Symbol Name ID |
Hnrnpk
heterogeneous nuclear ribonucleoprotein K MGI:99894 |
Age | E10.5 | E11.5 | E12 | E12.5 | E13 | E13.5 | E14.5 | E15 | E15.5 | E16.5 | E17 | E17.5 | E18.5 | P |
Immunohistochemistry (section) | 1 | 1 | 1 | |||||||||||
In situ RNA (section) | 1 | 1 | 2 | 1 | 1 | 1 | ||||||||
In situ RNA (whole mount) | 1 | 1 | 1 | |||||||||||
Northern blot | 1 | 2 | ||||||||||||
Western blot | 1 | 1 | 1 | 1 | 1 | 1 | 1 | 1 | ||||||
RT-PCR | 2 | 1 | 2 | 1 | 1 | 2 | 1 | 1 | 1 | 1 | 3 | |||
cDNA clones | 1 |
Hnrnpk heterogeneous nuclear ribonucleoprotein K (Synonyms: hnRNPK, Hnrpk, KBBP) | |
Results | Reference |
6* | J:329220 Chen Y, Wu J, Zhang S, Gao W, Liao Z, Zhou T, Li Y, Su D, Liu H, Yang X, Su P, Xu C, Hnrnpk maintains chondrocytes survival and function during growth plate development via regulating Hif1alpha-glycolysis axis. Cell Death Dis. 2022 Sep 20;13(9):803 |
7 | J:342014 Chen Y, Zhou T, Liao Z, Gao W, Wu J, Zhang S, Li Y, Liu H, Zhou H, Xu C, Su P, Hnrnpk is essential for embryonic limb bud development as a transcription activator and a collaborator of insulator protein Ctcf. Cell Death Differ. 2023 Oct;30(10):2293-2308 |
1* | J:146870 Fukuda T, Naiki T, Saito M, Irie K, hnRNP K interacts with RNA binding motif protein 42 and functions in the maintenance of cellular ATP level during stress conditions. Genes Cells. 2009 Feb;14(2):113-28 |
3* | J:317463 Hitachi K, Kiyofuji Y, Nakatani M, Tsuchida K, Myoparr-Associated and -Independent Multiple Roles of Heterogeneous Nuclear Ribonucleoprotein K during Skeletal Muscle Cell Differentiation. Int J Mol Sci. 2021 Dec 22;23(1) |
2 | J:344559 Hughes CHK, Smith OE, Meinsohn MC, Brunelle M, Gevry N, Murphy BD, Steroidogenic factor 1 (SF-1; Nr5a1) regulates the formation of the ovarian reserve. Proc Natl Acad Sci U S A. 2023 Aug 8;120(32):e2220849120 |
3* | J:41036 Kai N, Mishina M, Yagi T, Molecular cloning of Fyn-associated molecules in the mouse central nervous system. J Neurosci Res. 1997 Jun 1;48(5):407-24 |
8 | J:95310 Lepourcelet M, Tou L, Cai L, Sawada J, Lazar AJ, Glickman JN, Williamson JA, Everett AD, Redston M, Fox EA, Nakatani Y, Shivdasani RA, Insights into developmental mechanisms and cancers in the mammalian intestine derived from serial analysis of gene expression and study of the hepatoma-derived growth factor (HDGF). Development. 2005 Jan;132(2):415-27 |
4* | J:103446 McKee AE, Minet E, Stern C, Riahi S, Stiles CD, Silver PA, A genome-wide in situ hybridization map of RNA-binding proteins reveals anatomically restricted expression in the developing mouse brain. BMC Dev Biol. 2005 Jul 20;5:14 |
1 | J:291493 Najas S, Pijuan I, Esteve-Codina A, Usieto S, Martinez JD, Zwijsen A, Arbones ML, Marti E, Le Dreau G, A SMAD1/5-YAP signalling module drives radial glia self-amplification and growth of the developing cerebral cortex. Development. 2020 Jul 13;147(13):dev187005 |
6 | J:256883 Zhou J, Wang R, Zhang J, Zhu L, Liu W, Lu S, Chen P, Li H, Yin B, Yuan J, Qiang B, Shu P, Peng X, Conserved expression of ultra-conserved noncoding RNA in mammalian nervous system. Biochim Biophys Acta. 2017 Dec;1860(12):1159-1168 |
Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO) |
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last database update 12/10/2024 MGI 6.24 |
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