| Published Application/Species/Sample/Dilution | Reference |
|---|
- western blot; human; fig 4
| Kim J, He X, Orr B, Wutz G, Hill V, Peters J, et al. Intact Cohesion, Anaphase, and Chromosome Segregation in Human Cells Harboring Tumor-Derived Mutations in STAG2. PLoS Genet. 2016;12:e1005865 pubmed publisher |
- western blot; human; fig 1d
| Hara K, Zheng G, Qu Q, Liu H, Ouyang Z, Chen Z, et al. Structure of cohesin subcomplex pinpoints direct shugoshin-Wapl antagonism in centromeric cohesion. Nat Struct Mol Biol. 2014;21:864-70 pubmed publisher |
- immunohistochemistry; human; 1:100; fig 2
- western blot; human; fig 5
| Brohl A, Solomon D, Chang W, Wang J, Song Y, Sindiri S, et al. The genomic landscape of the Ewing Sarcoma family of tumors reveals recurrent STAG2 mutation. PLoS Genet. 2014;10:e1004475 pubmed publisher |
- immunohistochemistry; human
- western blot; human
| Solomon D, Kim T, Diaz Martinez L, Fair J, Elkahloun A, Harris B, et al. Mutational inactivation of STAG2 causes aneuploidy in human cancer. Science. 2011;333:1039-43 pubmed publisher |
| Chu Z, Gu L, Hu Y, Zhang X, Li M, Chen J, et al. STAG2 regulates interferon signaling in melanoma via enhancer loop reprogramming. Nat Commun. 2022;13:1859 pubmed publisher |
| Bailey M, Tieu D, Habsid A, Tong A, Chan K, Moffat J, et al. Paralogous synthetic lethality underlies genetic dependencies of the cancer-mutated gene STAG2. Life Sci Alliance. 2021;4: pubmed publisher |
| Solé A, Grossetete S, Heintzé M, Babin L, Zaidi S, Revy P, et al. Unraveling Ewing sarcoma tumorigenesis originating from patient-derived Mesenchymal Stem Cells. Cancer Res. 2021;: pubmed publisher |
| Wagner K, Kunz K, Piller T, Tascher G, Hölper S, Stehmeier P, et al. The SUMO Isopeptidase SENP6 Functions as a Rheostat of Chromatin Residency in Genome Maintenance and Chromosome Dynamics. Cell Rep. 2019;29:480-494.e5 pubmed publisher |
| Kim J, He X, Liu J, Duan Z, Kim T, Gerard J, et al. Systematic proteomics of endogenous human cohesin reveals an interaction with diverse splicing factors and RNA-binding proteins required for mitotic progression. J Biol Chem. 2019;294:8760-8772 pubmed publisher |
| Liang C, Zhang Z, Chen Q, Yan H, Zhang M, Xiang X, et al. A positive feedback mechanism ensures proper assembly of the functional inner centromere during mitosis in human cells. J Biol Chem. 2019;294:1437-1450 pubmed publisher |
| Mauland K, Wik E, Hoivik E, Kusonmano K, Halle M, Berg A, et al. Aneuploidy related transcriptional changes in endometrial cancer link low expression of chromosome 15q genes to poor survival. Oncotarget. 2017;8:9696-9707 pubmed publisher |
| Shen C, Kim S, Trousil S, Frederick D, Piris A, Yuan P, et al. Loss of cohesin complex components STAG2 or STAG3 confers resistance to BRAF inhibition in melanoma. Nat Med. 2016;22:1056-61 pubmed publisher |
| Taylor C, Platt F, Hurst C, Thygesen H, Knowles M. Frequent inactivating mutations of STAG2 in bladder cancer are associated with low tumour grade and stage and inversely related to chromosomal copy number changes. Hum Mol Genet. 2014;23:1964-74 pubmed publisher |
| Balbás MartÃnez C, Sagrera A, Carrillo de Santa Pau E, Earl J, Márquez M, Vazquez M, et al. Recurrent inactivation of STAG2 in bladder cancer is not associated with aneuploidy. Nat Genet. 2013;45:1464-9 pubmed publisher |
| Solomon D, Kim J, Bondaruk J, Shariat S, Wang Z, Elkahloun A, et al. Frequent truncating mutations of STAG2 in bladder cancer. Nat Genet. 2013;45:1428-30 pubmed publisher |
