Diff for "Meetings/Pune2016/P1" - Cell Systems Modelling Group

Differences between revisions 3 and 6 (spanning 3 versions)

Practical 1 - Structural Properties of the Calvin Cycle and Diacetyl Synthesis

Introduction

In this practical we will investigate the general structural properites of the photosynthetic Calvin Cycle (see Slide 7 from the first talk) and seek to answer a specific question that is hard to answer simply by looking at the network diagram: "how can starch degradation act as a carbon source to generate triose phosphate?"

Methods

Part 1:

Download the Calvin cycle model.
Start ScrumPy and load the model:
>>> m = ScrumPy.Model("Calvin.spy")
Locate the reactions and metabolites in the model on the network diagram.
As far as possible, identify the routes by which triose phosphate species may be identified.

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-[[http://Mudsharkstatic.brookes.ac.uk/Pune2016/P1/DiacSynth.spy|Diacetyl synthesis model]]
+=== Introduction ===
In this practical we will investigate the general structural properites of the photosynthetic Calvin Cycle (see Slide 7 from the first talk) and seek to answer a specific question that is hard to answer simply by looking at the network diagram: "how can starch degradation act as a carbon source to generate triose phosphate?"
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-[[http://Mudsharkstatic.brookes.ac.uk/Pune2016/P1/Calvin.spy|Calvin cycle model]]
+=== Methods ===
==== Part 1: ====
 1. [[http://Mudsharkstatic.brookes.ac.uk/Pune2016/P1/Calvin.spy|Download]]  the Calvin cycle model.
 1. Start !ScrumPy and load the model:
 1. {{{>>> m = ScrumPy.Model("Calvin.spy")}}}
 1. Locate the reactions and metabolites in the model on the network diagram.
 1. As far as possible, identify the routes by which triose phosphate species may be identified.