diff --git a/Glycine/max/studies/glyma.Zhang_Sun_2018.yml b/Glycine/max/studies/glyma.Zhang_Sun_2018.yml
index b20f33a..0a9200c 100644
--- a/Glycine/max/studies/glyma.Zhang_Sun_2018.yml
+++ b/Glycine/max/studies/glyma.Zhang_Sun_2018.yml
@@ -12,11 +12,11 @@ curators:
 comments:
   - Seed coat bloom proteins are synthesized within the pod endocarp and adhere
     to the surface of the seed coat. During Glycine max domestication, selection
-    for the recessive mutant allele (Gmb1) gave rise to both the shiny no-bloom
-    coat phenotype and elevated seed oil content.
+    for the recessive mutant allele bloom 1 (Gmb1) gave rise to both the shiny
+    no-bloom coat phenotype and elevated seed oil content.
   - A point mutation from C to T in the coding sequence of the dominant allele
-    GmB1 causes an amino acid change from cysteine to arginine resulting in a
-    loss of helix protein structure.
+    Bloom 1 (GmB1) causes an amino acid change from cysteine to arginine
+    resulting in a loss of helix protein structure.
   - Gene expression levels of B1 were higher than b1 in transgenic Williams82,
     which suggests the C to T polymorphism impacts transcription.
   - Gene expression levels of the allele B1 in developing pods, pod endocarp,
@@ -37,7 +37,7 @@ phenotype_synopsis:
   - Bloom 1 (GmB1) encodes a transmembrane transporter-like protein that not
     only controls seed coat bloom but also exerts pleiotropic effects on seed
     oil content following up-regulated oil biosynthesis in pods.
-traite:
+traits:
   - entity_name: regulation of seed growth
     entity: GO:0080113
   - entity_name: seed development