| DB ID | MyCo_3658 |
| Title | Host cell wall composition and localized microenvironment implicated in resistance to basal stem degradation by lettuce drop (Sclerotinia minor) |
| Year | 2024 |
| PMID | 39069632 |
| Fungal Diseases involved | Sclerotinia minor infection |
| Associated Medical Condition | None |
| Genus | Sclerotinia |
| Species | minor |
| Organism | Sclerotinia minor |
| Ethical Statement | Not applicable. |
| Site of Infection | None |
| Opportunistic invasive | None |
| Sample type | Plant extracts |
| Sample source | Extracted Tissue |
| Host Group | Plant |
| Host Common name | Lettuce |
| Host Scientific name | Lactuca sativa |
| Biomarker Name | Guaiacyl |
| Biomarker Full Name | Guaiacyl |
| Biomarker Type | Diagnostic |
| Biomolecule | Metabolite |
| Geographical Location | USA |
| Cohort | Six accessions representing different horticultural types of lettuce were used for the study: Eruption (Latin type), Reine des Glaces (Batavia subtype of crisphead lettuce), Salinas (iceberg subtype of crisphead lettuce), Da Ye Wo Sun (stem type), PI 251246 (primitive oil-seed type), and 11-G99 (L. serriola, the wild progenitor of cultivated let tuce). |
| Cohort No. | None |
| Age Group | None |
| P Value | None |
| Sensitivity | None |
| Specificity | None |
| Positive Predictive Value | None |
| MIC | None |
| Fold Change | None |
| Pathway | None |
| Disease Introduction Mechanism | None |
| Technique | Gas chromatography |
| Analysis Method | Gas Chromatography−Mass Spectrometry (GC-MS) Analysis |
| ELISA kits | None |
| Assay Data | None |
| Validation Techniques used | GC-MS analysis, qRT-PCR |
| Up Regulation Down Regulation | Positive |
| Sequence Data | None |
| External Link | None |
