Suchergebnisse - "Mirko Baruscotti"

1

Editorial: Dissecting Traditional Medicine via Chemical and Biochemical Techniques: Advanced Analytics and Novel Paradigms

von: Yi Wang

2022, in: Frontiers in Pharmacology

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2

Identification of the natural chalcone glycoside hydroxysafflor yellow A as a suppressor of P53 overactivation‐associated hematopoietic defects

von: Jing Chen

2023, in: MedComm

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3

Identification of the molecular site of ivabradine binding to HCN4 channels.

von: Annalisa Bucchi

2013, in: PLoS ONE

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4

Screening and Identification of Cardioprotective Compounds From Wenxin Keli by Activity Index Approach and in vivo Zebrafish Model

von: Hao Liu

2018, in: Frontiers in Pharmacology

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5

Age-Related Changes in Cardiac Autonomic Modulation and Heart Rate Variability in Mice

von: Chiara Piantoni

2021, in: Frontiers in Neuroscience

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6

GW25-e4591 Electrophysiological study of the mechanism of action of the Traditional Chinese Medicine compound TMYX on the spontaneous activity of cardiac pacemaker cells

von: Manuel, Paina

2014, in: Bimetallic diffusion modeling and temperature regulation during ball milling

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7

Chinese natural compound decreases pacemaking of rabbit cardiac sinoatrial cells by targeting second messenger regulation of f-channels

von: Chiara Piantoni

2022, in: eLife

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8

Discovery of Herbacetin as a Novel SGK1 Inhibitor to Alleviate Myocardial Hypertrophy

von: Shujing Zhang

2022, in: Advanced Science

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9

PITX2 gain-of-function mutation associated with atrial fibrillation alters mitochondrial activity in human iPSC atrial-like cardiomyocytes

von: Patrizia Benzoni

2023, in: Frontiers in Physiology

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10

Caveolin-3 and Caveolin-1 Interaction Decreases Channel Dysfunction Due to Caveolin-3 Mutations

von: Patrizia Benzoni

2024, in: International Journal of Molecular Sciences

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11

A novel de novo HCN1 loss-of-function mutation in genetic generalized epilepsy causing increased neuronal excitability

von: Mattia Bonzanni

2018, in: Neurobiology of Disease

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12

A Loss-of-Function HCN4 Mutation Associated With Familial Benign Myoclonic Epilepsy in Infancy Causes Increased Neuronal Excitability

von: Giulia Campostrini

2018, in: Frontiers in Molecular Neuroscience

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13

Mammalian γ2 AMPK regulates intrinsic heart rate

von: Arash Yavari

2017, in: Nature Communications

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