Gene ontology annotations for SELENBP1 |
|
Experiment description of studies that identified SELENBP1 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 |
46 |
MISEV standards |
✔
EM|IEM
|
Biophysical techniques |
✔
HSC70|CD63|MHCII|CD81|CD86
|
Enriched markers |
✔
CANX
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
17641064
|
Organism |
Homo sapiens |
Experiment description |
Exosomes with immune modulatory features are present in human breast milk. |
Authors |
"Admyre C, Johansson SM, Qazi KR, Filen JJ, Lahesmaa R, Norman M, Neve EP, Scheynius A, Gabrielsson S" |
Journal name |
JIMMU
|
Publication year |
2007 |
Sample |
Breast milk |
Sample name |
Breast milk - Colostrum |
Isolation/purification methods |
Differential centrifugation Filtration Sucrose density gradient |
Flotation density |
1.10-1.18 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry [QSTAR] Western blotting Immunoelectron Microscopy FACS |
|
|
6 |
Experiment ID |
48 |
MISEV standards |
✔
EM|IEM
|
Biophysical techniques |
✔
HSC70|CD63|CD86|MHCII
|
Enriched markers |
✔
CANX
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
17641064
|
Organism |
Homo sapiens |
Experiment description |
Exosomes with immune modulatory features are present in human breast milk. |
Authors |
"Admyre C, Johansson SM, Qazi KR, Filen JJ, Lahesmaa R, Norman M, Neve EP, Scheynius A, Gabrielsson S" |
Journal name |
JIMMU
|
Publication year |
2007 |
Sample |
Breast milk |
Sample name |
Breast milk - Mature milk |
Isolation/purification methods |
Differential centrifugation Filtration Sucrose density gradient |
Flotation density |
1.10-1.18 g/mL
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry [QSTAR] Western blotting Immunoelectron Microscopy FACS |
|
|
7 |
Experiment ID |
494 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
CD9|CD81|CD151|CD63|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|SDCBP|TFRC|TSG101
|
Enriched markers |
✘
|
Negative markers |
✔
NTA
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
35931686
|
Organism |
Homo sapiens |
Experiment description |
Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression |
Authors |
"Varela-EirÃÂn M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, GarcÃÂa-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD." |
Journal name |
Cell Death Dis
|
Publication year |
2022 |
Sample |
Chondrocytes |
Sample name |
Osteoarthritic cartilage |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
8 |
Experiment ID |
496 |
MISEV standards |
✘
|
Biophysical techniques |
✔
CD9|CD151|CD63|CD81|CD82|FLOT1|FLOT2|GAPDH|LAMP1|LAMP2|SDCBP|TFRC|TSG101
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
Protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
35931686
|
Organism |
Homo sapiens |
Experiment description |
Extracellular vesicles enriched in connexin 43 promote a senescent phenotype in bone and synovial cells contributing to osteoarthritis progression |
Authors |
"Varela-EirÃÂn M, Carpintero-Fernández P, Guitián-Caamaño A, Varela-Vázquez A, GarcÃÂa-Yuste A, Sánchez-Temprano A, Bravo-López SB, Yañez-Cabanas J, Fonseca E, Largo R, Mobasheri A, Caeiro JR, Mayán MD." |
Journal name |
Cell Death Dis
|
Publication year |
2022 |
Sample |
Chondrocytes |
Sample name |
Healthy cartilage |
Isolation/purification methods |
Differential centrifugation Filtration Ultracentrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Western blotting Mass spectometry |
|
|
9 |
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 |
|
|
10 |
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 |
|
|
11 |
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 |
|
|
12 |
Experiment ID |
1203 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
SDCBP|FLOT1|CD9|CD81|CD63|EPCAM|GAPDH|LAMP1|TFRC|CD151|CD82|LAMP2|RAB35|TSG101|FLOT2|RAB5B|ICAM1|RAB5A
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
34887515
|
Organism |
Homo sapiens |
Experiment description |
Supermeres are functional extracellular nanoparticles replete with disease biomarkers and therapeutic targets |
Authors |
"Zhang Q, Jeppesen DK, Higginbotham JN, Graves-Deal R, Trinh VQ, Ramirez MA, Sohn Y, Neininger AC, Taneja N, McKinley ET, Niitsu H, Cao Z, Evans R, Glass SE, Ray KC, Fissell WH, Hill S, Rose KL, Huh WJ, Washington MK, Ayers GD, Burnette DT, Sharma S, Rome LH, Franklin JL, Lee YA, Liu Q, Coffey RJ." |
Journal name |
Nat Cell Biol
|
Publication year |
2021 |
Sample |
Colorectal cancer cells |
Sample name |
DiFi |
Isolation/purification methods |
Differential centrifugation Filtration Centrifugal ultrafiltration Ultracentrifugation OptiPrep density gradient centrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein miRNA |
Methods used in the study |
Western blotting Mass spectrometry RNA sequencing |
|
|
13 |
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 |
|
|
14 |
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 |
|
|
15 |
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 |
|
|
16 |
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 |
|
|
17 |
Experiment ID |
63 |
MISEV standards |
✘
|
Biophysical techniques |
✔
AQP2
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
19056867
|
Organism |
Homo sapiens |
Experiment description |
Large-scale proteomics and phosphoproteomics of urinary exosomes. |
Authors |
"Gonzales PA, Pisitkun T, Hoffert JD, Tchapyjnikov D, Star RA, Kleta R, Wang NS, Knepper MA" |
Journal name |
JASN
|
Publication year |
2009 |
Sample |
Urine |
Sample name |
Urine - Normal |
Isolation/purification methods |
Differential centrifugation |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry [LTQ] Western blotting |
|
|
18 |
Experiment ID |
193 |
MISEV standards |
✔
EM
|
Biophysical techniques |
✔
CD63|CD9
|
Enriched markers |
✔
PHB
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
21595033
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of urinary exosomes from patients of early IgA nephropathy and thin basement membrane nephropathy. |
Authors |
"Moon PG, Lee JE, You S, Kim TK, Cho JH, Kim IS, Kwon TH, Kim CD, Park SH, Hwang D, Kim YL, Baek MC." |
Journal name |
Proteomics
|
Publication year |
2011 |
Sample |
Urine |
Sample name |
Urine - Normal |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation Sucrose density gradient |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
19 |
Experiment ID |
194 |
MISEV standards |
✘
|
Biophysical techniques |
✘
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
21595033
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of urinary exosomes from patients of early IgA nephropathy and thin basement membrane nephropathy. |
Authors |
"Moon PG, Lee JE, You S, Kim TK, Cho JH, Kim IS, Kwon TH, Kim CD, Park SH, Hwang D, Kim YL, Baek MC." |
Journal name |
Proteomics
|
Publication year |
2011 |
Sample |
Urine |
Sample name |
Urine - Patients of basement membrane nephropathy |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation Sucrose density gradient |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
20 |
Experiment ID |
195 |
MISEV standards |
✘
|
Biophysical techniques |
✘
|
Enriched markers |
✘
|
Negative markers |
✘
|
Particle analysis
|
|
Identified molecule |
protein
|
Identification method |
Mass spectrometry
|
PubMed ID |
21595033
|
Organism |
Homo sapiens |
Experiment description |
Proteomic analysis of urinary exosomes from patients of early IgA nephropathy and thin basement membrane nephropathy. |
Authors |
"Moon PG, Lee JE, You S, Kim TK, Cho JH, Kim IS, Kwon TH, Kim CD, Park SH, Hwang D, Kim YL, Baek MC." |
Journal name |
Proteomics
|
Publication year |
2011 |
Sample |
Urine |
Sample name |
Urine - Patients of early IgA nephropathy |
Isolation/purification methods |
Differential centrifugation Ultracentrifugation Sucrose density gradient |
Flotation density |
-
|
Molecules identified in the study |
Protein |
Methods used in the study |
Mass spectrometry |
|
|
Protein-protein interactions for SELENBP1 |
|
Protein Interactor |
ExoCarta ID |
Identification method |
PubMed |
Species |
1 |
F11R |
50848 |
Affinity Capture-MS |
 |
Homo sapiens |
|
2 |
UQCRFS1 |
7386 |
Co-fractionation |
 |
Homo sapiens |
|
3 |
HOOK1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
4 |
FBXO7 |
25793 |
Affinity Capture-MS |
 |
Homo sapiens |
|
5 |
ORMDL3 |
94103 |
Affinity Capture-MS |
 |
Homo sapiens |
|
6 |
HOXA9 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
7 |
ASGR2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
8 |
OFCC1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
9 |
RAB9B |
51209 |
Affinity Capture-MS |
 |
Homo sapiens |
|
10 |
ARL11 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
11 |
SRFBP1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
12 |
SCAF4 |
57466 |
Co-fractionation |
 |
Homo sapiens |
|
13 |
PIR |
8544 |
Co-fractionation |
 |
Homo sapiens |
|
14 |
ST6GALNAC3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
15 |
SATB2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
16 |
S100A4 |
6275 |
Co-fractionation |
 |
Homo sapiens |
|
17 |
ZNF24 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
18 |
IL31RA |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
19 |
SRSF10 |
10772 |
Affinity Capture-MS |
 |
Homo sapiens |
|
20 |
CHD8 |
57680 |
Affinity Capture-MS |
 |
Homo sapiens |
|
21 |
SLAMF6 |
114836 |
Affinity Capture-MS |
 |
Homo sapiens |
|
22 |
CPLX3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
23 |
C21orf33 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
24 |
GDF5 |
8200 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
25 |
USP33 |
|
Reconstituted Complex |
 |
Homo sapiens |
Two-hybrid |
 |
Homo sapiens |
|
26 |
TMTC4 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
27 |
PFN2 |
5217 |
Affinity Capture-MS |
 |
Homo sapiens |
|
28 |
RAB39B |
116442 |
Affinity Capture-MS |
 |
Homo sapiens |
|
29 |
OAZ3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
30 |
FOXP2 |
93986 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
31 |
KIF3A |
11127 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
32 |
SGOL2 |
151246 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
33 |
MTERF3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
34 |
ADSL |
158 |
Affinity Capture-MS |
 |
Homo sapiens |
|
35 |
SAMHD1 |
25939 |
Affinity Capture-MS |
 |
Homo sapiens |
|
36 |
TBC1D14 |
57533 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
37 |
PLAUR |
5329 |
Co-fractionation |
 |
Homo sapiens |
|
38 |
USP15 |
9958 |
Affinity Capture-MS |
 |
Homo sapiens |
|
39 |
SUCLG1 |
8802 |
Co-fractionation |
 |
Homo sapiens |
|
40 |
NAA50 |
80218 |
Affinity Capture-MS |
 |
Homo sapiens |
|
41 |
PARK2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
42 |
DUT |
1854 |
Co-fractionation |
 |
Homo sapiens |
|
43 |
LACC1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
44 |
TRA2A |
29896 |
Two-hybrid |
 |
Homo sapiens |
|
45 |
PEMT |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
46 |
LRIF1 |
|
Two-hybrid |
 |
Homo sapiens |
|
47 |
TNFSF13 |
8741 |
Affinity Capture-MS |
 |
Homo sapiens |
|
48 |
DTNBP1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
49 |
BLOC1S5 |
63915 |
Affinity Capture-MS |
 |
Homo sapiens |
|
50 |
RAB11FIP4 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
51 |
MEMO1 |
51072 |
Co-fractionation |
 |
Homo sapiens |
|
52 |
BARD1 |
580 |
Two-hybrid |
 |
Homo sapiens |
|
53 |
RDH13 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
54 |
DXO |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
55 |
SUMO2 |
6613 |
Co-fractionation |
 |
Homo sapiens |
|
56 |
POLDIP2 |
26073 |
Two-hybrid |
 |
Homo sapiens |
|
57 |
ANXA9 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
58 |
CAMKK1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
59 |
COA7 |
|
Co-fractionation |
 |
Homo sapiens |
|
60 |
VMA21 |
|
Co-fractionation |
 |
Homo sapiens |
|
61 |
ANXA1 |
301 |
Co-fractionation |
 |
Homo sapiens |
|
62 |
EED |
|
Affinity Capture-MS |
 |
Homo sapiens |
Two-hybrid |
 |
Homo sapiens |
|
63 |
MED31 |
|
Two-hybrid |
 |
Homo sapiens |
Two-hybrid |
 |
Homo sapiens |
|
64 |
FAM49B |
51571 |
Co-fractionation |
 |
Homo sapiens |
|
65 |
B3GALNT1 |
8706 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
66 |
FSTL1 |
11167 |
Affinity Capture-MS |
 |
Homo sapiens |
|
67 |
LRCH1 |
23143 |
Affinity Capture-MS |
 |
Homo sapiens |
|
68 |
FBXL4 |
26235 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
69 |
TRIP13 |
9319 |
Two-hybrid |
 |
Homo sapiens |
Two-hybrid |
 |
Homo sapiens |
|
70 |
PTPRM |
5797 |
Affinity Capture-MS |
 |
Homo sapiens |
|
71 |
CAMKMT |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
72 |
VIPR2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
73 |
MMACHC |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
74 |
TMED9 |
54732 |
Co-fractionation |
 |
Homo sapiens |
|
75 |
RASGRP4 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
76 |
SMARCD1 |
6602 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
77 |
FAM60A |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
78 |
GPX1 |
2876 |
Affinity Capture-Western |
 |
Homo sapiens |
FRET |
 |
Homo sapiens |
|
79 |
GORASP2 |
26003 |
Two-hybrid |
 |
Homo sapiens |
|
80 |
SCG5 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
81 |
OTULIN |
90268 |
Affinity Capture-MS |
 |
Homo sapiens |
|
82 |
ASS1 |
445 |
Co-fractionation |
 |
Homo sapiens |
|
83 |
ARNT |
405 |
Affinity Capture-MS |
 |
Homo sapiens |
|
84 |
UQCRFS1P1 |
|
Co-fractionation |
 |
Homo sapiens |
|
85 |
DPP7 |
29952 |
Co-fractionation |
 |
Homo sapiens |
|
86 |
PLD5 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
87 |
NPSR1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
88 |
TFG |
10342 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
89 |
SPTLC3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
90 |
ELL3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
91 |
UBE2D2 |
7322 |
Affinity Capture-MS |
 |
Homo sapiens |
|
92 |
FOS |
2353 |
Affinity Capture-MS |
 |
Homo sapiens |
|
93 |
SS18L2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
94 |
RAB11B |
9230 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
95 |
ZNF597 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
96 |
FNTB |
2342 |
Affinity Capture-MS |
 |
Homo sapiens |
|
97 |
SETDB2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
98 |
TPP2 |
7174 |
Affinity Capture-MS |
 |
Homo sapiens |
|
99 |
TRNT1 |
51095 |
Affinity Capture-MS |
 |
Homo sapiens |
|
100 |
HEATR1 |
55127 |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
101 |
NSMAF |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
102 |
ZMYM6NB |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
103 |
CXorf66 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
104 |
MAS1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
105 |
OGFRL1 |
79627 |
Affinity Capture-MS |
 |
Homo sapiens |
|
106 |
PLEKHA4 |
57664 |
Affinity Capture-MS |
 |
Homo sapiens |
|
107 |
RARA |
5914 |
Affinity Capture-MS |
 |
Homo sapiens |
|
108 |
GPBP1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
109 |
ALDH4A1 |
8659 |
Co-fractionation |
 |
Homo sapiens |
|
110 |
NSMCE1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
111 |
POLR2J |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
112 |
GPI |
2821 |
Co-fractionation |
 |
Homo sapiens |
|
113 |
DRD3 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
114 |
KMT2B |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
115 |
SYT16 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
116 |
FLYWCH2 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
117 |
RPA1 |
6117 |
Two-hybrid |
 |
Homo sapiens |
|
118 |
RYK |
6259 |
Affinity Capture-MS |
 |
Homo sapiens |
|
119 |
CAPZA2 |
830 |
Affinity Capture-MS |
 |
Homo sapiens |
|
120 |
MLH1 |
4292 |
Two-hybrid |
 |
Homo sapiens |
|
121 |
ELMOD1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
|
122 |
DOLPP1 |
|
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
Affinity Capture-MS |
 |
Homo sapiens |
|
123 |
ANKH |
56172 |
Affinity Capture-MS |
 |
Homo sapiens |
|
124 |
PMM2 |
5373 |
Co-fractionation |
 |
Homo sapiens |
|
| | |