这是一篇来自已证抗体库的有关人类 HSPA1L的综述,是根据26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HSPA1L 抗体。
HSPA1L 同义词: HSP70-1L; HSP70-HOM; HSP70T; hum70t

赛默飞世尔
小鼠 单克隆(3A3)
  • 免疫印迹; 人类; 1:200; 图 5
赛默飞世尔 HSPA1L抗体(Affinity BioReagents, MA3-006)被用于被用于免疫印迹在人类样本上浓度为1:200 (图 5). Biomed Pharmacother (2017) ncbi
小鼠 单克隆(3A3)
赛默飞世尔 HSPA1L抗体(Thermo Scientific, MA3-006)被用于. Comp Biochem Physiol A Mol Integr Physiol (2017) ncbi
小鼠 单克隆(2A4)
  • 免疫印迹; 人类; 1:5000; 图 1a
赛默飞世尔 HSPA1L抗体(Thermo Pierce, MA3-008)被用于被用于免疫印迹在人类样本上浓度为1:5000 (图 1a). J Biol Chem (2016) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 人类; 1:5000
  • 免疫印迹; Artemia franciscana; 1:5000; 图 2a
赛默飞世尔 HSPA1L抗体(Affinity BioReagents, 3A3)被用于被用于免疫印迹在人类样本上浓度为1:5000 和 被用于免疫印迹在Artemia franciscana样本上浓度为1:5000 (图 2a). Environ Res (2016) ncbi
domestic rabbit 多克隆
  • 免疫印迹; 小鼠; 图 6a
赛默飞世尔 HSPA1L抗体(Thermo Fisher Scientific, PA5-28003)被用于被用于免疫印迹在小鼠样本上 (图 6a). Free Radic Biol Med (2016) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 小鼠; 1:1000; 图 3c
赛默飞世尔 HSPA1L抗体(Thermo Scientific, MA3-0066)被用于被用于免疫印迹在小鼠样本上浓度为1:1000 (图 3c). PLoS ONE (2016) ncbi
小鼠 单克隆(MB-H1)
  • 免疫组化-石蜡切片; 人类; 1:40; 表 3
赛默飞世尔 HSPA1L抗体(Invitrogen, 33-3800)被用于被用于免疫组化-石蜡切片在人类样本上浓度为1:40 (表 3). Oncol Lett (2016) ncbi
小鼠 单克隆(3A3)
赛默飞世尔 HSPA1L抗体(ThermoScientific, 3A3)被用于. Fish Shellfish Immunol (2016) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; Pacific oyster; 1:2500; 图 1
赛默飞世尔 HSPA1L抗体(Affinity BioReagents, MA3-006)被用于被用于免疫印迹在Pacific oyster样本上浓度为1:2500 (图 1). Comp Biochem Physiol A Mol Integr Physiol (2016) ncbi
小鼠 单克隆(5A5)
  • 免疫印迹; scallops; 图 7
赛默飞世尔 HSPA1L抗体(Affinity Bioreagents, MA3-007)被用于被用于免疫印迹在scallops样本上 (图 7). J Exp Biol (2016) ncbi
小鼠 单克隆(5A5)
  • 免疫印迹; 人类; 图 1
赛默飞世尔 HSPA1L抗体(Affinity Bioreagents, MA3-007)被用于被用于免疫印迹在人类样本上 (图 1). PLoS ONE (2016) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 小鼠; 1:5000; 图 1
赛默飞世尔 HSPA1L抗体(Affinity Bioreagents, MA3006)被用于被用于免疫印迹在小鼠样本上浓度为1:5000 (图 1). PLoS ONE (2015) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; common limpet; 1:1000
赛默飞世尔 HSPA1L抗体(Thermo Scientific, MA3-006)被用于被用于免疫印迹在common limpet样本上浓度为1:1000. Glob Chang Biol (2016) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; Asian green mussel; 1:5000; 图 2
赛默飞世尔 HSPA1L抗体(Thermo Scientific, MA3-006)被用于被用于免疫印迹在Asian green mussel样本上浓度为1:5000 (图 2). PLoS ONE (2015) ncbi
domestic rabbit 多克隆
赛默飞世尔 HSPA1L抗体(Thermo Fisher, PA5-28003)被用于. Cell Physiol Biochem (2015) ncbi
小鼠 单克隆(W27)
  • 免疫印迹; 人类; 图 2
赛默飞世尔 HSPA1L抗体(Thermo Scientific, MA1-90504)被用于被用于免疫印迹在人类样本上 (图 2). Biochim Biophys Acta (2015) ncbi
小鼠 单克隆(3A3)
  • 免疫组化; holothurians; 1:200
  • 免疫印迹; holothurians; 1:1000
赛默飞世尔 HSPA1L抗体(Thermo, MA3-006)被用于被用于免疫组化在holothurians样本上浓度为1:200 和 被用于免疫印迹在holothurians样本上浓度为1:1000. Fish Shellfish Immunol (2015) ncbi
小鼠 单克隆(W27)
  • 免疫印迹; 人类; 图 3
赛默飞世尔 HSPA1L抗体(Neomarkers, MS-482-PO)被用于被用于免疫印迹在人类样本上 (图 3). Int J Oncol (2015) ncbi
小鼠 单克隆(5A5)
  • 免疫印迹; 小鼠
赛默飞世尔 HSPA1L抗体(scbt, MA3-007)被用于被用于免疫印迹在小鼠样本上. J Proteome Res (2015) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 小鼠; 图 2
赛默飞世尔 HSPA1L抗体(ABR Affinity Bio Reagents, MA3-006)被用于被用于免疫印迹在小鼠样本上 (图 2). Dev Dyn (2015) ncbi
小鼠 单克隆(5A5)
  • 酶联免疫吸附测定; fruit fly ; 1:1000; 图 3
赛默飞世尔 HSPA1L抗体(Thermo Scientific, 5A5)被用于被用于酶联免疫吸附测定在fruit fly 样本上浓度为1:1000 (图 3). J Evol Biol (2012) ncbi
小鼠 单克隆(5A5)
  • 酶联免疫吸附测定; Lycaena tityrus; 1:700; 图 2c
赛默飞世尔 HSPA1L抗体(Affinity BioReagents, 5A5)被用于被用于酶联免疫吸附测定在Lycaena tityrus样本上浓度为1:700 (图 2c). Oecologia (2011) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 人类; 1:3000
  • 免疫印迹; Marenzelleria viridis; 1:3000; 图 7a
赛默飞世尔 HSPA1L抗体(Affinity BioReagents, MA3-006)被用于被用于免疫印迹在人类样本上浓度为1:3000 和 被用于免疫印迹在Marenzelleria viridis样本上浓度为1:3000 (图 7a). Comp Biochem Physiol B Biochem Mol Biol (2006) ncbi
小鼠 单克隆(3A3)
  • 免疫印迹; 大鼠; 图 2a
赛默飞世尔 HSPA1L抗体(Affinity Bioreagents, 3A3)被用于被用于免疫印迹在大鼠样本上 (图 2a). Methods Enzymol (2005) ncbi
武汉三鹰
domestic rabbit 多克隆
  • 免疫印迹基因敲除验证; 小鼠; 1:1500; 图 2d
武汉三鹰 HSPA1L抗体(Proteintech, 13970-1)被用于被用于免疫印迹基因敲除验证在小鼠样本上浓度为1:1500 (图 2d). Peerj (2020) ncbi
亚诺法生技股份有限公司
domestic rabbit 多克隆
  • 免疫印迹; 人类; 图 2
亚诺法生技股份有限公司 HSPA1L抗体(Abnova, H00003305-D01)被用于被用于免疫印迹在人类样本上 (图 2). Asian J Androl (2016) ncbi
文章列表
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  2. Solárová Z, Kello M, Varinska L, Budovská M, Solar P. Inhibition of heat shock protein (Hsp) 90 potentiates the antiproliferative and pro-apoptotic effects of 2-(4'fluoro-phenylamino)-4H-1,3-thiazine[6,5-b]indole in A2780cis cells. Biomed Pharmacother. 2017;85:463-471 pubmed 出版商
  3. Rahlff J, Peters J, Moyano M, Pless O, Claussen C, Peck M. Short-term molecular and physiological responses to heat stress in neritic copepods Acartia tonsa and Eurytemora affinis. Comp Biochem Physiol A Mol Integr Physiol. 2017;203:348-358 pubmed 出版商
  4. Mitra S, Ghosh B, Gayen N, Roy J, Mandal A. Bipartite Role of Heat Shock Protein 90 (Hsp90) Keeps CRAF Kinase Poised for Activation. J Biol Chem. 2016;291:24579-24593 pubmed
  5. Pestana J, Novais S, Norouzitallab P, Vandegehuchte M, Bossier P, De Schamphelaere K. Non-lethal heat shock increases tolerance to metal exposure in brine shrimp. Environ Res. 2016;151:663-670 pubmed 出版商
  6. Reeg S, Jung T, Castro J, Davies K, Henze A, Grune T. The molecular chaperone Hsp70 promotes the proteolytic removal of oxidatively damaged proteins by the proteasome. Free Radic Biol Med. 2016;99:153-166 pubmed 出版商
  7. Sclip A, Bacaj T, Giam L, Sudhof T. Extended Synaptotagmin (ESyt) Triple Knock-Out Mice Are Viable and Fertile without Obvious Endoplasmic Reticulum Dysfunction. PLoS ONE. 2016;11:e0158295 pubmed 出版商
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  16. Aleng N, Sung Y, MacRae T, Abd Wahid M. Non-Lethal Heat Shock of the Asian Green Mussel, Perna viridis, Promotes Hsp70 Synthesis, Induces Thermotolerance and Protects Against Vibrio Infection. PLoS ONE. 2015;10:e0135603 pubmed 出版商
  17. Li H, Han L, Yang Z, Huang W, Zhang X, Gu Y, et al. Differential Proteomic Analysis of Syncytiotrophoblast Extracellular Vesicles from Early-Onset Severe Preeclampsia, using 8-Plex iTRAQ Labeling Coupled with 2D Nano LC-MS/MS. Cell Physiol Biochem. 2015;36:1116-30 pubmed 出版商
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  22. Cho O, Mallappa C, Hernández Hernández J, Rivera Pérez J, Imbalzano A. Contrasting roles for MyoD in organizing myogenic promoter structures during embryonic skeletal muscle development. Dev Dyn. 2015;244:43-55 pubmed 出版商
  23. Calabria G, Dolgova O, Rego C, Castañeda L, Rezende E, Balanya J, et al. Hsp70 protein levels and thermotolerance in Drosophila subobscura: a reassessment of the thermal co-adaptation hypothesis. J Evol Biol. 2012;25:691-700 pubmed 出版商
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