rhizomelic dysplasia, Ain-Naz type

Summary

rhizomelic dysplasia, Ain-Naz type (MONDO:0859203) is a disease with 1 cohort gene.

At a glance

• Cohort genes: 1
• ClinVar variants: 2

Clinical features

No curated clinical features (Orphanet) for this disease.

Disease family

Classification path: disease › human disease › disease by etiologic mechanism › disease of genetic or genomic mechanism › hereditary disease › skeletal dysplasia › rhizomelic dysplasia, Ain-Naz type

Related subtypes (118): osteochondrodysplasia, diaphyseal medullary stenosis-bone malignancy syndrome, fibular aplasia-ectrodactyly syndrome, cerebrocostomandibular syndrome, cleidorhizomelic syndrome, dyschondrosteosis-nephritis syndrome, dysplasia epiphysealis hemimelica, carpotarsal osteochondromatosis, Camurati-Engelmann disease, genochondromatosis, autosomal dominant osteosclerosis, Worth type, coxopodopatellar syndrome, Lenz-Majewski hyperostotic dwarfism, delayed membranous cranial ossification, metaphyseal dysplasia-maxillary hypoplasia-brachydacty syndrome, oculodentodigital dysplasia, Ollier disease, osteoglophonic dysplasia, parietal foramina with cleidocranial dysplasia, chondromalacia patellae, Currarino triad, Proteus syndrome, brachydactyly-elbow wrist dysplasia syndrome, tricho-dento-osseous syndrome, bird headed-dwarfism, Montreal type, Yunis-Varon syndrome, split hand-foot malformation 1 with sensorineural hearing loss, ghosal hematodiaphyseal dysplasia, hyperostosis corticalis generalisata, Larsen-like syndrome, B3GAT3 type, mesomelic dwarfism-cleft palate-camptodactyly syndrome, metaphyseal acroscyphodysplasia, metaphyseal dysostosis-intellectual disability-conductive deafness syndrome, familial osteodysplasia, Anderson type, pseudodiastrophic dysplasia, rhizomelic syndrome, Urbach type, Richieri Costa-Pereira syndrome, craniometadiaphyseal dysplasia, wormian bone type, Weaver syndrome, SHOX-related short stature, craniofrontonasal syndrome, Eiken syndrome, 2q37 microdeletion syndrome, skeletal dysplasia-epilepsy-short stature syndrome, rhizomelic dysplasia, Patterson-Lowry type, pelvic dysplasia-arthrogryposis of lower limbs syndrome, Marshall-Smith syndrome, baby rattle pelvis dysplasia, metaphyseal dysplasia, Braun-Tinschert type, genitopatellar syndrome, osteofibrous dysplasia, Larsen-like osseous dysplasia-short stature syndrome, pancreatic insufficiency-anemia-hyperostosis syndrome, microcephalic primordial dwarfism due to ZNF335 deficiency, Hartsfield-Bixler-Demyer syndrome, colobomatous microphthalmia-rhizomelic dysplasia syndrome, Tatton-Brown-Rahman overgrowth syndrome, tall stature-scoliosis-macrodactyly of the great toes syndrome, Catel-Manzke syndrome, cognitive impairment - coarse facies - heart defects - obesity - pulmonary involvement - short stature - skeletal dysplasia syndrome, skeletal overgrowth-craniofacial dysmorphism-hyperelastic skin-white matter lesions syndrome, complex lethal osteochondrodysplasia, amniotic band syndrome, metaphyseal anadysplasia, syndromic craniosynostosis, thin ribs-tubular bones-dysmorphism syndrome, dysplasia of head of femur, Meyer type, epimetaphyseal skeletal dysplasia, melorheostosis with osteopoikilosis, Cole-Carpenter syndrome, spondylometaphyseal dysplasia, omodysplasia, Bruck syndrome, osteopetrosis, congenital absence of upper arm and forearm with hand present, congenital absence of thigh and lower leg with foot present, congenital absence of both forearm and hand, congenital absence of both lower leg and foot, acheiria, apodia, chondroectodermal dysplasia with night blindness, TRPV4-related bone disorder, adactyly of foot, short stature-advanced bone age-early-onset osteoarthritis syndrome, McCune-Albright syndrome, parietal foramina, Sotos syndrome, dysspondyloenchondromatosis, autosomal recessive cutis laxa type 2, FGFR3-related chondrodysplasia, filamin-related bone disorder, short rib dysplasia, spondylodysplastic dysplasia, acromelic dysplasia, bent bone dysplasia, chondrodysplasia punctata, primary osteolysis, non-syndromic limb reduction defect, Robinow syndrome, synpolydactyly, acrocoxomesomelic dysplasia, bone dysplasia Moore type, bone dysplasia corpus callosum agenesis, type 2 collagenopathy, LRP5-related primary osteoporosis, SLC26A2-related skeletal dysplasia, COMP-related skeletal dysplasia, primordial dwarfism and slender bone disorder, polydactyly-syndactyly-triphalangism, lysosomal storage disease with skeletal involvement, abnormal mineralization disorder, calvarial doughnut lesions with bone fragility and spondylometaphyseal dysplasia, de la Chapelle dysplasia, mesomelic dysplasia-digital anomalies-intellectual disability syndrome, proximal femoral focal deficiency, craniotubular dysplasia, Ikegawa type, TRIP11-related skeletal dysplasia, FAM111A-related skeletal dysplasia

Genes & proteins

Mendelian disease overlap and somatic drivers

GenCC: 2 · Orphanet: 0 · OMIM-shared: 0 · Dual-evidence (GWAS+Mendelian): 0

GenCC gene–disease validity (cohort genes)

the Disease column is the GenCC-asserted condition — a cohort gene’s strongest validity may be for a related predisposition syndrome.

Cohort genes → proteins

1 cohort genes, 1 distinct canonical proteins.

Evidence partition

Cohort genes (full)

Protein-family classification

Druggable: 1 · Difficult: 0 · Unknown: 0 · Druggable fraction: 1.0

Family distribution

Cohort families vs a genome-wide background (hypergeometric, BH-FDR; fold = observed/expected). Counts kept; sorted by enrichment, so the catch-all Other/Unknown bucket no longer leads.

Per-gene assignment

Expression context

Cohort genes with no expression data: 0.

1 cohort gene are a single-cell marker in ≥1 SCXA experiment.

Breadth distribution (Bgee present_calls)

Top tissues across cohort

Per-gene tissue summary (top 30)

Protein interactions among cohort

Intra-cohort edges: 0.

Hub genes (top 10 by interactor count)

Structural data

PDB: 1 · AlphaFold-only: 0 · No structure: 0

Cohort genes with PDB structures (top 30)

Function

Pathway analysis

Distinct Reactome pathways touched by cohort: 1. Enrichment computed across 1 evidence-associated genes (1 with Reactome annotation).

Pathways by enrichment

Over-representation of cohort genes vs the genome-wide background (hypergeometric test, Benjamini-Hochberg FDR; fold = observed/expected over 1 annotated cohort genes). Counts and members are kept as ground-truth; sorted by enrichment.

GO biological processes by enrichment

Over-representation of cohort genes vs the genome-wide background (hypergeometric test, Benjamini-Hochberg FDR; fold = observed/expected over 1 annotated cohort genes). Counts and members are kept as ground-truth; sorted by enrichment.

Therapeutics

Drug target analysis

Approved (phase 4): 0 · Phase ≥3: 0 · Phased (≥1): 0 · Undrugged: 1

Druggability breadth: 0 of 1 evidence-associated genes (0%) have a ChEMBL target (buckets above are over the deeply-mined display cohort).

Top cohort targets by molecule count

Bioactivity and enzyme data

Enzyme cohort genes (≥1 EC): 1.

Cohort enzymes (BRENDA EC)

Pharmacogenomics

Cohort genes with a PharmGKB record: 1; with CPIC/DPWG dosing guidelines: 0.

No cohort gene has a CPIC/DPWG genotype-guided dosing guideline (PharmGKB).

Chemical tractability of cohort targets

0 approved/phased compounds have measured bioactivity against a cohort gene (and aren’t yet in disease-level trials). This is a research / tractability signal, NOT a therapeutic recommendation — a bioactivity row often reflects off-target or screening binding (e.g. promiscuous kinase inhibitors against a cohort kinase), implying no disease mechanism.

Druggability pyramid

Cohort genes binned by druggability tier (high → low):

Undrugged target profiles

1 cohort genes are undrugged. Ranked by ‘starting-point quality’ (assay depth + drugged-partner adjacency).

Related Atlas pages

• Cohort genes: GNPNAT1