Gene ontology annotations for ABI2 |
|
Experiment description of studies that identified ABI2 in exosomes |
1 |
Experiment ID |
489 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
Cd9|Cd81|Cd63|Gapdh|Sdcbp|Lamp1|Aqp1|Rab5a|Icam1|Cd82|Itga2b|Tsg101|Lamp2|Rab35|Flot1|Flot2|Cd151|Rab5b|Tfrc|Uchl1
|
Enriched markers |
✔
Canx
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
36408942
|
Organism |
Rattus norvegicus |
Experiment description |
Quantitative proteomic analysis of exosomes from umbilical cord mesenchymal stem cells and rat bone marrow stem cells |
Authors |
"Xu X, Yin F, Guo M, Gan G, Lin G, Wen C, Wang J, Song P, Wang J, Qi ZQ, Zhong CQ." |
Journal name |
Proteomics
|
Publication year |
2023 |
Sample |
Bone marrow mesenchymal stem cells |
Sample name |
BMSC - Passage 6 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
2 |
Experiment ID |
490 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
Cd9|Cd81|Cd63|Gapdh|Sdcbp|Lamp1|Aqp1|Rab5a|Icam1|Cd82|Itga2b|Tsg101|Lamp2|Rab35|Flot1|Flot2|Cd151|Rab5b|Tfrc|Uchl1
|
Enriched markers |
✔
Canx
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
36408942
|
Organism |
Rattus norvegicus |
Experiment description |
Quantitative proteomic analysis of exosomes from umbilical cord mesenchymal stem cells and rat bone marrow stem cells |
Authors |
"Xu X, Yin F, Guo M, Gan G, Lin G, Wen C, Wang J, Song P, Wang J, Qi ZQ, Zhong CQ." |
Journal name |
Proteomics
|
Publication year |
2023 |
Sample |
Bone marrow mesenchymal stem cells |
Sample name |
BMSC - Passage 7 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
3 |
Experiment ID |
491 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
Cd9|Cd81|Cd63|Gapdh|Sdcbp|Lamp1|Aqp1|Rab5a|Icam1|Cd82|Itga2b|Tsg101|Lamp2|Rab35|Flot1|Flot2|Cd151|Rab5b|Tfrc|Uchl1
|
Enriched markers |
✔
Canx
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
36408942
|
Organism |
Rattus norvegicus |
Experiment description |
Quantitative proteomic analysis of exosomes from umbilical cord mesenchymal stem cells and rat bone marrow stem cells |
Authors |
"Xu X, Yin F, Guo M, Gan G, Lin G, Wen C, Wang J, Song P, Wang J, Qi ZQ, Zhong CQ." |
Journal name |
Proteomics
|
Publication year |
2023 |
Sample |
Bone marrow mesenchymal stem cells |
Sample name |
BMSC - Passage 8 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
4 |
Experiment ID |
492 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
Cd9|Cd81|Cd63|Gapdh|Sdcbp|Lamp1|Aqp1|Rab5a|Icam1|Cd82|Itga2b|Tsg101|Lamp2|Rab35|Flot1|Flot2|Cd151|Rab5b|Tfrc|Uchl1
|
Enriched markers |
✔
Canx
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
36408942
|
Organism |
Rattus norvegicus |
Experiment description |
Quantitative proteomic analysis of exosomes from umbilical cord mesenchymal stem cells and rat bone marrow stem cells |
Authors |
"Xu X, Yin F, Guo M, Gan G, Lin G, Wen C, Wang J, Song P, Wang J, Qi ZQ, Zhong CQ." |
Journal name |
Proteomics
|
Publication year |
2023 |
Sample |
Bone marrow mesenchymal stem cells |
Sample name |
BMSC - Passage 9 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
5 |
Experiment ID |
207 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
TSG101|HSP70|FLOT1
|
Enriched markers |
✔
VDAC
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
23161513
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of exosomes from mutant KRAS colon cancer cells identifies intercellular transfer of mutant KRAS. |
Authors |
"Demory Beckler M, Higginbotham JN, Franklin JL, Ham AJ, Halvey PJ, Imasuen IE, Whitwell C, Li M, Liebler DC, Coffey RJ." |
Journal name |
Mol Cell Proteomics
|
Publication year |
2012 |
Sample |
Colorectal cancer cells |
Sample name |
DKO-1 |
Isolation/purification methods |
Differential centrifugation Filtration |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
6 |
Experiment ID |
208 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
TSG101|HSP70|FLOT1
|
Enriched markers |
✔
VDAC
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
23161513
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of exosomes from mutant KRAS colon cancer cells identifies intercellular transfer of mutant KRAS. |
Authors |
"Demory Beckler M, Higginbotham JN, Franklin JL, Ham AJ, Halvey PJ, Imasuen IE, Whitwell C, Li M, Liebler DC, Coffey RJ." |
Journal name |
Mol Cell Proteomics
|
Publication year |
2012 |
Sample |
Colorectal cancer cells |
Sample name |
Dks-8 |
Isolation/purification methods |
Differential centrifugation Filtration |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
7 |
Experiment ID |
209 |
MISEV standards |
✘
|
Biophysical techniques |
✔
TSG101|HSP70|FLOT1
|
Enriched markers |
✔
VDAC
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
23161513
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of exosomes from mutant KRAS colon cancer cells identifies intercellular transfer of mutant KRAS. |
Authors |
"Demory Beckler M, Higginbotham JN, Franklin JL, Ham AJ, Halvey PJ, Imasuen IE, Whitwell C, Li M, Liebler DC, Coffey RJ." |
Journal name |
Mol Cell Proteomics
|
Publication year |
2012 |
Sample |
Colorectal cancer cells |
Sample name |
DLD-1 |
Isolation/purification methods |
Differential centrifugation Filtration |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
8 |
Experiment ID |
363 |
MISEV standards |
✘
|
Biophysical techniques |
✔
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
|
Enriched markers |
✔
DCLK1
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
33991177
|
Organism |
Homo sapiens |
Experiment description |
Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells |
Authors |
"Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M." |
Journal name |
Proteomics
|
Publication year |
2021 |
Sample |
Gastric cancer cells |
Sample name |
MKN1 - 100K pellet |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
9 |
Experiment ID |
364 |
MISEV standards |
✘
|
Biophysical techniques |
✔
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
|
Enriched markers |
✔
DCLK1
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
33991177
|
Organism |
Homo sapiens |
Experiment description |
Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells |
Authors |
"Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M." |
Journal name |
Proteomics
|
Publication year |
2021 |
Sample |
Gastric cancer cells |
Sample name |
MKN1 - 100K pellet |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
10 |
Experiment ID |
365 |
MISEV standards |
✘
|
Biophysical techniques |
✔
TSG101|GAPDH|AQP1|CD151|CD81|CD82|CD9|EPCAM|FLOT1|FLOT2|ICAM1|ITGA2B|LAMP2|RAB35|RAB5A|RAB5B|SDCBP|TFRC|UCHL1
|
Enriched markers |
✔
DCLK1
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
33991177
|
Organism |
Homo sapiens |
Experiment description |
Cancer stem cell marker DCLK1 reprograms small extracellular vesicles toward migratory phenotype in gastric cancer cells |
Authors |
"Carli ALE, Afshar-Sterle S, Rai A, Fang H, O'Keefe R, Tse J, Ferguson FM, Gray NS, Ernst M, Greening DW, Buchert M." |
Journal name |
Proteomics
|
Publication year |
2021 |
Sample |
Gastric cancer cells |
Sample name |
MKN1 - 100K pellet |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
11 |
Experiment ID |
488 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
CD9|CD81|CD63|GAPDH|SDCBP|LAMP1|TFRC|UCHL1|FLOT2|LAMP2|FLOT1|ICAM1|RAB5B|CD151|RAB35|TSG101|RAB5A|CD82
|
Enriched markers |
✔
CANX
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
36408942
|
Organism |
Homo sapiens |
Experiment description |
Quantitative proteomic analysis of exosomes from umbilical cord mesenchymal stem cells and rat bone marrow stem cells |
Authors |
"Xu X, Yin F, Guo M, Gan G, Lin G, Wen C, Wang J, Song P, Wang J, Qi ZQ, Zhong CQ." |
Journal name |
Proteomics
|
Publication year |
2023 |
Sample |
Mesenchymal stem cells |
Sample name |
UCMSC |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
12 |
Experiment ID |
211 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
TSG101|Alix|EpCAM|TFRC
|
Enriched markers |
✔
cytochrome c|GOLGA2
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
23333927
|
Organism |
Homo sapiens |
Experiment description |
Characterization and proteomic analysis of ovarian cancer-derived exosomes. |
Authors |
"Liang B, Peng P, Chen S, Li L, Zhang M, Cao D, Yang J, Li H, Gui T, Li X, Shen K." |
Journal name |
J Proteomics
|
Publication year |
2013 |
Sample |
Ovarian cancer cells |
Sample name |
IGROV1 |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation Sucrose density gradient |
Flotation density |
1.09-1.15 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
13 |
Experiment ID |
212 |
MISEV standards |
✔
CEM
|
Biophysical techniques |
✔
TSG101|Alix|EpCAM|TFRC
|
Enriched markers |
✔
Cytochrome C|GOLGA2
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
23333927
|
Organism |
Homo sapiens |
Experiment description |
Characterization and proteomic analysis of ovarian cancer-derived exosomes. |
Authors |
"Liang B, Peng P, Chen S, Li L, Zhang M, Cao D, Yang J, Li H, Gui T, Li X, Shen K." |
Journal name |
J Proteomics
|
Publication year |
2013 |
Sample |
Ovarian cancer cells |
Sample name |
OVCAR-3 |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation Sucrose density gradient |
Flotation density |
1.09-1.15 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
14 |
Experiment ID |
231 |
MISEV standards |
✘
|
Biophysical techniques |
✔
Alix|CD63|CD9
|
Enriched markers |
✘
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
25332113
|
Organism |
Homo sapiens |
Experiment description |
Lipidomic and proteomic characterization of platelet extracellular vesicle subfractions from senescent platelets |
Authors |
"Pienimaeki-Roemer A, Kuhlmann K, Bottcher A, Konovalova T, Black A, Orso E, Liebisch G, Ahrens M, Eisenacher M, Meyer HE, Schmitz G." |
Journal name |
Transfusion
|
Publication year |
2015 |
Sample |
Platelets |
Sample name |
PL-Exs - Rep 1 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation Optiprep density gradient |
Flotation density |
1.12-1.15 g/mL
|
Molecules identified in the study |
Protein Lipids |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
15 |
Experiment ID |
232 |
MISEV standards |
✘
|
Biophysical techniques |
✘
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
25332113
|
Organism |
Homo sapiens |
Experiment description |
Lipidomic and proteomic characterization of platelet extracellular vesicle subfractions from senescent platelets |
Authors |
"Pienimaeki-Roemer A, Kuhlmann K, Bottcher A, Konovalova T, Black A, Orso E, Liebisch G, Ahrens M, Eisenacher M, Meyer HE, Schmitz G." |
Journal name |
Transfusion
|
Publication year |
2015 |
Sample |
Platelets |
Sample name |
PL-Exs - Rep 2 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation Optiprep density gradient |
Flotation density |
1.12-1.15 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
16 |
Experiment ID |
233 |
MISEV standards |
✘
|
Biophysical techniques |
✘
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
25332113
|
Organism |
Homo sapiens |
Experiment description |
Lipidomic and proteomic characterization of platelet extracellular vesicle subfractions from senescent platelets |
Authors |
"Pienimaeki-Roemer A, Kuhlmann K, Bottcher A, Konovalova T, Black A, Orso E, Liebisch G, Ahrens M, Eisenacher M, Meyer HE, Schmitz G." |
Journal name |
Transfusion
|
Publication year |
2015 |
Sample |
Platelets |
Sample name |
PL-Exs - Rep 3 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation Optiprep density gradient |
Flotation density |
1.12-1.15 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
17 |
Experiment ID |
834 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
LAMP2|CD63|FLOT1|ITGA2B|ICAM1|CD9|CD151|TFRC|RAB5A|GAPDH|AQP1|TSG101
|
Enriched markers |
✔
CANX
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
35333565
|
Organism |
Homo sapiens |
Experiment description |
LAMP2A regulates the loading of proteins into exosomes |
Authors |
"Ferreira JV, da Rosa Soares A, Ramalho J, Máximo Carvalho C, Cardoso MH, Pintado P, Carvalho AS, Beck HC, Matthiesen R, Zuzarte M, Girão H, van Niel G, Pereira P" |
Journal name |
Sci Adv
|
Publication year |
2022 |
Sample |
Retinal pigment epithelial cells |
Sample name |
ARPE-19 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
18 |
Experiment ID |
835 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
CD63|FLOT1|ITGA2B|ICAM1|CD9|CD151|TFRC|RAB5A|GAPDH|AQP1|TSG101
|
Enriched markers |
✔
CANX
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
35333565
|
Organism |
Homo sapiens |
Experiment description |
LAMP2A regulates the loading of proteins into exosomes |
Authors |
"Ferreira JV, da Rosa Soares A, Ramalho J, Máximo Carvalho C, Cardoso MH, Pintado P, Carvalho AS, Beck HC, Matthiesen R, Zuzarte M, Girão H, van Niel G, Pereira P" |
Journal name |
Sci Adv
|
Publication year |
2022 |
Sample |
Retinal pigment epithelial cells |
Sample name |
ARPE-19 |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectrometry |
|
|
Protein-protein interactions for ABI2 |
|
Protein Interactor |
ExoCarta ID |
Identification method |
PubMed |
Species |
1 |
PSMA1 |
5682 |
Two-hybrid |
|
Homo sapiens |
|
2 |
HOMER3 |
9454 |
Two-hybrid |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
3 |
PRKAA1 |
5562 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
4 |
APPL2 |
55198 |
Co-fractionation |
|
Homo sapiens |
|
5 |
PPP3CA |
5530 |
Two-hybrid |
|
Homo sapiens |
|
6 |
TNIP1 |
10318 |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
7 |
HOOK1 |
|
Proximity Label-MS |
|
Homo sapiens |
|
8 |
KLC2 |
64837 |
Affinity Capture-MS |
|
Homo sapiens |
|
9 |
Caskin1 |
|
Two-hybrid |
|
Rattus norvegicus |
|
10 |
BLOC1S6 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
11 |
SNAP23 |
8773 |
Two-hybrid |
|
Homo sapiens |
|
12 |
CASC1 |
|
Two-hybrid |
|
Homo sapiens |
|
13 |
CCDC36 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
14 |
SIKE1 |
|
Affinity Capture-MS |
|
Homo sapiens |
|
15 |
KIFC3 |
3801 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
16 |
WASF2 |
10163 |
Affinity Capture-MS |
|
Homo sapiens |
Reconstituted Complex |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
17 |
AES |
166 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
18 |
TPM2 |
7169 |
Two-hybrid |
|
Homo sapiens |
|
19 |
YWHAE |
7531 |
Affinity Capture-MS |
|
Homo sapiens |
|
20 |
C19orf54 |
|
Two-hybrid |
|
Homo sapiens |
|
21 |
NUP62 |
23636 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
22 |
CAP1 |
10487 |
Co-fractionation |
|
Homo sapiens |
|
23 |
GFAP |
2670 |
Two-hybrid |
|
Homo sapiens |
|
24 |
DISC1 |
27185 |
Two-hybrid |
|
Homo sapiens |
|
25 |
MAGEA1 |
|
Two-hybrid |
|
Homo sapiens |
|
26 |
ENKD1 |
|
Two-hybrid |
|
Homo sapiens |
|
27 |
NCKIPSD |
51517 |
Two-hybrid |
|
Homo sapiens |
|
28 |
CENPH |
|
Two-hybrid |
|
Homo sapiens |
|
29 |
RASD1 |
|
Two-hybrid |
|
Homo sapiens |
|
30 |
C20orf202 |
|
Two-hybrid |
|
Homo sapiens |
|
31 |
STX4 |
6810 |
Two-hybrid |
|
Homo sapiens |
|
32 |
CCDC102B |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
33 |
VASP |
7408 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
34 |
ADAM19 |
8728 |
Two-hybrid |
|
Homo sapiens |
Reconstituted Complex |
|
Homo sapiens |
|
35 |
ABL2 |
|
Affinity Capture-MS |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
36 |
ARMC7 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
37 |
LMO2 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
38 |
RAPH1 |
65059 |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
39 |
MRFAP1L1 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
40 |
RNPS1 |
10921 |
Two-hybrid |
|
Homo sapiens |
|
41 |
NCKAP1L |
3071 |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
42 |
SNAPIN |
23557 |
Two-hybrid |
|
Homo sapiens |
|
43 |
FAM166B |
|
Two-hybrid |
|
Homo sapiens |
|
44 |
SHMT2 |
6472 |
Affinity Capture-RNA |
|
Homo sapiens |
|
45 |
LENG1 |
|
Two-hybrid |
|
Homo sapiens |
|
46 |
HGS |
9146 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
47 |
DLGAP2 |
|
Two-hybrid |
|
Homo sapiens |
|
48 |
KHDRBS1 |
10657 |
Protein-peptide |
|
Homo sapiens |
|
49 |
OIP5 |
|
Two-hybrid |
|
Homo sapiens |
|
50 |
ABI1 |
10006 |
Affinity Capture-MS |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
51 |
TFIP11 |
|
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
52 |
BRK1 |
55845 |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
53 |
WASH1 |
100287171 |
Two-hybrid |
|
Homo sapiens |
|
54 |
KRT31 |
3881 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
55 |
NHS |
4810 |
Affinity Capture-MS |
|
Homo sapiens |
|
56 |
CCDC53 |
51019 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
57 |
WASL |
8976 |
Two-hybrid |
|
Homo sapiens |
Co-fractionation |
|
Homo sapiens |
|
58 |
YWHAH |
7533 |
Affinity Capture-MS |
|
Homo sapiens |
|
59 |
CCDC115 |
84317 |
Two-hybrid |
|
Homo sapiens |
|
60 |
CEP57 |
|
Two-hybrid |
|
Homo sapiens |
|
61 |
LHX4 |
|
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
62 |
PHF1 |
|
Two-hybrid |
|
Homo sapiens |
|
63 |
FSD2 |
123722 |
Affinity Capture-MS |
|
Homo sapiens |
|
64 |
TIMM50 |
92609 |
Affinity Capture-MS |
|
Homo sapiens |
|
65 |
LMO1 |
|
Two-hybrid |
|
Homo sapiens |
|
66 |
KNSTRN |
|
Two-hybrid |
|
Homo sapiens |
|
67 |
SDCBP |
6386 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
68 |
NCK1 |
4690 |
Affinity Capture-MS |
|
Homo sapiens |
|
69 |
SLA |
|
Two-hybrid |
|
Homo sapiens |
|
70 |
WASF3 |
10810 |
Two-hybrid |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
71 |
PRR20C |
|
Two-hybrid |
|
Homo sapiens |
|
72 |
CGB2 |
|
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
73 |
IFT20 |
90410 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
74 |
C1orf216 |
|
Two-hybrid |
|
Homo sapiens |
|
75 |
EGR4 |
|
Two-hybrid |
|
Homo sapiens |
|
76 |
YWHAB |
7529 |
Affinity Capture-MS |
|
Homo sapiens |
|
77 |
WIPF1 |
7456 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
78 |
PWWP2B |
|
Two-hybrid |
|
Homo sapiens |
|
79 |
RABGEF1 |
27342 |
Two-hybrid |
|
Homo sapiens |
|
80 |
SPAG5 |
10615 |
Affinity Capture-MS |
|
Homo sapiens |
|
81 |
KIAA1217 |
56243 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
82 |
STAM2 |
10254 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
83 |
OOEP |
|
Two-hybrid |
|
Homo sapiens |
|
84 |
KRT34 |
|
Two-hybrid |
|
Homo sapiens |
|
85 |
ARHGAP12 |
|
Affinity Capture-MS |
|
Homo sapiens |
|
86 |
FHL5 |
9457 |
Two-hybrid |
|
Homo sapiens |
|
87 |
TRIML2 |
|
Two-hybrid |
|
Homo sapiens |
|
88 |
MYO15B |
80022 |
Two-hybrid |
|
Homo sapiens |
|
89 |
IKBIP |
121457 |
Affinity Capture-MS |
|
Homo sapiens |
|
90 |
FAM161B |
|
Two-hybrid |
|
Homo sapiens |
|
91 |
WASF1 |
8936 |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
92 |
PAK2 |
5062 |
Two-hybrid |
|
Homo sapiens |
|
93 |
MYOZ3 |
|
Two-hybrid |
|
Homo sapiens |
|
94 |
PARK2 |
|
Affinity Capture-MS |
|
Homo sapiens |
|
95 |
KRT24 |
192666 |
Two-hybrid |
|
Homo sapiens |
|
96 |
FAM9C |
|
Two-hybrid |
|
Homo sapiens |
|
97 |
MCAM |
4162 |
Proximity Label-MS |
|
Homo sapiens |
|
98 |
VPS28 |
51160 |
Two-hybrid |
|
Homo sapiens |
|
99 |
FOXD4L1 |
|
Two-hybrid |
|
Homo sapiens |
|
100 |
C10orf88 |
|
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
101 |
CASKIN2 |
|
Affinity Capture-MS |
|
Homo sapiens |
Affinity Capture-MS |
|
Homo sapiens |
|
102 |
CCDC57 |
284001 |
Two-hybrid |
|
Homo sapiens |
|
103 |
BLOC1S5 |
63915 |
Two-hybrid |
|
Homo sapiens |
|
104 |
PTPRE |
5791 |
Proximity Label-MS |
|
Homo sapiens |
|
105 |
VCL |
7414 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
106 |
DTNB |
1838 |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
Two-hybrid |
|
Homo sapiens |
|
107 |
NTRK1 |
4914 |
Affinity Capture-MS |
|
Homo sapiens |
|
108 |
MYOG |
|
Two-hybrid |
|
Homo sapiens |
|
109 |
PLEKHN1 |
|
Two-hybrid |
|
Homo sapiens |
|
110 |
LHX3 |
|
Two-hybrid |
|
Homo sapiens |
|
111 |
LHX8 |
|
Two-hybrid |
|
Homo sapiens |
|
|
| | |