diff --git a/Control/CalypsoExample/GeoModelTest/README.md b/Control/CalypsoExample/GeoModelTest/README.md
index b05f0c349ba4224424bf8ca561110f03b8f99696..c13699791ec5a2669b18ce111d0b827a372b0d97 100644
--- a/Control/CalypsoExample/GeoModelTest/README.md
+++ b/Control/CalypsoExample/GeoModelTest/README.md
@@ -1,19 +1,27 @@
 This example package actually serves several purposes:
 
-*) It illustrates how to initialize and access the detector description and magnetic field.
-*) It checks that the expected number of detector elements are created.
-*) It generates a set of neutral alignment constants for the Tracker, which can be folded into the conditions database.
-*) It dumps a standalone GeoModel sqlite geometry database which could be used by external programs to display FASER without requiring any FASER software (only GeoModel)
+
+*  It illustrates how to initialize and access the detector description and magnetic field.
+
+*  It checks that the expected number of detector elements are created.
+
+*  It generates a set of neutral alignment constants for the Tracker, which can be folded into the conditions database.
+
+*  It dumps a standalone GeoModel sqlite geometry database which could be used by external programs to display FASER without requiring any FASER software (only GeoModel)
 
 To run the algorithm, in a run directory where Calypso has been installed, do
 
+```
 run > ./setup.sh
 run > python python/GeoModelTest/GeoModelTestConfig.py
+```
 
-The file GeoModelTestConfig.py can be edited to change some run options.
+The file `GeoModelTestConfig.py` can be edited to change some run options.
 
 After running the algorithm, to add the alignment data into your local conditions DB, do:
 
+```
 run > CopyAlignFolder.sh
+```