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An important role of computational modeling in cell physiology is quantitative hypothesis testing. This role can be seen as having 6 steps: | An important role of computational modeling in cell physiology is quantitative hypothesis testing. This role can be seen as having 6 steps: | ||
− | Overview Familiarize Yourself With ProcessDB | + | '''Overview''' Familiarize Yourself With ProcessDB |
− | Step 1 Start With A Diagram of Your Hypothesis | + | |
− | Step 2 Quantify Your Hypothesis | + | '''Step 1''' Start With A Diagram of Your Hypothesis |
− | Step 3 Record Your Experimental Protocols | + | |
− | Step 4 Collect Your Experimental Data | + | '''Step 2''' Quantify Your Hypothesis |
− | Step 5 Run Your Protocols on the Model | + | |
− | Step 6 Test Your Hypothesis Against Your Data | + | '''Step 3''' Record Your Experimental Protocols |
+ | |||
+ | '''Step 4''' Collect Your Experimental Data | ||
+ | |||
+ | '''Step 5''' Run Your Protocols on the Model | ||
+ | |||
+ | '''Step 6''' Test Your Hypothesis Against Your Data |
Revision as of 12:22, 8 October 2013
ProcessDB User Guide
An important role of computational modeling in cell physiology is quantitative hypothesis testing. This role can be seen as having 6 steps:
Overview Familiarize Yourself With ProcessDB
Step 1 Start With A Diagram of Your Hypothesis
Step 2 Quantify Your Hypothesis
Step 3 Record Your Experimental Protocols
Step 4 Collect Your Experimental Data
Step 5 Run Your Protocols on the Model
Step 6 Test Your Hypothesis Against Your Data