diff --git a/PhyloToL-Part-1:-GF-assignment.md b/PhyloToL-Part-1:-GF-assignment.md
index 298cc41..619d497 100644
--- a/PhyloToL-Part-1:-GF-assignment.md
+++ b/PhyloToL-Part-1:-GF-assignment.md
@@ -89,7 +89,8 @@ PhyloToL part 1 starts with your **assembled transcripts** and produces **ReadyT
 On a grid
 `python Scripts/wrapper.py --first_script 1 --last_script 7 --assembled_transcripts AssembledTranscripts --genetic_code Gcode.txt --databases Databases > log.txt`
 
-On a local computer: navigate to within the Scripts folder 
+On a local computer: First navigate to within the Scripts folder and then run:
+
 `python3 wrapper.py --first_script 1 --last_script 7 --assembled_transcripts [full_path]/PhyloToL-6/PTL1/Transcriptomes/AssembledTranscripts --genetic_code universal --databases [full_path]/PhyloToL-6/PTL1/Transcriptomes/Databases --output [full_path]/PhyloToL-6/PTL1/Transcriptomes/ > log.txt`
 
 In this case, the file `Gcode.txt` is a text file designating genetic code assignments for each taxon. The file should contain two tab-separated columns; the first column gives a ten-digit sample identifier, and the second column the genetic code assignment to be used in translation (script 5). The genetic code options are: universal, blepharisma, chilodonella, condylostoma, euplotes, peritrich, vorticella, ciliate, mesodinium, taa, tag, tga, and none. If you are not working with ciliates, you should probably choose "universal" for each taxon, or just use the argument `--genetic_code universal` instead of creating a text file.