这是一篇来自已证抗体库的有关人类 RAB9A的综述,是根据17篇发表使用所有方法的文章归纳的。这综述旨在帮助来邦网的访客找到最适合RAB9A 抗体。
RAB9A 同义词: RAB9

赛默飞世尔
小鼠 单克隆(Mab9)
  • 免疫细胞化学; 人类; 1:1000; 图 4
赛默飞世尔 RAB9A抗体(Affinity Bioreagents, MA3-067)被用于被用于免疫细胞化学在人类样本上浓度为1:1000 (图 4). J Cell Sci (2016) ncbi
小鼠 单克隆(Mab9)
  • 免疫细胞化学; 人类
  • 免疫印迹; 人类
赛默飞世尔 RAB9A抗体(Thermo Scientific, MA3-067)被用于被用于免疫细胞化学在人类样本上 和 被用于免疫印迹在人类样本上. PLoS Pathog (2013) ncbi
艾博抗(上海)贸易有限公司
小鼠 单克隆(Mab9)
  • 免疫印迹; 鸡
艾博抗(上海)贸易有限公司 RAB9A抗体(Abcam, ab2810)被用于被用于免疫印迹在鸡样本上. G3 (Bethesda) (2014) ncbi
小鼠 单克隆(Mab9)
  • 免疫印迹; 人类; 1:1000
艾博抗(上海)贸易有限公司 RAB9A抗体(Abcam, ab2810)被用于被用于免疫印迹在人类样本上浓度为1:1000. Neuromolecular Med (2014) ncbi
赛信通(上海)生物试剂有限公司
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 人类; 1:1000; 图 6c
赛信通(上海)生物试剂有限公司 RAB9A抗体(CST, 5118S)被用于被用于免疫印迹在人类样本上浓度为1:1000 (图 6c). Redox Biol (2021) ncbi
domestic rabbit 单克隆(D22A6)
  • 免疫印迹; 小鼠; 1:1000
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, 5133)被用于被用于免疫印迹在小鼠样本上浓度为1:1000. Nat Commun (2021) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫细胞化学; 人类; 1:100; 图 s5b
赛信通(上海)生物试剂有限公司 RAB9A抗体(CST, 5118)被用于被用于免疫细胞化学在人类样本上浓度为1:100 (图 s5b). Alzheimers Res Ther (2020) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫组化-石蜡切片; 人类; 图 5c
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling Technology, D52G8)被用于被用于免疫组化-石蜡切片在人类样本上 (图 5c). Bone Rep (2020) ncbi
domestic rabbit 单克隆(D22A6)
  • 免疫组化; 小鼠; 1:100; 图 4a
  • 免疫印迹; 小鼠; 1:1000; 图 5b
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, S133)被用于被用于免疫组化在小鼠样本上浓度为1:100 (图 4a) 和 被用于免疫印迹在小鼠样本上浓度为1:1000 (图 5b). Neuropharmacology (2018) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫细胞化学; 小鼠; 1:100; 图 4c
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell signaling, D52G8)被用于被用于免疫细胞化学在小鼠样本上浓度为1:100 (图 4c). Nat Commun (2017) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫细胞化学; 人类; 图 5
赛信通(上海)生物试剂有限公司 RAB9A抗体(CST, 5118)被用于被用于免疫细胞化学在人类样本上 (图 5). PLoS ONE (2016) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 小鼠; 1:500; 图 5a
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, 5118)被用于被用于免疫印迹在小鼠样本上浓度为1:500 (图 5a). FASEB J (2016) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 人类; 图 5a
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, 5118)被用于被用于免疫印迹在人类样本上 (图 5a). Oncotarget (2016) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 大鼠; 1:1000
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, 5118P)被用于被用于免疫印迹在大鼠样本上浓度为1:1000. Am J Physiol Lung Cell Mol Physiol (2015) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫细胞化学; 人类; 图 4
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling, D52G8)被用于被用于免疫细胞化学在人类样本上 (图 4). Mol Biol Cell (2015) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 小鼠; 图 s4d
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling Technology, 5118)被用于被用于免疫印迹在小鼠样本上 (图 s4d). EMBO Mol Med (2015) ncbi
domestic rabbit 单克隆(D52G8)
  • 免疫印迹; 人类; 图 4
赛信通(上海)生物试剂有限公司 RAB9A抗体(Cell Signaling Technologies, D52G8)被用于被用于免疫印迹在人类样本上 (图 4). J Virol (2015) ncbi
文章列表
  1. Chen C, Wang S, Yu L, Mueller J, Fortunato F, Rausch V, et al. H2O2-mediated autophagy during ethanol metabolism. Redox Biol. 2021;46:102081 pubmed 出版商
  2. Caballero B, Bourdenx M, Luengo E, Díaz A, Sohn P, Chen X, et al. Acetylated tau inhibits chaperone-mediated autophagy and promotes tau pathology propagation in mice. Nat Commun. 2021;12:2238 pubmed 出版商
  3. Hall Roberts H, Agarwal D, Obst J, Smith T, Monzón Sandoval J, Di Daniel E, et al. TREM2 Alzheimer's variant R47H causes similar transcriptional dysregulation to knockout, yet only subtle functional phenotypes in human iPSC-derived macrophages. Alzheimers Res Ther. 2020;12:151 pubmed 出版商
  4. Zhang Z, Le K, La Placa D, Armstrong B, Miller M, Shively J. CXCR2 specific endocytosis of immunomodulatory peptide LL-37 in human monocytes and formation of LL-37 positive large vesicles in differentiated monoosteophils. Bone Rep. 2020;12:100237 pubmed 出版商
  5. Sanna M, Mello T, Masini E, Galeotti N. Activation of ERK/CREB pathway in noradrenergic neurons contributes to hypernociceptive phenotype in H4 receptor knockout mice after nerve injury. Neuropharmacology. 2018;128:340-350 pubmed 出版商
  6. Bagh M, Peng S, Chandra G, Zhang Z, Singh S, Pattabiraman N, et al. Misrouting of v-ATPase subunit V0a1 dysregulates lysosomal acidification in a neurodegenerative lysosomal storage disease model. Nat Commun. 2017;8:14612 pubmed 出版商
  7. Want A, Gillespie S, Wang Z, Gordon R, Iomini C, Ritch R, et al. Autophagy and Mitochondrial Dysfunction in Tenon Fibroblasts from Exfoliation Glaucoma Patients. PLoS ONE. 2016;11:e0157404 pubmed 出版商
  8. Lisewski U, Koehncke C, Wilck N, Buschmeyer B, Pieske B, Roepke T. Increased aldosterone-dependent Kv1.5 recycling predisposes to pacing-induced atrial fibrillation in Kcne3-/- mice. FASEB J. 2016;30:2476-89 pubmed 出版商
  9. Takahashi Y, Tsotakos N, Liu Y, Young M, Serfass J, Tang Z, et al. The Bif-1-Dynamin 2 membrane fission machinery regulates Atg9-containing vesicle generation at the Rab11-positive reservoirs. Oncotarget. 2016;7:20855-68 pubmed 出版商
  10. Clifford R, Maryon E, Kaplan J. Dynamic internalization and recycling of a metal ion transporter: Cu homeostasis and CTR1, the human Cu⁺ uptake system. J Cell Sci. 2016;129:1711-21 pubmed 出版商
  11. Chichger H, Braza J, Duong H, Stark M, Harrington E. Neovascularization in the pulmonary endothelium is regulated by the endosome: Rab4-mediated trafficking and p18-dependent signaling. Am J Physiol Lung Cell Mol Physiol. 2015;309:L700-9 pubmed 出版商
  12. Cruse G, Beaven M, Music S, Bradding P, Gilfillan A, Metcalfe D. The CD20 homologue MS4A4 directs trafficking of KIT toward clathrin-independent endocytosis pathways and thus regulates receptor signaling and recycling. Mol Biol Cell. 2015;26:1711-27 pubmed 出版商
  13. Kizuka Y, Kitazume S, Fujinawa R, Saito T, Iwata N, Saido T, et al. An aberrant sugar modification of BACE1 blocks its lysosomal targeting in Alzheimer's disease. EMBO Mol Med. 2015;7:175-89 pubmed 出版商
  14. Nonnenmacher M, Cintrat J, Gillet D, Weber T. Syntaxin 5-dependent retrograde transport to the trans-Golgi network is required for adeno-associated virus transduction. J Virol. 2015;89:1673-87 pubmed 出版商
  15. Chauss D, Basu S, Rajakaruna S, Ma Z, Gau V, Anastas S, et al. Differentiation state-specific mitochondrial dynamic regulatory networks are revealed by global transcriptional analysis of the developing chicken lens. G3 (Bethesda). 2014;4:1515-27 pubmed 出版商
  16. Armstrong A, Mattsson N, Appelqvist H, Janefjord C, Sandin L, Agholme L, et al. Lysosomal network proteins as potential novel CSF biomarkers for Alzheimer's disease. Neuromolecular Med. 2014;16:150-60 pubmed 出版商
  17. Vogt D, Camus G, Herker E, Webster B, Tsou C, Greene W, et al. Lipid droplet-binding protein TIP47 regulates hepatitis C Virus RNA replication through interaction with the viral NS5A protein. PLoS Pathog. 2013;9:e1003302 pubmed 出版商