这是一篇来自已证抗体库的有关人类 SRSF5的综述,是根据14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SRSF5 抗体。
SRSF5 同义词: HRS; SFRS5; SRP40; serine/arginine-rich splicing factor 5; SR splicing factor 5; delayed-early protein HRS; pre-mRNA-splicing factor SRP40; splicing factor, arginine/serine-rich 5

赛默飞世尔
小鼠 单克隆(16H3 (16H3E8))
  • 免疫细胞化学; 人类; 1:200; 图 3
赛默飞世尔 SRSF5抗体(生活技术, 16H3)被用于被用于免疫细胞化学在人类样品上浓度为1:200 (图 3). Exp Cell Res (2015) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 图 1
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在人类样品上 (图 1). Nucleic Acids Res (2013) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 图 1
赛默飞世尔 SRSF5抗体(Invitrogen, clone 16H3)被用于被用于免疫印迹在人类样品上 (图 1). PLoS ONE (2013) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 大鼠; 图 3
赛默飞世尔 SRSF5抗体(Invitrogen, clone 16H3)被用于被用于免疫印迹在大鼠样品上 (图 3). J Biol Chem (2013) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 小鼠; 1:100; 图 3
  • 免疫印迹; 人类; 1:100; 图 3
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在小鼠样品上浓度为1:100 (图 3) 和 被用于免疫印迹在人类样品上浓度为1:100 (图 3). Neurobiol Dis (2010) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 图 1
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在人类样品上 (图 1). J Leukoc Biol (2010) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 图 3
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在人类样品上 (图 3). Mol Cell Neurosci (2008) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 1:2000; 图 1
  • 免疫印迹; 小鼠; 图 2
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在人类样品上浓度为1:2000 (图 1) 和 被用于免疫印迹在小鼠样品上 (图 2). Genes Cells (2008) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫沉淀; 人类; 图 4
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫沉淀在人类样品上 (图 4). J Virol (2008) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 图 2
赛默飞世尔 SRSF5抗体(Zymed Laboratories, 16H3)被用于被用于免疫印迹在人类样品上 (图 2). J Neurol Sci (2008) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 1:500
赛默飞世尔 SRSF5抗体(Zymed Laboratories, 16H3)被用于被用于免疫印迹在人类样品上浓度为1:500. Ann Neurol (2008) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 人类; 1:1000
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在人类样品上浓度为1:1000. Cell Cycle (2005) ncbi
小鼠 单克隆(16H3 (16H3E8))
  • 免疫印迹; 小鼠
赛默飞世尔 SRSF5抗体(Zymed, 16H3)被用于被用于免疫印迹在小鼠样品上. Proc Natl Acad Sci U S A (2001) ncbi
圣克鲁斯生物技术
小鼠 单克隆(1H4)
  • 免疫印迹; 人类; 1:200; 图 1
圣克鲁斯生物技术 SRSF5抗体(Santa Cruz, sc-13,509)被用于被用于免疫印迹在人类样品上浓度为1:200 (图 1). BMC Mol Biol (2016) ncbi
文章列表
  1. Skrdlant L, Stark J, Lin R. Myelodysplasia-associated mutations in serine/arginine-rich splicing factor SRSF2 lead to alternative splicing of CDC25C. BMC Mol Biol. 2016;17:18 pubmed 出版商
  2. Kaehler C, Guenther A, Uhlich A, Krobitsch S. PRMT1-mediated arginine methylation controls ATXN2L localization. Exp Cell Res. 2015;334:114-25 pubmed 出版商
  3. Katahira J, Okuzaki D, Inoue H, Yoneda Y, Maehara K, Ohkawa Y. Human TREX component Thoc5 affects alternative polyadenylation site choice by recruiting mammalian cleavage factor I. Nucleic Acids Res. 2013;41:7060-72 pubmed 出版商
  4. Vivarelli S, Lenzken S, Ruepp M, Ranzini F, Maffioletti A, Alvarez R, et al. Paraquat modulates alternative pre-mRNA splicing by modifying the intracellular distribution of SRPK2. PLoS ONE. 2013;8:e61980 pubmed 出版商
  5. Walsh C, Suchanek A, Cyphert T, Kohan A, Szeszel Fedorowicz W, Salati L. Serine arginine splicing factor 3 is involved in enhanced splicing of glucose-6-phosphate dehydrogenase RNA in response to nutrients and hormones in liver. J Biol Chem. 2013;288:2816-28 pubmed 出版商
  6. Toiber D, Azkona G, Ben Ari S, Toran N, Soreq H, Dierssen M. Engineering DYRK1A overdosage yields Down syndrome-characteristic cortical splicing aberrations. Neurobiol Dis. 2010;40:348-59 pubmed 出版商
  7. Chandradas S, Deikus G, Tardos J, Bogdanov V. Antagonistic roles of four SR proteins in the biosynthesis of alternatively spliced tissue factor transcripts in monocytic cells. J Leukoc Biol. 2010;87:147-52 pubmed 出版商
  8. Chen Y, Yuo C, Yang W, Jong Y, Lin H, Chang Y, et al. Extracellular pH change modulates the exon 7 splicing in SMN2 mRNA. Mol Cell Neurosci. 2008;39:268-72 pubmed 出版商
  9. Yomoda J, Muraki M, Kataoka N, Hosoya T, Suzuki M, Hagiwara M, et al. Combination of Clk family kinase and SRp75 modulates alternative splicing of Adenovirus E1A. Genes Cells. 2008;13:233-44 pubmed 出版商
  10. Exline C, Feng Z, Stoltzfus C. Negative and positive mRNA splicing elements act competitively to regulate human immunodeficiency virus type 1 vif gene expression. J Virol. 2008;82:3921-31 pubmed 出版商
  11. Liang W, Yuo C, Chang J, Chen Y, Chang Y, Wang H, et al. The effect of hydroxyurea in spinal muscular atrophy cells and patients. J Neurol Sci. 2008;268:87-94 pubmed 出版商
  12. Yuo C, Lin H, Chang Y, Yang W, Chang J. 5-(N-ethyl-N-isopropyl)-amiloride enhances SMN2 exon 7 inclusion and protein expression in spinal muscular atrophy cells. Ann Neurol. 2008;63:26-34 pubmed
  13. Huang Y, Kim Y, Li Z, Fomenkov T, Fomenkov A, Ratovitski E. AEC-associated p63 mutations lead to alternative splicing/protein stabilization of p63 and modulation of Notch signaling. Cell Cycle. 2005;4:1440-7 pubmed
  14. Chang J, Hsieh Li H, Jong Y, Wang N, Tsai C, Li H. Treatment of spinal muscular atrophy by sodium butyrate. Proc Natl Acad Sci U S A. 2001;98:9808-13 pubmed