这是一篇来自已证抗体库的有关小鼠 β半乳糖苷酶 (beta-galactosidase) 的综述,是根据35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β半乳糖苷酶 抗体。
β半乳糖苷酶 同义词: AW125515; Bge; Bgl; Bgl-e; Bgl-s; Bgl-t; Bgs; Bgt; C130097A14Rik

赛默飞世尔
domestic rabbit 多克隆
  • 免疫组化; 拟南芥
赛默飞世尔β半乳糖苷酶抗体(分子探针, A5790)被用于被用于免疫组化在拟南芥样本上. New Phytol (2016) ncbi
伯乐(Bio-Rad)公司
domestic rabbit 多克隆
  • 免疫组化-自由浮动切片; 小鼠; 1:500; 图 1b
伯乐(Bio-Rad)公司β半乳糖苷酶抗体(AbD Serotec, AHP1292)被用于被用于免疫组化-自由浮动切片在小鼠样本上浓度为1:500 (图 1b). Science (2018) ncbi
MP Biochemicals
  • 免疫印迹; fruit fly ; 1:1000; 图 5b
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫印迹在fruit fly 样本上浓度为1:1000 (图 5b). elife (2019) ncbi
  • 免疫组化; fruit fly ; 图 2c
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在fruit fly 样本上 (图 2c). elife (2019) ncbi
  • 免疫组化; 小鼠; 1:10,000; 图 5c
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在小鼠样本上浓度为1:10,000 (图 5c). Development (2017) ncbi
  • 免疫组化; 小鼠; 1:200; 图 7a
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在小鼠样本上浓度为1:200 (图 7a). Future Sci OA (2016) ncbi
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于. elife (2016) ncbi
  • 免疫组化; fruit fly ; 1:2500; 表 1
MP生化试剂β半乳糖苷酶抗体(ICN Pharmaceuticals, 55976)被用于被用于免疫组化在fruit fly 样本上浓度为1:2500 (表 1). J Comp Neurol (2017) ncbi
  • 免疫组化; 小鼠; 1:500; 图 1e
MP生化试剂β半乳糖苷酶抗体(MP Biomedical, 559762)被用于被用于免疫组化在小鼠样本上浓度为1:500 (图 1e). Development (2016) ncbi
  • 免疫组化; 小鼠; 1:500; 图 4
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在小鼠样本上浓度为1:500 (图 4). Nat Commun (2015) ncbi
  • 免疫组化-冰冻切片; 小鼠; 1:1000
MP生化试剂β半乳糖苷酶抗体(MP-Cappel, 559762)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:1000. J Neurosci (2015) ncbi
  • 免疫组化-石蜡切片; 小鼠; 1:200
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 559762)被用于被用于免疫组化-石蜡切片在小鼠样本上浓度为1:200. Cardiovasc Res (2015) ncbi
  • 免疫组化-冰冻切片; 小鼠; 1:2000; 图 3
MP生化试剂β半乳糖苷酶抗体(MP, 55976)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:2000 (图 3). Mol Brain (2015) ncbi
  • 免疫组化-石蜡切片; fruit fly ; 1:1000
MP生化试剂β半乳糖苷酶抗体(Cappel, 55976)被用于被用于免疫组化-石蜡切片在fruit fly 样本上浓度为1:1000. Development (2015) ncbi
  • 免疫组化; fruit fly ; 1:500; 图 1
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 559762)被用于被用于免疫组化在fruit fly 样本上浓度为1:500 (图 1). elife (2014) ncbi
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于. Development (2014) ncbi
  • 免疫组化; 小鼠; 1:500
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在小鼠样本上浓度为1:500. FEBS Lett (2014) ncbi
  • 免疫组化; 小鼠; 图 6
MP生化试剂β半乳糖苷酶抗体(Cappel, 55976)被用于被用于免疫组化在小鼠样本上 (图 6). BMC Biol (2013) ncbi
  • 免疫组化-石蜡切片; 小鼠; 1:500
MP生化试剂β半乳糖苷酶抗体(MP生化试剂, 559762)被用于被用于免疫组化-石蜡切片在小鼠样本上浓度为1:500. J Clin Invest (2012) ncbi
  • 免疫组化; 小鼠
MP生化试剂β半乳糖苷酶抗体(MP Biomedicals, 55976)被用于被用于免疫组化在小鼠样本上. Dev Biol (2008) ncbi
上海普洛麦格生物产品有限公司
单克隆
  • 免疫组化-冰冻切片; 小鼠; 1:500; 图 3b
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:500 (图 3b). J Neurosci (2022) ncbi
单克隆
  • 免疫组化; 小鼠; 1:1000; 图 8a
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3788)被用于被用于免疫组化在小鼠样本上浓度为1:1000 (图 8a). JCI Insight (2021) ncbi
  • 免疫印迹; fruit fly ; 1:2000; 图 1d
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z378A)被用于被用于免疫印迹在fruit fly 样本上浓度为1:2000 (图 1d). Acta Neuropathol Commun (2019) ncbi
单克隆
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于. elife (2016) ncbi
  • 免疫组化; 小鼠; 1:1000
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z378 A)被用于被用于免疫组化在小鼠样本上浓度为1:1000. Sci Rep (2016) ncbi
单克隆
  • 免疫组化; fruit fly ; 1:300; 表 1
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫组化在fruit fly 样本上浓度为1:300 (表 1). J Comp Neurol (2017) ncbi
  • 免疫组化-石蜡切片; 大鼠; 1:400; 图 S5
  • 免疫印迹; 大鼠
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z378A)被用于被用于免疫组化-石蜡切片在大鼠样本上浓度为1:400 (图 S5) 和 被用于免疫印迹在大鼠样本上. Cardiovasc Res (2015) ncbi
单克隆
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于. Development (2015) ncbi
单克隆
  • 免疫组化; 小鼠; 1:1500
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫组化在小鼠样本上浓度为1:1500. Cell Tissue Res (2015) ncbi
单克隆
  • 免疫印迹; 小鼠; 1:200
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫印迹在小鼠样本上浓度为1:200. PLoS ONE (2015) ncbi
单克隆
  • 免疫组化; 日本大米鱼
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫组化在日本大米鱼样本上. Development (2014) ncbi
单克隆
  • 免疫组化-冰冻切片; 小鼠; 1:500
上海普洛麦格生物产品有限公司β半乳糖苷酶抗体(Promega, Z3781)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:500. J Comp Neurol (2006) ncbi
Aves Labs
  • 免疫组化-冰冻切片; 小鼠; 1:1000; 图 2b
Aves Labsβ半乳糖苷酶抗体(Aves Labs, BGL-1040)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:1000 (图 2b). elife (2019) ncbi
  • 免疫组化; 小鼠; 1:1000; 图 s3a
Aves Labsβ半乳糖苷酶抗体(Aves Labs, BGL-1040)被用于被用于免疫组化在小鼠样本上浓度为1:1000 (图 s3a). Neuron (2016) ncbi
  • 免疫组化-冰冻切片; 小鼠; 1:1000; 图 1
Aves Labsβ半乳糖苷酶抗体(Aves Labs, BGL-1010)被用于被用于免疫组化-冰冻切片在小鼠样本上浓度为1:1000 (图 1). J Cell Biol (2015) ncbi
  • 免疫组化; 小鼠; 1:1500
Aves Labsβ半乳糖苷酶抗体(Aves, BGL-1040)被用于被用于免疫组化在小鼠样本上浓度为1:1500. PLoS ONE (2014) ncbi
文章列表
  1. Matsuura K, Kobayashi S, Konno K, Yamasaki M, Horiuchi T, Senda T, et al. SIPA1L1/SPAR1 Interacts with the Neurabin Family of Proteins and is Involved in GPCR Signaling. J Neurosci. 2022;42:2448-2473 pubmed 出版商
  2. Chen H, Zhang Brotzge X, Morozov Y, Li Y, Wang S, Zhang H, et al. Creatine transporter deficiency impairs stress adaptation and brain energetics homeostasis. JCI Insight. 2021;6: pubmed 出版商
  3. Kanca O, ZIRIN J, García Marqués J, Knight S, Yang Zhou D, Amador G, et al. An efficient CRISPR-based strategy to insert small and large fragments of DNA using short homology arms. elife. 2019;8: pubmed 出版商
  4. Kondo T, Hayashi S. Two-step regulation of trachealess ensures tight coupling of cell fate with morphogenesis in the Drosophila trachea. elife. 2019;8: pubmed 出版商
  5. Zhang H, Sathyamurthy A, Liu F, Li L, Zhang L, Dong Z, et al. Agrin-Lrp4-Ror2 signaling regulates adult hippocampal neurogenesis in mice. elife. 2019;8: pubmed 出版商
  6. Berson A, Goodman L, Sartoris A, Otte C, Aykit J, Lee V, et al. Drosophila Ref1/ALYREF regulates transcription and toxicity associated with ALS/FTD disease etiologies. Acta Neuropathol Commun. 2019;7:65 pubmed 出版商
  7. Khalaf O, Resch S, Dixsaut L, Gorden V, Glauser L, Graff J. Reactivation of recall-induced neurons contributes to remote fear memory attenuation. Science. 2018;360:1239-1242 pubmed 出版商
  8. Maatouk D, Natarajan A, Shibata Y, Song L, Crawford G, Ohler U, et al. Genome-wide identification of regulatory elements in Sertoli cells. Development. 2017;144:720-730 pubmed 出版商
  9. Liu Y, Lai L, Huang S, Lin Y, Wu S, Chou C, et al. Developmental origin of postnatal cardiomyogenic progenitor cells. Future Sci OA. 2016;2:FSO120 pubmed 出版商
  10. Dey N, Ramesh P, Chugh M, Mandal S, Mandal L. Dpp dependent Hematopoietic stem cells give rise to Hh dependent blood progenitors in larval lymph gland of Drosophila. elife. 2016;5: pubmed 出版商
  11. Luo W, Mizuno H, Iwata R, Nakazawa S, Yasuda K, Itohara S, et al. Supernova: A Versatile Vector System for Single-Cell Labeling and Gene Function Studies in vivo. Sci Rep. 2016;6:35747 pubmed 出版商
  12. Riddiford N, Schlosser G. Dissecting the pre-placodal transcriptome to reveal presumptive direct targets of Six1 and Eya1 in cranial placodes. elife. 2016;5: pubmed 出版商
  13. Alvarez Rivero J, Moris Sanz M, Estacio Gómez A, Montoliu Nerin M, Diaz Benjumea F, Herrero P. Variability in the number of abdominal leucokinergic neurons in adult Drosophila melanogaster. J Comp Neurol. 2017;525:639-660 pubmed 出版商
  14. Redmond S, Mei F, Eshed Eisenbach Y, Osso L, Leshkowitz D, Shen Y, et al. Somatodendritic Expression of JAM2 Inhibits Oligodendrocyte Myelination. Neuron. 2016;91:824-836 pubmed 出版商
  15. Kam J, Dumontier E, Baim C, Brignall A, Mendes da Silva D, Cowan M, et al. RGMB and neogenin control cell differentiation in the developing olfactory epithelium. Development. 2016;143:1534-46 pubmed 出版商
  16. Cazals Y, Bevengut M, Zanella S, Brocard F, Barhanin J, Gestreau C. KCNK5 channels mostly expressed in cochlear outer sulcus cells are indispensable for hearing. Nat Commun. 2015;6:8780 pubmed 出版商
  17. Login H, HÃ¥glin S, Berghard A, Bohm S. The Stimulus-Dependent Gradient of Cyp26B1+ Olfactory Sensory Neurons Is Necessary for the Functional Integrity of the Olfactory Sensory Map. J Neurosci. 2015;35:13807-18 pubmed 出版商
  18. Pellet Many C, Mehta V, Fields L, Mahmoud M, Lowe V, Evans I, et al. Neuropilins 1 and 2 mediate neointimal hyperplasia and re-endothelialization following arterial injury. Cardiovasc Res. 2015;108:288-98 pubmed 出版商
  19. Lévesque Lemay M, Chabot D, Hubbard K, Chan J, Miller S, Robert L. Tapetal oleosins play an essential role in tapetosome formation and protein relocation to the pollen coat. New Phytol. 2016;209:691-704 pubmed 出版商
  20. Wei K, Díaz Trelles R, Liu Q, Diez Cuñado M, Scimia M, Cai W, et al. Developmental origin of age-related coronary artery disease. Cardiovasc Res. 2015;107:287-94 pubmed 出版商
  21. Imoto Y, Kira T, Sukeno M, Nishitani N, Nagayasu K, Nakagawa T, et al. Role of the 5-HT4 receptor in chronic fluoxetine treatment-induced neurogenic activity and granule cell dematuration in the dentate gyrus. Mol Brain. 2015;8:29 pubmed 出版商
  22. SHERRARD K, Fehon R. The transmembrane protein Crumbs displays complex dynamics during follicular morphogenesis and is regulated competitively by Moesin and aPKC. Development. 2015;142:1869-78 pubmed 出版商
  23. Fleischer J, Bumbalo R, Bautze V, Strotmann J, Breer H. Expression of odorant receptor Olfr78 in enteroendocrine cells of the colon. Cell Tissue Res. 2015;361:697-710 pubmed 出版商
  24. Bras Pereira C, Casares F, Janody F. The retinal determination gene Dachshund restricts cell proliferation by limiting the activity of the Homothorax-Yorkie complex. Development. 2015;142:1470-9 pubmed 出版商
  25. Tapia O, Fong L, Huber M, Young S, Gerace L. Nuclear envelope protein Lem2 is required for mouse development and regulates MAP and AKT kinases. PLoS ONE. 2015;10:e0116196 pubmed 出版商
  26. Wright M, Reed Geaghan E, Bolock A, Fujiyama T, Hoshino M, Maricich S. Unipotent, Atoh1+ progenitors maintain the Merkel cell population in embryonic and adult mice. J Cell Biol. 2015;208:367-79 pubmed 出版商
  27. Cameron E, Robinson P. β-Arrestin-dependent deactivation of mouse melanopsin. PLoS ONE. 2014;9:e113138 pubmed 出版商
  28. Stolfi A, Gandhi S, Salek F, Christiaen L. Tissue-specific genome editing in Ciona embryos by CRISPR/Cas9. Development. 2014;141:4115-20 pubmed 出版商
  29. Bosch J, Sumabat T, Hafezi Y, Pellock B, Gandhi K, Hariharan I. The Drosophila F-box protein Fbxl7 binds to the protocadherin fat and regulates Dachs localization and Hippo signaling. elife. 2014;3:e03383 pubmed 出版商
  30. Castillo D, Seidel K, Salcedo E, Ahn C, De Sauvage F, Klein O, et al. Induction of ectopic taste buds by SHH reveals the competency and plasticity of adult lingual epithelium. Development. 2014;141:2993-3002 pubmed 出版商
  31. Bosen F, Schütz M, Beinhauer A, Strenzke N, Franz T, Willecke K. The Clouston syndrome mutation connexin30 A88V leads to hyperproliferation of sebaceous glands and hearing impairments in mice. FEBS Lett. 2014;588:1795-801 pubmed 出版商
  32. Dai X, Jiang W, Zhang Q, Xu L, Geng P, Zhuang S, et al. Requirement for integrin-linked kinase in neural crest migration and differentiation and outflow tract morphogenesis. BMC Biol. 2013;11:107 pubmed 出版商
  33. Carrasco M, Delgado I, Soria B, Martin F, Rojas A. GATA4 and GATA6 control mouse pancreas organogenesis. J Clin Invest. 2012;122:3504-15 pubmed 出版商
  34. Nair M, Nagamori I, Sun P, Mishra D, Rhéaume C, Li B, et al. Nuclear regulator Pygo2 controls spermiogenesis and histone H3 acetylation. Dev Biol. 2008;320:446-55 pubmed 出版商
  35. Levai O, Feistel T, Breer H, Strotmann J. Cells in the vomeronasal organ express odorant receptors but project to the accessory olfactory bulb. J Comp Neurol. 2006;498:476-90 pubmed