scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.YJMCC.2008.04.008 |
P698 | PubMed publication ID | 18538341 |
P50 | author | Susanne Feil | Q30380372 |
P2093 | author name string | Franz Hofmann | |
Andreas Ludwig | |||
Robert Feil | |||
Elisabeth Tybl | |||
Evelyn Hoesl | |||
Juliane Stieber | |||
Stefan Herrmann | |||
P2860 | cites work | Regulation of Cre recombinase activity by mutated estrogen receptor ligand-binding domains | Q38343320 |
Absence epilepsy and sinus dysrhythmia in mice lacking the pacemaker channel HCN2 | Q39696685 | ||
Cre-mediated somatic site-specific recombination in mice | Q39719850 | ||
The antiestrogen tamoxifen activates BK channels and stimulates proliferation of MCF-7 breast cancer cells. | Q40197288 | ||
Pacemaker mechanisms in cardiac tissue. | Q40486018 | ||
Potent inhibition of human cardiac potassium (HERG) channels by the anti-estrogen agent clomiphene-without QT interval prolongation | Q40560674 | ||
High levels of Cre expression in neuronal progenitors cause defects in brain development leading to microencephaly and hydrocephaly. | Q41919230 | ||
A highly efficient ligand-regulated Cre recombinase mouse line shows that LoxP recombination is position dependent | Q42724092 | ||
Inducible gene targeting in postnatal myocardium by cardiac-specific expression of a hormone-activated Cre fusion protein. | Q43562612 | ||
Temporally regulated and tissue-specific gene manipulations in the adult and embryonic heart using a tamoxifen-inducible Cre protein | Q43664631 | ||
Properties of the hyperpolarization-activated current (I(f)) in isolated mouse sino-atrial cells | Q43737605 | ||
ER-based double iCre fusion protein allows partial recombination in forebrain | Q44190795 | ||
Skin abnormalities generated by temporally controlled RXRalpha mutations in mouse epidermis | Q44364285 | ||
Site of origin and molecular substrate of atrioventricular junctional rhythm in the rabbit heart | Q44620905 | ||
Bradycardic and proarrhythmic properties of sinus node inhibitors | Q46875231 | ||
Temporally controlled somatic mutagenesis in smooth muscle | Q57849054 | ||
Organisation of the mouse sinoatrial node: structure and expression of HCN channels | Q59594730 | ||
Use-dependent block of the pacemaker current I(f) in rabbit sinoatrial node cells by zatebradine (UL-FS 49). On the mode of action of sinus node inhibitors | Q72560657 | ||
To Cre or not to Cre: the next generation of mouse models of human cardiac diseases | Q73702677 | ||
Tamoxifen-inducible NaV1.8-CreERT2 recombinase activity in nociceptive neurons of dorsal root ganglia | Q79932184 | ||
The hyperpolarization-activated channel HCN4 is required for the generation of pacemaker action potentials in the embryonic heart | Q28585488 | ||
Expression of the hyperpolarization-activated cyclic nucleotide-gated cation channel HCN4 during mouse heart development | Q28591825 | ||
Molecular and functional heterogeneity of hyperpolarization-activated pacemaker channels in the mouse CNS. | Q31778271 | ||
Distribution and prevalence of hyperpolarization-activated cation channel (HCN) mRNA expression in cardiac tissues | Q33867597 | ||
Differential distribution of four hyperpolarization-activated cation channels in mouse brain | Q33874776 | ||
Growth inhibition and DNA damage induced by Cre recombinase in mammalian cells | Q33930407 | ||
Assessing the role of Ih channels in synaptic transmission and mossy fiber LTP. | Q34036054 | ||
Functional expression of the human HCN3 channel | Q34436879 | ||
A family of hyperpolarization-activated mammalian cation channels | Q34472604 | ||
Hyperpolarization-activated cation currents: from molecules to physiological function | Q35019781 | ||
HCN4 provides a 'depolarization reserve' and is not required for heart rate acceleration in mice | Q36116647 | ||
P433 | issue | 1 | |
P921 | main subject | tamoxifen | Q412178 |
P304 | page(s) | 62-69 | |
P577 | publication date | 2008-04-30 | |
P1433 | published in | Journal of Molecular and Cellular Cardiology | Q2061932 |
P1476 | title | Tamoxifen-inducible gene deletion in the cardiac conduction system | |
P478 | volume | 45 |
Q39483876 | A HCN4+ cardiomyogenic progenitor derived from the first heart field and human pluripotent stem cells |
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Q35250714 | A full range of mouse sinoatrial node AP firing rates requires protein kinase A-dependent calcium signaling |
Q88390652 | ATP-sensitive potassium channels in the sinoatrial node contribute to heart rate control and adaptation to hypoxia |
Q38230888 | Cardiac applications of optogenetics |
Q34392423 | Cardiac arrhythmia induced by genetic silencing of 'funny' (f) channels is rescued by GIRK4 inactivation |
Q38025386 | Cardiac conduction system anomalies and sudden cardiac death: insights from murine models. |
Q38042920 | Cardiac electrophysiology in mice: a matter of size |
Q37373830 | Cardiac-specific inducible and conditional gene targeting in mice |
Q36371042 | Cell-cell junction remodeling in the heart: possible role in cardiac conduction system function and arrhythmias? |
Q40220427 | Comprehensive multilevel in vivo and in vitro analysis of heart rate fluctuations in mice by ECG telemetry and electrophysiology. |
Q49922723 | Conditional ablation and conditional rescue models for Casq2 elucidate the role of development and of cell type specific expression of Casq2 in the CPVT2 phenotype |
Q42351406 | Deciphering the pecking order of HCN4 expression in the developing heart: lessons from chicken |
Q30498016 | Deep bradycardia and heart block caused by inducible cardiac-specific knockout of the pacemaker channel gene Hcn4 |
Q51312558 | Distinct localization and modulation of Cav1.2 and Cav1.3 L-type Ca2+ channels in mouse sinoatrial node. |
Q37957655 | Exploring HCN channels as novel drug targets |
Q38548809 | Funny Current and Cardiac Rhythm: Insights from HCN Knockout and Transgenic Mouse Models |
Q26995702 | Gene regulatory networks in cardiac conduction system development |
Q41773233 | Generation of Shox2-Cre allele for tissue specific manipulation of genes in the developing heart, palate, and limb |
Q37964726 | HCN channels in the heart: lessons from mouse mutants |
Q38314976 | HCN channels--modulators of cardiac and neuronal excitability |
Q37705120 | HCN-related channelopathies. |
Q42334882 | HCN4 charges up the first heart field |
Q33598169 | HCN4 dynamically marks the first heart field and conduction system precursors |
Q50119961 | HCN4 pacemaker channels attenuate the parasympathetic response and stabilize the spontaneous firing of the sinoatrial node. |
Q41928156 | Inducible gene deletion in the entire cardiac conduction system using Hcn4-CreERT2 BAC transgenic mice |
Q54363085 | Inducible recombination in the cardiac conduction system of minK: CreERT² BAC transgenic mice. |
Q38274311 | Insights into cardiac conduction system formation provided by HCN4 expression. |
Q50529786 | Insights into sick sinus syndrome from an inducible mouse model. |
Q27008871 | Modern concepts concerning the origin of the heartbeat. |
Q89961129 | Molecular and tissue mechanisms of catecholaminergic polymorphic ventricular tachycardia |
Q39038606 | Murine Electrophysiological Models of Cardiac Arrhythmogenesis |
Q84980492 | Novel insights into the distribution of cardiac HCN channels: an expression study in the mouse heart |
Q36328301 | Phenotypically silent Cre recombination within the postnatal ventricular conduction system |
Q28585422 | Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice |
Q57288045 | Potassium channels in the sinoatrial node and their role in heart rate control |
Q49258743 | Probing the Electrophysiology of the Developing Heart. |
Q37377209 | Regulation of basal and reserve cardiac pacemaker function by interactions of cAMP-mediated PKA-dependent Ca2+ cycling with surface membrane channels |
Q38350829 | Sick sinus syndrome and atrial fibrillation in older persons - A view from the sinoatrial nodal myocyte. |
Q50700401 | Simulation of the effects of moderate stimulation/inhibition of the β1-adrenergic signaling system and its components in mouse ventricular myocytes. |
Q35087050 | Systolic dysfunction in cardiac-specific ligand-inducible MerCreMer transgenic mice |
Q46906226 | The autonomic nervous system and cardiac GLP-1 receptors control heart rate in mice |
Q28116242 | The cardiac conduction system |
Q37547401 | The cardiac pacemaker current |
Q33816888 | The in vivo regulation of heart rate in the murine sinoatrial node by stimulatory and inhibitory heterotrimeric G proteins |
Q36040426 | Transcription factor ISL1 is essential for pacemaker development and function. |
Q61796190 | Using Gjd3-CreEGFP mice to examine atrioventricular node morphology and composition |
Q36010630 | What keeps us ticking: a funny current, a calcium clock, or both? |
Q98177461 | cyclic AMP Regulation and Its Command in the Pacemaker Channel HCN4 |
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