这是一篇来自已证抗体库的有关小鼠 Slc18a3的综述,是根据9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Slc18a3 抗体。
Slc18a3 同义词: VAChT; VAT; vesicular acetylcholine transporter; solute carrier family 18 member 3

Synaptic Systems
豚鼠 多克隆
  • 免疫组化; 小鼠; 1:500; 图 6d
Synaptic Systems Slc18a3抗体(Synaptic Systems, 139105)被用于被用于免疫组化在小鼠样本上浓度为1:500 (图 6d). elife (2019) ncbi
兔 多克隆(/)
  • 免疫组化-自由浮动切片; 小鼠; 图 1a
  • 免疫印迹; 小鼠; 图 s1b
Synaptic Systems Slc18a3抗体(Synaptic Systems, 139103)被用于被用于免疫组化-自由浮动切片在小鼠样本上 (图 1a) 和 被用于免疫印迹在小鼠样本上 (图 s1b). Cereb Cortex (2017) ncbi
兔 多克隆(/)
  • 免疫组化-冰冻切片; 小鼠; 1:500; 图 9
Synaptic Systems Slc18a3抗体(Synaptic Systems, 139 103)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 9). J Comp Neurol (2016) ncbi
兔 多克隆(/)
  • 免疫组化-自由浮动切片; 小鼠; 1:100; 图 s8
Synaptic Systems Slc18a3抗体(Synaptic Systems, 139 103)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1:100 (图 s8). Nature (2015) ncbi
默克密理博中国
山羊 多克隆
  • 免疫组化; 人类; 1:1000; 图 4
默克密理博中国 Slc18a3抗体(Millipore, ABN100)被用于被用于免疫组化在人类样本上浓度为1:1000 (图 4). Brain Res (2016) ncbi
山羊 多克隆
  • 免疫组化; 大鼠; 1:100; 图 3
默克密理博中国 Slc18a3抗体(Millipore, ABN100)被用于被用于免疫组化在大鼠样本上浓度为1:100 (图 3). Development (2016) ncbi
山羊 多克隆
  • 免疫组化-自由浮动切片; 小鼠; 1:500; 图 5
默克密理博中国 Slc18a3抗体(Millipore, ABN100)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 5). Nat Commun (2016) ncbi
山羊 多克隆
  • 免疫组化-自由浮动切片; 大鼠
默克密理博中国 Slc18a3抗体(Millipore, ABN100)被用于被用于免疫组化-自由浮动切片在大鼠样本上. PLoS ONE (2014) ncbi
山羊 多克隆
  • 免疫细胞化学; 小鼠; 1:2000; 图 s4
默克密理博中国 Slc18a3抗体(Chemicon, ABN100)被用于被用于免疫细胞化学在小鼠样本上浓度为1:2000 (图 s4). Nat Neurosci (2014) ncbi
文章列表
  1. Li Z, Hao M, Van den Haute C, Baekelandt V, Boesmans W, Vanden Berghe P. Regional complexity in enteric neuron wiring reflects diversity of motility patterns in the mouse large intestine. elife. 2019;8: pubmed 出版商
  2. Gotts J, Atkinson L, Yanagawa Y, Deuchars J, Deuchars S. Co-expression of GAD67 and choline acetyltransferase in neurons in the mouse spinal cord: A focus on lamina X. Brain Res. 2016;1646:570-579 pubmed 出版商
  3. Vilmont V, Cadot B, Ouanounou G, Gomes E. A system for studying mechanisms of neuromuscular junction development and maintenance. Development. 2016;143:2464-77 pubmed 出版商
  4. Kishi N, MacDonald J, Ye J, Molyneaux B, Azim E, Macklis J. Reduction of aberrant NF-κB signalling ameliorates Rett syndrome phenotypes in Mecp2-null mice. Nat Commun. 2016;7:10520 pubmed 出版商
  5. Al Onaizi M, Parfitt G, Kolisnyk B, Law C, Guzman M, Barros D, et al. Regulation of Cognitive Processing by Hippocampal Cholinergic Tone. Cereb Cortex. 2017;27:1615-1628 pubmed 出版商
  6. Villette V, Guigue P, Picardo M, Sousa V, Leprince E, Lachamp P, et al. Development of early-born ?-Aminobutyric acid hub neurons in mouse hippocampus from embryogenesis to adulthood. J Comp Neurol. 2016;524:2440-61 pubmed 出版商
  7. Saunders A, Oldenburg I, Berezovskii V, Johnson C, Kingery N, Elliott H, et al. A direct GABAergic output from the basal ganglia to frontal cortex. Nature. 2015;521:85-9 pubmed 出版商
  8. Vetreno R, Broadwater M, Liu W, Spear L, Crews F. Adolescent, but not adult, binge ethanol exposure leads to persistent global reductions of choline acetyltransferase expressing neurons in brain. PLoS ONE. 2014;9:e113421 pubmed 出版商
  9. Atasoy D, Betley J, Li W, Su H, Sertel S, Scheffer L, et al. A genetically specified connectomics approach applied to long-range feeding regulatory circuits. Nat Neurosci. 2014;17:1830-9 pubmed 出版商