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Temporal and spatial transcriptomic dynamics across brain development in Xenopus laevis tadpoles. , Ta AC ., G3 (Bethesda). January 4, 2022; 12 (1):
A convergent molecular network underlying autism and congenital heart disease. , Rosenthal SB., Cell Syst. November 17, 2021; 12 (11): 1094-1107.e6.
Functional limb muscle innervation prior to cholinergic transmitter specification during early metamorphosis in Xenopus. , Lambert FM ., Elife. May 30, 2018; 7
Molecular Mechanism of Disease-Associated Mutations in the Pre-M1 Helix of NMDA Receptors and Potential Rescue Pharmacology. , Ogden KK., PLoS Genet. January 17, 2017; 13 (1): e1006536.
Amyloid β peptide oligomers directly activate NMDA receptors. , Texidó L., Cell Calcium. March 1, 2011; 49 (3): 184-90.
Soluble factors from IL-1β-stimulated astrocytes activate NR1a/ NR2B receptors: implications for HIV-1-induced neurodegeneration. , Jing T., Biochem Biophys Res Commun. November 12, 2010; 402 (2): 241-6.
Cloning and Phylogenetic Analysis of NMDA Receptor Subunits NR1, NR2A and NR2B in Xenopus laevis Tadpoles. , Ewald RC., Front Mol Neurosci. September 11, 2009; 2 4.
Cyclophane and acyclic cyclophane: novel channel blockers of N-methyl-D-aspartate receptor. , Masuko T., Neurochem Int. January 1, 2007; 50 (2): 443-9.
Differential modulation of human N-methyl-D-aspartate receptors by structurally diverse general anesthetics. , Solt K., Anesth Analg. May 1, 2006; 102 (5): 1407-11.
CaMKII tethers to L-type Ca2+ channels, establishing a local and dedicated integrator of Ca2+ signals for facilitation. , Hudmon A., J Cell Biol. November 7, 2005; 171 (3): 537-47.
Activation of NR1a/ NR2B receptors by monocyte-derived macrophage secretory products: implications for human immunodeficiency virus type one-associated dementia. , Xiong H., Neurosci Lett. May 8, 2003; 341 (3): 246-50.