added experiment layout figure

26e0f57f · MWA_AG_Fernie_MPIMP · cf3f5859 · 26e0f57f · 26e0f57f · 26e0f57f
Commit 26e0f57f authored 2 years ago by MWA_AG_Fernie_MPIMP
--- a/220523_cmQTL_val1_layout.jpg
+++ b/220523_cmQTL_val1_layout.jpg
--- a/Example_modified_v1.png
+++ b/Example_modified_v1.png
--- a/README.md
+++ b/README.md
@@ -5,7 +5,12 @@ Raw data of "PANTOTHENATE KINASE4, LOSS OF GDU2, and TRANSPOSON PROTEIN1 affect
 The dataset consists primarily of metabolomics data from leaves and fruits of tomato plants grown across different watering regimes.
 The investigation aims to validate previously identified putative candidate genes relevant for the canalization of tomato fruit metabolites and therefore investigates different types of metabolic variation.

-![Figure 1 from Wijesingha et al. 2023](https://git.nfdi4plants.org/micwij/cmqtl_val1_arc/-/blob/main/Figure_1.pdf?raw=true "Figure 1 from Wijesingha et al. 2023")
+![Figure 1 from Wijesingha et al. 2023](https://git.nfdi4plants.org/micwij/cmqtl_val1_arc/-/blob/main/Example_modified_v1.png?raw=true "Figure 1 from Wijesingha et al. 2023")
+
+## Experiment layout
+
+Plants from MoneyMaker wild type plants and three CRISPR/Cas9-mediated genome edited mutant plants were grown under 40%, 60%, 80% and 100% of the standard optimal irrigation with six replicates per line and condition.
+![Experiment layout](https://git.nfdi4plants.org/micwij/cmqtl_val1_arc/-/blob/main/220523_cmQTL_val1_layout.jpg?raw=true "Experiment layout")

 ## Citation paper
 Wijesingha Ahchige, M., Fernie, A. R., & Alseekh, S. (2023). PANTOTHENATE KINASE4, LOSS OF GDU2, and TRANSPOSON PROTEIN1 affect the canalization of tomato fruit metabolism. Plant Physiol, 192(1), 442-468. doi:10.1093/plphys/kiad093