Disorder of methionine catabolism
diseaseOn this page
Also known as hypermethioninemiainborn error of methionine catabolic processinborn methionine catabolic process disorderrare inborn error of methionine catabolic process
Summary
Disorder of methionine catabolism (MONDO:0000351) is a disease. A subtype of inborn disorder of amino acid metabolism — broader associated-gene and molecular evidence is on the parent page (see Disease family below).
Clinical features
No curated clinical features (Orphanet) for this disease.
Identifiers
Disease identifiers
| Field | Value |
|---|---|
| Canonical name | disorder of methionine catabolism |
| Mondo ID | MONDO:0000351 |
| DOID | DOID:0050544 |
| SNOMED CT | 43123004 |
| UMLS | C4048705 |
| MedGen | 887708 |
| GARD | 0022754 |
| Is cancer (heuristic) | no |
Also known as: hypermethioninemia · inborn error of methionine catabolic process · inborn methionine catabolic process disorder · rare inborn error of methionine catabolic process
Data availability: 1 HPO phenotype.
Disease family
This is a subtype of inborn disorder of amino acid metabolism. Genetic, therapeutic, and trial evidence is largely curated at the broader-term level — see the parent page for the associated-gene cohort and molecular evidence.
Classification path: disease › human disease › disease by etiologic mechanism › disease of genetic or genomic mechanism › hereditary disease › inborn errors of metabolism › inborn disorder of amino acid and other organic acid metabolism › inborn disorder of amino acid metabolism › disorder of methionine catabolism
Related subtypes (32): inborn serine deficiency, cerebral creatine deficiency syndrome, inborn organic aciduria, gamma-amino butyric acid metabolism disorder, homocystinuria, urea cycle disorder, adenylosuccinate lyase deficiency, systemic primary carnitine deficiency disease, cystathioninuria, hyperlysinemia, Brunner syndrome, glycine encephalopathy, aminoacylase 1 deficiency, adenine phosphoribosyltransferase deficiency, hyperphenylalaninemia due to tetrahydrobiopterin deficiency, inborn disorder of tryptophan metabolism, inborn disorder of proline metabolism, inborn disorder of ornithine metabolism, inborn disorder of amino acid transport, inborn disorder of histidine metabolism, inborn disorder of phenylalanine and tyrosine metabolism, inborn disorder of branched-chain amino acid metabolism, arakawa syndrome 2, 2-methylacetoacetyl CoA thiolase deficiency, albinism, hyperphenylalaninemia due to DNAJC12 deficiency, inborn disorder of the metabolism of sulfur-containing amino acids and hydrogen sulfide, inborn disorder of glycine and serine metabolism, inborn disorder of ornithine, proline and hydroxyproline metabolism, inborn disorder of glutamate/glutamine and aspartate/asparagine metabolism, hyperglycinemia, transient neonatal, tetrahydrobiopterin (BH4)-deficient hyperphenylalaninemia
Subtypes (3): glycine N-methyltransferase deficiency, hypermethioninemia with deficiency of S-adenosylhomocysteine hydrolase, adenosine kinase deficiency
Genetics & variants
GWAS landscape
No GWAS associations recorded — common-variant (GWAS) studies don’t cover this disease (typical for Mendelian / rare diseases). See the curated gene cohort and Mendelian overlap below.
Variant details and genetic-evidence tiers
No tiered GWAS variants or ClinVar records for this disease.
Genes & proteins
No associated-gene cohort resolved for this disease. Atlas builds the molecular and therapeutic sections — associated genes, protein families, druggability, pathways, interactions, and drug associations — by aggregating over a disease’s associated genes (resolved via GWAS / GenCC / ClinVar / CIViC), and none resolved here. This is expected for antibody-mediated, autoimmune, or otherwise non-gene-defined conditions; the curated evidence for this disease is its clinical features, GWAS susceptibility, and clinical trials (above).
Function
No pathway enrichment — requires an associated-gene cohort.
Therapeutics
No druggable-target or therapeutic data for this disease’s cohort.
Clinical trials & evidence
Clinical trials
Clinical trials: 0.
Related Atlas pages
No linked Atlas pages yet — the cross-entity mesh grows as the corpus expands.