Cardiovascular Research Institute

Publications

Found 130 results
Filters: First Letter Of Last Name is P  [Clear All Filters]
2016
Pitt GS, Lee S-Y. Current view on regulation of voltage-gated sodium channels by calcium and auxiliary proteins. Protein Sci. 2016;25(9):1573-84.
Cao J, Poss KD. Explant culture of adult zebrafish hearts for epicardial regeneration studies. Nat Protoc. 2016;11(5):872-81.
Yang J, Wang Z, Sinden DS, Wang X, Shan B, Yu X, Zhang H, Pitt GS, Wang C. FGF13 modulates the gating properties of the cardiac sodium channel Nav1.5 in an isoform-specific manner. Channels (Austin). 2016;10(5):410-420.
Foglia MJ, Cao J, Tornini VA, Poss KD. Multicolor mapping of the cardiomyocyte proliferation dynamics that construct the atrium. Development. 2016;143(10):1688-96.
Wang H-G, Zhu W, Kanter RJ, Silva JR, Honeywell C, Gow RM, Pitt GS. A novel NaV1.5 voltage sensor mutation associated with severe atrial and ventricular arrhythmias. J Mol Cell Cardiol. 2016;92:52-62.
Pablo JL, Wang C, Presby MM, Pitt GS. Polarized localization of voltage-gated Na+ channels is regulated by concerted FGF13 and FGF14 action. Proc Natl Acad Sci U S A. 2016;113(19):E2665-74.
Pablo JL, Wang C, Presby MM, Pitt GS. Polarized localization of voltage-gated Na+ channels is regulated by concerted FGF13 and FGF14 action. Proc Natl Acad Sci U S A. 2016;113(19):E2665-74.
Pablo JL, Wang C, Presby MM, Pitt GS. Polarized localization of voltage-gated Na+ channels is regulated by concerted FGF13 and FGF14 action. Proc Natl Acad Sci U S A. 2016;113(19):E2665-74.
Cao J, Navis A, Cox BD, Dickson AL, Gemberling M, Karra R, Bagnat M, Poss KD. Single epicardial cell transcriptome sequencing identifies Caveolin 1 as an essential factor in zebrafish heart regeneration. Development. 2016;143(2):232-43.
Black JB, Adler AF, Wang H-G, D'Ippolito AM, Hutchinson HA, Reddy TE, Pitt GS, Leong KW, Gersbach CA. Targeted Epigenetic Remodeling of Endogenous Loci by CRISPR/Cas9-Based Transcriptional Activators Directly Converts Fibroblasts to Neuronal Cells. Cell Stem Cell. 2016;19(3):406-14.
Pitt GS. A view from the side-line. Eur Heart J. 2016;37(47):3488-3489.
Choi J-I, Wang C, Thomas MJ, Pitt GS. α1-Syntrophin Variant Identified in Drug-Induced Long QT Syndrome Increases Late Sodium Current. PLoS One. 2016;11(3):e0152355.
2017
Yan H, Wang C, Marx SO, Pitt GS. Calmodulin limits pathogenic Na+ channel persistent current. J Gen Physiol. 2017;149(2):277-293.
Mendelson K, Pandey S, Hisano Y, Carellini F, Das BC, Hla T, Evans T. The ceramide synthase 2b gene mediates genomic sensing and regulation of sphingosine levels during zebrafish embryogenesis. Elife. 2017;6.
Crespo M, Vilar E, Tsai S-Y, Chang K, Amin S, Srinivasan T, Zhang T, Pipalia NH, Chen HJoyce, Witherspoon M, Gordillo M, Xiang JZhaoying, Maxfield FR, Lipkin S, Evans T, Chen S. Colonic organoids derived from human induced pluripotent stem cells for modeling colorectal cancer and drug testing. Nat Med. 2017;23(7):878-884.
Wang X, Tang H, Wei EQ, Wang Z, Yang J, Yang R, Wang S, Zhang Y, Pitt GS, Zhang H, Wang C. Conditional knockout of Fgf13 in murine hearts increases arrhythmia susceptibility and reveals novel ion channel modulatory roles. J Mol Cell Cardiol. 2017;104:63-74.
Pablo JL, Pitt GS. Divide, multitask, and conquer: Coordination in channel regulation. Channels (Austin). 2017;:1-3.
Pablo JL, Pitt GS. Divide, multitask, and conquer: Coordination in channel regulation. Channels (Austin). 2017;:1-3.
Pablo JL, Pitt GS. FGF14 is a regulator of KCNQ2/3 channels. Proc Natl Acad Sci U S A. 2017;114(1):154-159.
Pablo JL, Pitt GS. FGF14 is a regulator of KCNQ2/3 channels. Proc Natl Acad Sci U S A. 2017;114(1):154-159.
Patel YA, George A, Dorval AD, White JA, Christini DJ, Butera RJ. Hard real-time closed-loop electrophysiology with the Real-Time eXperiment Interface (RTXI). PLoS Comput Biol. 2017;13(5):e1005430.
Cao C, Ren Y, Barnett AS, Mirando AJ, Rouse D, Mun SHwan, Park-Min K-H, McNulty AL, Guilak F, Karner CM, Hilton MJ, Pitt GS. Increased Ca2+ signaling through CaV1.2 promotes bone formation and prevents estrogen deficiency-induced bone loss. JCI Insight. 2017;2(22).
Cao C, Ren Y, Barnett AS, Mirando AJ, Rouse D, Mun SHwan, Park-Min K-H, McNulty AL, Guilak F, Karner CM, Hilton MJ, Pitt GS. Increased Ca2+ signaling through CaV1.2 promotes bone formation and prevents estrogen deficiency-induced bone loss. JCI Insight. 2017;2(22).
Wei EQ, Sinden DS, Mao L, Zhang H, Wang C, Pitt GS. Inducible Fgf13 ablation enhances caveolae-mediated cardioprotection during cardiac pressure overload. Proc Natl Acad Sci U S A. 2017;.
Katchman A, Yang L, Zakharov SI, Kushner J, Abrams J, Chen B-X, Liu G, Pitt GS, Colecraft HM, Marx SO. Proteolytic cleavage and PKA phosphorylation of α1C subunit are not required for adrenergic regulation of CaV1.2 in the heart. Proc Natl Acad Sci U S A. 2017;114(34):9194-9199.