Recombinant Rat Jagged 1 Fc Chimera Protein, CF Summary
Product Specifications
Rat Jagged 1 Ser32-Asp1067 with substitutions GGARN56-60AE and DR63-64TLVRPY Accession # Q63722.2 |
IEGRMD | Human IgG1 (Pro100-Lys330) |
6-His tag |
N-terminus | C-terminus | ||
Analysis
Product Datasheets
599-JG
Carrier Free
CF stands for Carrier Free (CF). We typically add Bovine Serum Albumin (BSA) as a carrier protein to our recombinant proteins. Adding a carrier protein enhances protein stability, increases shelf-life, and allows the recombinant protein to be stored at a more dilute concentration. The carrier free version does not contain BSA.
In general, we advise purchasing the recombinant protein with BSA for use in cell or tissue culture, or as an ELISA standard. In contrast, the carrier free protein is recommended for applications, in which the presence of BSA could interfere.
599-JG
Formulation | Lyophilized from a 0.2 μm filtered solution in PBS. |
Reconstitution | Reconstitute at 200 μg/mL in sterile PBS. |
Shipping | The product is shipped at ambient temperature. Upon receipt, store it immediately at the temperature recommended below. |
Stability & Storage: | Use a manual defrost freezer and avoid repeated freeze-thaw cycles.
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Background: Jagged 1
Rat Jagged1 was the first ligand for Notch identified in mammals. Since both the ligands and receptors are transmembrane proteins, direct cell-cell interactions are thought to be required for activating Notch signaling. Jagged1 is synthesized as a precursor protein that contains a 21 aa signal sequence, a 1048 aa extracellular region, a 25 aa transmembrane (TM) segment and a short, 226 aa cytoplasmic domain. The large extracellular region has a DSL (Delta, Serrate, Lag-2 consensus sequence) domain followed by 16 EGF-like repeats, and a cysteine-rich (CR) region (1). The extracellular region of rJagged1 binds to multiple Notch receptors on the cell surface as well as in solid phase binding studies. The DSL motif is necessary for binding to Notch receptors and the EGF repeats modulate the affinity of the interaction with Notch receptors (2). Notch signaling is implicated in many developmental processes in a variety of cell types. Jagged-Notch signaling specifies cell fate, regulates pattern formation, defines boundaries between different cell types, and modulates cell proliferation and differentiation. Some specific areas where Jagged is involved include hematopoiesis, myogenesis, neurogenesis and development of the vasculature (3). For instance soluble, non-transmembrane forms of Jagged1 influence behavior in fibroblast cells leading to characteristics exhibited by endothelial cells during angiogenesis (4). Soluble Jagged1 is also capable of maintaining the survival and enhancing the expansion of human stem cells that are capable of reconstituting hematopoietic lineages in vivo (5). Furthermore, Jagged1 is implicated in human disease: Alagille syndrome, an autosomal dominant disorder characterized by defects in liver, heart, eye, skeletal, craniofacial tissues, and kidney, is caused by mutations in Jagged1 (6). Depending on cell types and how soluble forms of the ligand are presented, ligand binding can result in activation or inhibition of Notch signaling (7). Rat Jagged1 shows 98% and 99% aa identity to human and mouse Jagged1 extracellular domains respectively. Relative to the extracellular region of rat Jagged2, the aa identity is 58%.
- Lindsell, C.E. et al. (1995) Cell 80:909.
- Shimizu, K. et al. (1999) J. Biol. Chem. 274:32961.
- Lewis, J. (1998) Stem Cell & Dev. Biol. 9:583.
- Small, D. et al. (2001) J. Biol. Chem. 276:32022.
- Karanu, F. et al. (2000) J. Exp. Med. 192:1365.
- Joutel, A. and E. Tounier-Lasserve (1998) Stem Cell & Dev. Biol. 9:619.
- Hicks, C. et al. (2002) J Neurosci. Res. 68:655.
Citations for Recombinant Rat Jagged 1 Fc Chimera Protein, CF
R&D Systems personnel manually curate a database that contains references using R&D Systems products. The data collected includes not only links to publications in PubMed, but also provides information about sample types, species, and experimental conditions.
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Citations: Showing 1 - 10
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Cis inhibition of NOTCH1 through JAGGED1 sustains embryonic hematopoietic stem cell fate
Authors: Thambyrajah, R;Maqueda, M;Neo, WH;Imbach, K;Guillén, Y;Grases, D;Fadlullah, Z;Gambera, S;Matteini, F;Wang, X;Calero-Nieto, FJ;Esteller, M;Florian, MC;Porta, E;Benedito, R;Göttgens, B;Lacaud, G;Espinosa, L;Bigas, A;
Nature communications
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
YY1/miR-140-5p/Jagged1/Notch axis mediates cartilage progenitor/stem cells fate reprogramming in knee osteoarthritis
Authors: Chen, Y;Liao, G;Ma, T;Li, L;Yang, J;Shen, B;Lu, Y;Si, H;
International immunopharmacology
Species: Rat
Sample Types: In Vivo
Applications: In Vivo -
CCN1 interacts with integrins to regulate intestinal stem cell proliferation and differentiation
Authors: JH Won, JS Choi, JI Jun
Nature Communications, 2022-06-03;13(1):3117.
Species: Mouse
Sample Types: Organoids
Applications: Bioassay -
Notch1 activation of Jagged1 contributes to differentiation of mesenchymal stem cells into endothelial cells under cigarette smoke extract exposure
Authors: Y Cheng, W Gu, G Zhang, X Guo
BMC pulmonary medicine, 2022-04-11;22(1):139.
Species: Rat
Sample Types: Whole Cells
Applications: Bioassay -
GIT1 protects against breast cancer growth through negative regulation of Notch
Authors: S Zhang, A Miyakawa, M Wickström, C Dyberg, L Louhivuori, M Varas-Godo, K Kemppainen, S Kanatani, D Kaczynska, ID Ellström, L Elfman, P Kronqvist, H Repo, K Mikoshiba, C Sahlgren, JI Johnsen, P Uhlén
Nature Communications, 2022-03-22;13(1):1537.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
Tumor-derived Jagged1 promotes cancer progression through immune evasion
Authors: J Meng, YZ Jiang, S Zhao, Y Tao, T Zhang, X Wang, Y Zhang, K Sun, M Yuan, J Chen, Y Wei, X Lan, M Chen, CJ David, Z Chang, X Guo, D Pan, M Chen, ZM Shao, Y Kang, H Zheng
Cell Reports, 2022-03-08;38(10):110492.
Species: Mouse
Sample Types: Cell Culture Supernates
Applications: Bioassay -
Inhibition of Notch Signaling Promotes the Differentiation of Epicardial Progenitor Cells into Adipocytes
Authors: B Liu, D Wang, T Xiong, Y Liu, X Jing, J Du, Q She
Stem Cells International, 2021-04-09;2021(0):8859071.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Role of Jagged1-mediated Notch Signaling Activation in the Differentiation and Stratification of the Human Limbal Epithelium
Authors: S González, M Halabi, D Ju, M Tsai, SX Deng
Cells, 2020-08-22;9(9):.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
Canonical Notch ligands and Fringes have distinct effects on NOTCH1 and NOTCH2
Authors: S Kakuda, RK Lopilato, A Ito, RS Haltiwange
J. Biol. Chem., 2020-08-19;0(0):.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Downregulation of Notch Signaling in Kras-Induced Gastric Metaplasia
Authors: WC Chung, Y Zhou, A Atfi, K Xu
Neoplasia, 2019-07-02;21(8):810-821.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
Inhibition of the Notch1 Pathway Promotes the Effects of Nucleus Pulposus Cell-Derived Exosomes on the Differentiation of Mesenchymal Stem Cells into Nucleus Pulposus-Like Cells in Rats
Authors: WR Lan, S Pan, HY Li, C Sun, X Chang, K Lu, CQ Jiang, R Zuo, Y Zhou, CQ Li
Stem Cells Int, 2019-05-06;2019(0):8404168.
Species: Rat
Sample Types: Whole Cells
Applications: Cell Culture -
Spatial patterning of liver progenitor cell differentiation mediated by cellular contractility and Notch signaling
Authors: KB Kaylan, IC Berg, MJ Biehl, A Brougham-C, I Jain, SM Jamil, LH Sargeant, NJ Cornell, LT Raetzman, GH Underhill
Elife, 2018-12-27;7(0):.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Aberrant activation of Notch-1 signaling inhibits podocyte restoration after islet transplantation in a rat model of diabetic nephropathy
Authors: Y He, M Zhang, Y Wu, H Jiang, H Fu, Y Cai, Z Xu, C Liu, B Chen, T Yang
Cell Death Dis, 2018-09-20;9(10):950.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Characterization of smooth muscle cells from human atherosclerotic lesions and their responses to Notch signaling
Authors: J Davis-Know, JE Turner, A Turner, S Damian-Lor, N Hagler, T Henderson, IF Emery, K Bond, CW Duarte, CPH Vary, J Eldrup-Jor, L Liaw
Lab. Invest., 2018-05-23;0(0):.
Species: Rat
Sample Types: Whole Cells
Applications: Bioassay -
Notch Ligand Binding Assay Using Flow Cytometry
Authors: S Varshney, P Stanley
Bio Protoc, 2017-12-05;7(23):.
Species: Human, Rat
Sample Types: Recombinant Protein, Whole Cells
Applications: Bioassay -
Selective regulation of Notch ligands during angiogenesis is mediated by vimentin
Authors: D Antfolk, M Sjöqvist, F Cheng, K Isoniemi, CL Duran, A Rivero-Mul, C Antila, R Niemi, S Landor, CVC Bouten, KJ Bayless, JE Eriksson, CM Sahlgren
Proc. Natl. Acad. Sci. U.S.A., 2017-05-22;0(0):.
Species: Mouse
Sample Types: Whole Tissue
Applications: Bioassay -
Jagged1/Notch3 Signaling Modulates Hemangioma-Derived Pericyte Proliferation and Maturation
Authors: Yi Ji
Cell. Physiol. Biochem, 2016-12-07;40(5):895-907.
Species: Rat
Sample Types: Protein
Applications: Bioassay -
MicroRNA-199b Modulates Vascular Cell Fate During iPS Cell Differentiation by Targeting the Notch Ligand Jagged1 and Enhancing VEGF Signaling.
Authors: Chen T, Margariti A, Kelaini S, Cochrane A, Guha S, Hu Y, Stitt A, Zhang L, Xu Q
Stem Cells, 2015-05-01;33(5):1405-18.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
CCN1 induces hepatic ductular reaction through integrin alphavbeta(5)-mediated activation of NF-kappaB.
Authors: Kim K, Chen C, Alpini G, Lau L
J Clin Invest, 2015-03-30;125(5):1886-900.
Species: Mouse
Sample Types: In Vivo
Applications: In Vivo -
beta-site amyloid precursor protein cleaving enzyme 1(BACE1) regulates Notch signaling by controlling the cleavage of Jagged 1 (Jag1) and Jagged 2 (Jag2) proteins.
Authors: He W, Hu J, Xia Y, Yan R
J Biol Chem, 2014-07-25;289(30):20630-7.
Species: Rat
Sample Types: Protein
Applications: Enzyme Assay Substrate -
PKCzeta regulates Notch receptor routing and activity in a Notch signaling-dependent manner.
Authors: Sjoqvist M, Antfolk D, Ferraris S, Rraklli V, Haga C, Antila C, Mutvei A, Imanishi S, Holmberg J, Jin S, Eriksson J, Lendahl U, Sahlgren C
Cell Res, 2014-03-25;24(4):433-50.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
A receptor-specific function for Notch2 in mediating vascular smooth muscle cell growth arrest through cyclin-dependent kinase inhibitor 1B.
Authors: Boucher, Joshua M, Harrington, Anne, Rostama, Bahman, Lindner, Volkhard, Liaw, Lucy
Circ Res, 2013-08-21;113(8):975-85.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
Notch1 signaling modulates neuronal progenitor activity in the subventricular zone in response to aging and focal ischemia.
Authors: Sun F, Mao X, Xie L, Ding M, Shao B, Jin K
Aging Cell, 2013-08-06;12(6):978-87.
Species: Rat
Sample Types: In Vivo
Applications: Bioassay -
Protective astrogenesis from the SVZ niche after injury is controlled by Notch modulator Thbs4.
Authors: Benner, Eric J, Luciano, Dominic, Jo, Rebecca, Abdi, Khadar, Paez-Gonzalez, Patricia, Sheng, Huaxin, Warner, David S, Liu, Chunlei, Eroglu, Cagla, Kuo, Chay T
Nature, 2013-04-24;497(7449):369-73.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Attenuation of Notch signaling promotes the differentiation of neural progenitors into neurons in the hippocampal CA1 region after ischemic injury.
Authors: Oya S, Yoshikawa G, Takai K, Tanaka JI, Higashiyama S, Saito N, Kirino T, Kawahara N
Neuroscience, 2008-10-31;158(2):683-92.
Species: Rat
Sample Types: In Vivo
Applications: In Vivo -
Human ES cell-derived neural rosettes reveal a functionally distinct early neural stem cell stage.
Authors: Elkabetz Y, Panagiotakos G, Al Shamy G, Socci ND, Tabar V, Studer L
Genes Dev., 2008-01-15;22(2):152-65.
Species: Human
Sample Types: Whole Cells
Applications: Bioassay -
Notch1 engagement by Delta-like-1 promotes differentiation of B lymphocytes to antibody-secreting cells.
Authors: Santos MA, Sarmento LM, Rebelo M, Doce AA, Maillard I, Dumortier A, Neves H, Radtke F, Pear WS, Parreira L, Demengeot J
Proc. Natl. Acad. Sci. U.S.A., 2007-09-18;104(39):15454-9.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay -
Differentiation of ES cells into cerebellar neurons.
Authors: Salero E, Hatten ME
Proc. Natl. Acad. Sci. U.S.A., 2007-02-09;104(8):2997-3002.
Species: Mouse
Sample Types: Whole Cells
Applications: Bioassay
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