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A convergent molecular network underlying autism and congenital heart disease. , Rosenthal SB., Cell Syst. November 17, 2021; 12 (11): 1094-1107.e6.
Functional Integrity of Synapses in the Central Nervous System of Cognitively Intact Individuals with High Alzheimer's Disease Neuropathology Is Associated with Absence of Synaptic Tau Oligomers. , Singh A., J Alzheimers Dis. January 1, 2020; 78 (4): 1661-1678.
Microtubule-associated protein tau promotes neuronal class II β-tubulin microtubule formation and axon elongation in embryonic Xenopus laevis. , Liu Y ., Eur J Neurosci. May 1, 2015; 41 (10): 1263-75.
Paxilline inhibits BK channels by an almost exclusively closed-channel block mechanism. , Zhou Y., J Gen Physiol. November 1, 2014; 144 (5): 415-40.
hnRNP K post-transcriptionally co-regulates multiple cytoskeletal genes needed for axonogenesis. , Liu Y ., Development. July 1, 2011; 138 (14): 3079-90.
MID1 and MID2 are required for Xenopus neural tube closure through the regulation of microtubule organization. , Suzuki M ., Development. July 1, 2010; 137 (14): 2329-39.
A general definition and nomenclature for alternative splicing events. , Sammeth M., PLoS Comput Biol. August 8, 2008; 4 (8): e1000147.
Role of charged residues in the S1-S4 voltage sensor of BK channels. , Ma Z., J Gen Physiol. March 1, 2006; 127 (3): 309-28.
Perturbation analysis of the voltage-sensitive conformational changes of the Na+/glucose cotransporter. , Loo DD., J Gen Physiol. January 1, 2005; 125 (1): 13-36.
Cell-type-specific splicing of KChIP4 mRNA correlates with slower kinetics of A-type current. , Baranauskas G., Eur J Neurosci. July 1, 2004; 20 (2): 385-91.
Fluorescent labeling of endothelial cells allows in vivo, continuous characterization of the vascular development of Xenopus laevis. , Levine AJ., Dev Biol. February 1, 2003; 254 (1): 50-67.
Yeast TFIIIA + TFIIIC/ tau-factor, but not yeast TFIIIA alone, interacts with the Xenopus 5S rRNA gene. , Struksnes K., Nucleic Acids Res. February 11, 1991; 19 (3): 565-71.
The expression of phosphorylated and non-phosphorylated forms of MAP5 in the amphibian CNS. , Viereck C., Dev Biol. February 5, 1990; 508 (2): 257-64.