产品简要
公司名称 :
HUABIO
产品类型 :
抗体
产品名称 :
磷酸甘油醛脱氢酶小鼠单克隆抗体[5-E10](EM1101)
目录 :
EM1101
规格 :
单克隆
价格 :
5-E10
克隆性 :
单克隆
宿主 :
小鼠
共轭标签 :
未共轭
克隆名称 :
5-E10
反应物种 :
Sitophilus, 蚕属, 镰刀霉, 人类, 小鼠, 大鼠, 斑马鱼
应用 :
免疫印迹, 免疫细胞化学
更多信息或购买 :
文章摘录数: 35
出版应用/物种/样本/稀释参考文献
  • 免疫印迹; 斑马鱼
Yu L, Gong L, Wang C, Hu N, Tang Y, Zheng L, et al. Radix Polygoni Multiflori and Its Main Component Emodin Attenuate Non-Alcoholic Fatty Liver Disease in Zebrafish by Regulation of AMPK Signaling Pathway. Drug Des Devel Ther. 2020;14:1493-1506 pubmed 出版商
  • 免疫印迹; 镰刀霉
Tang G, Chen A, Dawood D, Liang J, Chen Y, Ma Z. Capping proteins regulate fungal development, DON-toxisome formation and virulence in Fusarium graminearum. Mol Plant Pathol. 2020;21:173-187 pubmed 出版商
  • 免疫印迹; 镰刀霉
Tang L, Yu X, Zhang L, Zhang L, Chen L, Zou S, et al. Mitochondrial FgEch1 is responsible for conidiation and full virulence in Fusarium graminearum. Curr Genet. 2020;66:361-371 pubmed 出版商
  • 免疫印迹; Sitophilus
Zhang Y, Shen C, Xia D, Wang J, Tang Q. Characterization of the Expression and Functions of Two Odorant-Binding Proteins of Sitophilus zeamais Motschulsky (Coleoptera: Curculionoidea). Insects. 2019;10: pubmed 出版商
  • 免疫印迹; 大鼠
Qiu Q, Li M, Yang L, Tang M, Zheng L, Wang F, et al. Targeting glutaminase1 and synergizing with clinical drugs achieved more promising antitumor activity on multiple myeloma. Oncotarget. 2019;10:5993-6005 pubmed 出版商
  • 免疫印迹; 小鼠
Xu Z, You W, Zhou Y, Chen W, Wang Y, Shan T. Cold-induced lipid dynamics and transcriptional programs in white adipose tissue. BMC Biol. 2019;17:74 pubmed 出版商
  • 免疫印迹; 镰刀霉
Wang H, Chen D, Li C, Tian N, Zhang J, Xu J, et al. Stage-specific functional relationships between Tub1 and Tub2 beta-tubulins in the wheat scab fungus Fusarium graminearum. Fungal Genet Biol. 2019;132:103251 pubmed 出版商
  • 免疫印迹; 镰刀霉
Liu N, Wu S, Dawood D, Tang G, Zhang C, Liang J, et al. The b-ZIP transcription factor FgTfmI is required for the fungicide phenamacril tolerance and pathogenecity in Fusarium graminearum. Pest Manag Sci. 2019;75:3312-3322 pubmed 出版商
  • 免疫印迹; 大鼠
Zheng M, Li Y, Wang G, Jin J, Wang Y, Wang T, et al. Protective effect of cultured bear bile powder against dimethylnitrosamine-induced hepatic fibrosis in rats. Biomed Pharmacother. 2019;112:108701 pubmed 出版商
  • 免疫印迹; 小鼠
Li J, Wang Y, Ma M, Jiang S, Zhang X, Zhang Y, et al. Autocrine CTHRC1 activates hepatic stellate cells and promotes liver fibrosis by activating TGF-β signaling. EBioMedicine. 2019;40:43-55 pubmed 出版商
  • 免疫印迹; 小鼠
Zheng Y, Pan C, Chen M, Pei A, Xie L, Zhu S. miR‑29a ameliorates ischemic injury of astrocytes in vitro by targeting the water channel protein aquaporin 4. Oncol Rep. 2019;41:1707-1717 pubmed 出版商
  • 免疫印迹; 镰刀霉
Zhang L, Wang L, Liang Y, Yu J. FgPEX4 is involved in development, pathogenicity, and cell wall integrity in Fusarium graminearum. Curr Genet. 2019;65:747-758 pubmed 出版商
  • 免疫印迹; 大鼠
Wang X, Zhang Y, Yang Y, Zhang W, Luo L, Han F, et al. Curcumin pretreatment protects against hypoxia/reoxgenation injury via improvement of mitochondrial function, destabilization of HIF-1α and activation of Epac1-Akt pathway in rat bone marrow mesenchymal stem cells. Biomed Pharmacother. 2019;109:1268-1275 pubmed 出版商
  • 免疫印迹; 人类
Wu H, Shi L, Zhang Y, Peng X, Zheng T, Li Y, et al. Ubiquitination Is Essential for Avibirnavirus Replication by Supporting VP1 Polymerase Activity. J Virol. 2019;93: pubmed 出版商
  • 免疫印迹; 人类
Cheng Y, Hou T, Ping J, Chen T, Yin B. LMO3 promotes hepatocellular carcinoma invasion, metastasis and anoikis inhibition by directly interacting with LATS1 and suppressing Hippo signaling. J Exp Clin Cancer Res. 2018;37:228 pubmed 出版商
  • 免疫印迹; 大鼠
Zhao Y, Li Y, Tong L, Liang X, Zhang H, Li L, et al. Analysis of microRNA Expression Profiles Induced by Yiqifumai Injection in Rats with Chronic Heart Failure. Front Physiol. 2018;9:48 pubmed 出版商
  • 免疫印迹; 人类
Zhu X, Yu Y, Hou X, Xu J, Tan Z, Nie X, et al. Expression of PIM-1 in salivary gland adenoid cystic carcinoma: Association with tumor progression and patients' prognosis. Oncol Lett. 2018;15:1149-1156 pubmed 出版商
  • 免疫印迹; 人类
Igbe I, Shen X, Jiao W, Qiang Z, Deng T, Li S, et al. Dietary quercetin potentiates the antiproliferative effect of interferon-? in hepatocellular carcinoma cells through activation of JAK/STAT pathway signaling by inhibition of SHP2 phosphatase. Oncotarget. 2017;8:113734-113748 pubmed 出版商
  • 免疫印迹; 镰刀霉
Gu Q, Wang Z, Sun X, Ji T, Huang H, Yang Y, et al. FvSet2 regulates fungal growth, pathogenicity, and secondary metabolism in Fusarium verticillioides. Fungal Genet Biol. 2017;107:24-30 pubmed 出版商
  • 免疫印迹; 镰刀霉
Gu Q, Yang Y, Yuan Q, Shi G, Wu L, Lou Z, et al. Bacillomycin D Produced by Bacillus amyloliquefaciens Is Involved in the Antagonistic Interaction with the Plant-Pathogenic Fungus Fusarium graminearum. Appl Environ Microbiol. 2017;83: pubmed 出版商
  • 免疫印迹; 人类
Xia C, Shui L, Lou G, Ye B, Zhu W, Wang J, et al. 0404 inhibits hepatocellular carcinoma through a p53/miR-34a/SIRT1 positive feedback loop. Sci Rep. 2017;7:4396 pubmed 出版商
  • 免疫印迹; 蚕属
Yu H, Wang X, Xu J, Ma Y, Zhang S, Yu D, et al. iTRAQ-based quantitative proteomics analysis of molecular mechanisms associated with Bombyx mori (Lepidoptera) larval midgut response to BmNPV in susceptible and near-isogenic strains. J Proteomics. 2017;165:35-50 pubmed 出版商
  • 免疫印迹; 小鼠
Fu G, Xu Q, Qiu Y, Jin X, Xu T, Dong S, et al. Suppression of Th17 cell differentiation by misshapen/NIK-related kinase MINK1. J Exp Med. 2017;214:1453-1469 pubmed 出版商
  • 免疫印迹; 人类
Hou X, Yu Y, Feng J, Wang J, Zheng C, Ling Z, et al. Biochemical changes of salivary gland adenoid cystic carcinoma cells induced by SGI-1776. Exp Cell Res. 2017;352:403-411 pubmed 出版商
  • 免疫细胞化学; 斑马鱼
Hu M, Bai Y, Zhang C, Liu F, Cui Z, Chen J, et al. Liver-Enriched Gene 1, a Glycosylated Secretory Protein, Binds to FGFR and Mediates an Anti-stress Pathway to Protect Liver Development in Zebrafish. PLoS Genet. 2016;12:e1005881 pubmed 出版商
  • 免疫印迹; 大鼠
Xing W, Yuan T, Xu J, Gu L, Liang P, Lu H. Proteomic identification of mitochondrial targets involved in andrographolide sodium bisulfite-induced nephrotoxicity in a rat model. Environ Toxicol Pharmacol. 2015;40:592-9 pubmed 出版商
  • 免疫印迹; 人类
Liu Y, Huang X, He X, Zhou Y, Jiang X, Chen Kiang S, et al. A novel effect of thalidomide and its analogs: suppression of cereblon ubiquitination enhances ubiquitin ligase function. FASEB J. 2015;29:4829-39 pubmed 出版商
  • 免疫印迹; 人类
Liu Y, He X, Sui Y, Yu R, Xu G. Transcription factor IKZF1 is degraded during the apoptosis of multiple myeloma cells induced by kinase inhibition. FEBS Lett. 2015;589:2233-40 pubmed 出版商
  • 免疫印迹; 人类
Jiang L, Wang P, Chen L, Chen H. Down-regulation of FoxM1 by thiostrepton or small interfering RNA inhibits proliferation, transformation ability and angiogenesis, and induces apoptosis of nasopharyngeal carcinoma cells. Int J Clin Exp Pathol. 2014;7:5450-60 pubmed
  • 免疫印迹; 小鼠
Bin G, Jiarong Z, Shihao W, Xiuli S, Cheng X, Liangbiao C, et al. Aire promotes the self-renewal of embryonic stem cells through Lin28. Stem Cells Dev. 2012;21:2878-90 pubmed 出版商
Wang Z, Ma T, Huang Y, Wang J, Chen Y, Kistler H, et al. A fungal ABC transporter FgAtm1 regulates iron homeostasis via the transcription factor cascade FgAreA-HapX. PLoS Pathog. 2019;15:e1007791 pubmed 出版商
Xu L, Wang M, Tang G, Ma Z, Shao W. The endocytic cargo adaptor complex is required for cell-wall integrity via interacting with the sensor FgWsc2B in Fusarium graminearum. Curr Genet. 2019;: pubmed 出版商
Liu Z, Jian Y, Chen Y, Kistler H, He P, Ma Z, et al. A phosphorylated transcription factor regulates sterol biosynthesis in Fusarium graminearum. Nat Commun. 2019;10:1228 pubmed 出版商
Ren W, Liu N, Sang C, Shi D, Zhou M, Chen C, et al. The Autophagy Gene BcATG8 Regulates the Vegetative Differentiation and Pathogenicity of Botrytis cinerea. Appl Environ Microbiol. 2018;84: pubmed 出版商
Tang G, Chen Y, Xu J, Kistler H, Ma Z. The fungal myosin I is essential for Fusarium toxisome formation. PLoS Pathog. 2018;14:e1006827 pubmed 出版商
产品信息
Catalog# :
EM1101
产品名称 :
磷酸甘油醛脱氢酶小鼠单克隆抗体[5-E10](EM1101)
类别 :
Mouse monoclonal primary
共轭 :
未共轭
克隆性 :
单克隆
克隆编号 :
5-E10
宿主 :
小鼠
应用 :
免疫印迹, 免疫细胞化学
应用w/稀释 :
WB: 1:5, 000-1:10, 000;ICC: 1:200-1:500
反应物种 :
人类, 大鼠, 斑马鱼, 兔
免疫原 :
Synthetic peptide within human GAPDH aa 10-50.
抗体亚型 :
IgM
靶蛋白 :
磷酸甘油醛脱氢酶
靶标.UniProt数据库 :
P04406
靶标.同义词 :
38 kDa BFA-dependent ADP-ribosylation substrate antibody; aging associated gene 9 protein antibody; Aging-associated gene 9 protein antibody; BARS-38 antibody; cb609 antibody; EC 1.2.1.12 antibody; Epididymis secretory sperm binding protein Li 162eP antibody; G3P_HUMAN antibody; G3PD antibody; G3PDH antibody; GAPD antibody; GAPDH antibody; Glyceraldehyde 3 phosphate dehydrogenase antibody; Glyceraldehyde-3-phosphate dehydrogenase antibody; HEL-S-162eP antibody; KNC-NDS6 antibody; MGC102544 antibody; MGC102546 antibody; MGC103190 antibody; MGC103191 antibody; MGC105239 antibody; MGC127711 antibody; MGC88685 antibody; OCAS, p38 component antibody; OCT1 coactivator in S phase, 38-KD component antibody; peptidyl cysteine S nitrosylase GAPDH antibody; Peptidyl-cysteine S-nitrosylase GAPDH antibody; wu:fb33a10 antibody
Target function/background :
GAPDH (Glyceraldehyde-3-phosphate dehydrogenase) has both glyceraldehyde-3-phosphate dehydrogenase and nitrosylase activities, thereby playing a role in glycolysis and nuclear functions, respectively. It participates in nuclear events including transcription, RNA transport, DNA replication and apoptosis. GAPDH is a key enzyme in glycolysis that catalyzes the first step of the pathway by converting D-glyceraldehyde 3-phosphate (G3P) into 3-phospho-D-glyceroyl phosphate.
产品形式 :
液体
纯化 :
蛋白L亲和纯化
浓度 :
2微克/微升
储存缓冲液 :
1*PBS (pH7.4), 0.2% BSA, 40% Glycerol. Preservative: 0.05% Sodium Azide.
储存空调 :
Store at +4℃ after thawing. Aliquot store at -20℃ or -80℃. Avoid repeated freeze / thaw cycles.
分子量 :
36 kDa
供应商 :
HUABIO
Volume :
100ul
价格 :
325
launch date :
2020&prior
更多信息或购买 :
公司信息
HUABIO
Boston, Massachusetts
support@huabio.com
https://www.huabio.com
1-857-353-6600
公司总部: 美国
Founded in 2007, HUABIO is dedicated to developing high-quality antibodies that advance innovation. We are passionate about the accuracy, efficiency, and consistency of our products. That is why we have invested in new production platforms, like recombinant rabbit monoclonals, alpaca nanobodies, and adopted aggressive QA standards to deliver cutting-edge antibodies with uncompromised quality.
We hope to see you at your next discovery!