Müller AF, Mathivanan S, Yeo B, Choi Y, Parker BS, Möller A. |
Journal name |
Nat Commun
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | EO771 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography Centrifugal ultrafiltration |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
20
|
Experiment ID | 2005 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
34112803
|
Organism | Mus musculus |
Experiment description | Tumor microenvironmental cytokines bound to cancer exosomes determine uptake by cytokine receptor-expressing cells and biodistribution |
Authors | Lima LG, Ham S, Shin H, Chai EPZ, Lek ESH, Lobb RJ, Müller AF, Mathivanan S, Yeo B, Choi Y, Parker BS, Möller A. |
Journal name |
Nat Commun
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | EO771 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography Centrifugal ultrafiltration |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
21
|
Experiment ID | 2863 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
22
|
Experiment ID | 2864 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
23
|
Experiment ID | 2867 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectrometry |
EV-TRACK |
-
|
|
|
24
|
Experiment ID | 2868 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
25
|
Experiment ID | 2869 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
26
|
Experiment ID | 2870 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectrometry |
EV-TRACK |
-
|
|
|
27
|
Experiment ID | 2873 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
28
|
Experiment ID | 2874 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
29
|
Experiment ID | 2875 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
30
|
Experiment ID | 2876 |
Identified molecule | protein
|
Extracellular vesicle type | Small extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
30918259
|
Organism | Homo sapiens |
Experiment description | Sulfisoxazole inhibits the secretion of small extracellular vesicles by targeting the endothelin receptor A |
Authors | Im EJ, Lee CH, Moon PG, Rangaswamy GG, Lee B, Lee JM, Lee JC, Jee JG, Bae JS, Kwon TK, Kang KW, Jeong MS, Lee JE, Jung HS, Ro HJ, Jun S, Kang W, Seo SY, Cho YE, Song BJ, Baek MC. |
Journal name |
Nat Commun
|
Publication year | 2019 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
31
|
Experiment ID | 3223 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Western blotting
|
PubMed ID |
32111843
|
Organism | Homo sapiens |
Experiment description | A CRISPR-Cas9-based reporter system for single-cell detection of extracellular vesicle-mediated functional transfer of RNA |
Authors | de Jong OG, Murphy DE, Mäger I, Willms E, Garcia-Guerra A, Gitz-Francois JJ, Lefferts J, Gupta D, Steenbeek SC, van Rheenen J, El Andaloussi S, Schiffelers RM, Wood MJA, Vader P. |
Journal name |
Nat Commun
|
Publication year | 2020 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Tangential flow filtration Filtration Size exclusion chromatography |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting |
EV-TRACK |
-
|
|
|
32
|
Experiment ID | 1664 |
Identified molecule | Protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein mRNA |
Methods used in the study | RT-qPCR Western blotting Mass spectrometry Flow cytometry |
EV-TRACK |
-
|
|
|
33
|
Experiment ID | 1666 |
Identified molecule | Protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein mRNA |
Methods used in the study | RT-qPCR Western blotting Mass spectrometry Flow cytometry |
EV-TRACK |
-
|
|
|
34
|
Experiment ID | 1678 |
Identified molecule | Protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Exo-rich fractions 7-10 pooled |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectrometry |
EV-TRACK |
-
|
|
|
35
|
Experiment ID | 1678 |
Identified molecule | Protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Exo-rich fractions 7-10 pooled |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation Size exclusion chromatography |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectrometry |
EV-TRACK |
-
|
|
|
36
|
Experiment ID | 1679 |
Identified molecule | Protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 - Exo-rich fractions 1-6 pooled |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation OptiPrep density gradient centrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectrometry |
EV-TRACK |
-
|
|
|
37
|
Experiment ID | 1758 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry Western blotting |
EV-TRACK |
-
|
|
|
38
|
Experiment ID | 1758 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry Western blotting |
EV-TRACK |
-
|
|
|
39
|
Experiment ID | 1759 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | LM2 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry |
EV-TRACK |
-
|
|
|
40
|
Experiment ID | 1760 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry |
EV-TRACK |
-
|
|
|
41
|
Experiment ID | 1760 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry |
EV-TRACK |
-
|
|
|
42
|
Experiment ID | 1761 |
Identified molecule | Protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35918900
|
Organism | Homo sapiens |
Experiment description | Characterization of protein complexes in extracellular vesicles by intact extracellular vesicle crosslinking mass spectrometry (iEVXL) |
Authors | Bauzá-Martinez J, Armony G, Pronker MF, Wu W. |
Journal name |
J Extracell Vesicles
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | LM2 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Mass spectometry |
EV-TRACK |
-
|
|
|
43
|
Experiment ID | 1963 |
Identified molecule | protein
|
Extracellular vesicle type | Extracellular vesicles |
MISEV | Small EVs |
Identification method | Mass spectrometry
|
PubMed ID |
35915084
|
Organism | Homo sapiens |
Experiment description | Breast cancer cell-derived extracellular vesicles promote CD8+ T cell exhaustion via TGF-β type II receptor signaling |
Authors | Xie F, Zhou X, Su P, Li H, Tu Y, Du J, Pan C, Wei X, Zheng M, Jin K, Miao L, Wang C, Meng X, van Dam H, Ten Dijke P, Zhang L, Zhou F. |
Journal name |
Nat Commun
|
Publication year | 2022 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Mass spectometry Immuno-EM Flow cytometry ELISA |
EV-TRACK |
-
|
|
|
44
|
Experiment ID | 1568 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Immunofluorescence
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
45
|
Experiment ID | 1569 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Immunofluorescence
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
46
|
Experiment ID | 1568 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Flow cytometry
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
47
|
Experiment ID | 1569 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Flow cytometry
|
PubMed ID |
33738083
|
Organism | Homo sapiens |
Experiment description | Bioorthogonally surface-edited extracellular vesicles based on metabolic glycoengineering for CD44-mediated targeting of inflammatory diseases |
Authors | Lim GT, You DG, Han HS, Lee H, Shin S, Oh BH, Kumar EKP, Um W, Kim CH, Han S, Lee S, Lim S, Yoon HY, Kim K, Kwon IC, Jo DG, Cho YW, Park JH |
Journal name |
J Extracell Vesicles
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA‐MB‐231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein |
Methods used in the study | Western blotting Immunofluorescence Flow cytomtery |
EV-TRACK |
-
|
|
|
48
|
Experiment ID | 1664 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Flow cytometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MCF7 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein mRNA |
Methods used in the study | RT-qPCR Western blotting Mass spectrometry Flow cytometry |
EV-TRACK |
-
|
|
|
49
|
Experiment ID | 1666 |
Identified molecule | protein
|
Extracellular vesicle type | Exosomes |
MISEV | Small EVs |
Identification method | Flow cytometry
|
PubMed ID |
34108659
|
Organism | Homo sapiens |
Experiment description | Quantitative Proteomics Identifies the Core Proteome of Exosomes with Syntenin-1 as the highest abundant protein and a Putative Universal Biomarker |
Authors | Kugeratski FG, Hodge K, Lilla S, McAndrews KM, Zhou X, Hwang RF, Zanivan S, Kalluri R. |
Journal name |
Nat Cell Biol
|
Publication year | 2021 |
Sample | Breast cancer cells |
Sample name | MDA-MB-231 |
Isolation/purification methods | Differential centrifugation Filtration Ultracentrifugation |
Flotation density | - |
Molecules identified in the study | Protein mRNA |
Methods used in the study | RT-qPCR Western blotting Mass spectrometry Flow cytometry |
EV-TRACK |
-
|
|
|