K_v1.5 potassium channel gene regulation by Sp1 transcription factor and oxidative stress

Keyphrases

• Oxidative Stress 100%
• Gene Regulation 100%
• Promoter Activity 100%
• Potassium Channel Genes 100%
• Sp1 Transcription Factor 100%
• Kv1.5 Potassium Channel 100%
• Physiological Condition 50%
• Smooth muscle Cells 50%
• Kv1.5 50%
• Hydrogen Peroxide 25%
• Blood Vessels 25%
• Pathological Conditions 25%
• Mutagenesis 25%
• Dominant Negative 25%
• Muscle Cell Line 25%
• Luciferase Reporter Gene 25%
• Vascular Smooth muscle Cells 25%
• Functional Importance 25%
• 5′-flanking Region 25%
• Voltage-gated Potassium Channel 25%
• Aorta 25%
• Drug Development Program 25%
• Promoter Interactions 25%
• Induced Oxidative Stress 25%
• Kv1.5 Channel 25%
• Cardiac Action Potential 25%
• Mithramycin 25%
• Channel Expression 25%
• Therapeutic Drug Development 25%
• Vessel Tone 25%
• Nucleotide Motifs 25%

Neuroscience

• Oxidative Stress 100%
• Promoter Region 100%
• Gene Control 100%
• Sp1 Transcription Factor 100%
• Potassium Channel Kv1.5 100%
• In Vivo 16%
• Hydrogen Peroxide 16%
• Cell Line 16%
• Vascular Smooth Muscle 16%
• Mutagenesis 16%
• Luciferase 16%
• Reporter Gene 16%
• Voltage-Gated Potassium Channel 16%
• Nucleotide Motif 16%
• DNA Flanking Region 16%
• Plicamycin 16%
• Cardiac Action Potential 16%

Immunology and Microbiology

• Oxidative Stress 100%
• Potassium Channels 100%
• Promoter Region 100%
• Gene Control 100%
• Transcription Factor Sp1 100%
• Hydrogen Peroxide 16%
• DNA Flanking Region 16%
• Mutagenesis 16%
• Reporter Gene 16%
• Smooth Muscle Cell 16%
• Blood Vessel Tone 16%
• Voltage-Gated Potassium Channel 16%
• Nucleotide Motif 16%
• Action Potential 16%
• Vascular Smooth Muscle 16%
• Smooth Muscle Cell Line 16%