USH2A SNPs

USH2A

Usherin (USH2A), a 71-exon coding gene located on human chromosome 1q41], encodes a 5202 residue multi-domain protein comprised of a signal peptide, a PDZ1 binding domain (for USH1C and WHRN), 1 laminin NT-terminal domain, 10 laminin EGF-like domains, 4 fibronectin type-III domains (for collagen IV and fibronectin), and 2 laminin G-like domains followed by 31 additional fibronectin type-III domains all tethered to the cytoplasmic exterior by a single transmembrane domain.

The usherin gene is expressed in the basement membrane of many (but not all) cell types, notably in ear interstereocilia ankles and below retinal pigment epithelial cells (Bruch's layer). When normal function is disrupted by mutations in both copies, non-vestibular sensorineural deafness and degeneration of retinal photoreceptor cells called Usher syndrome type IIA results.

Initially, only the first 21 exons were studied but later it emerged that the gene was much longer and mutations along the entire length of the protein all led to the same disease: 125, 163, 230, 268, 303, 334, 346, 352, 478, 536, 595, 644, 713, 759, 1212, 1349, 1486, 1572, 1665, 1757, 2080, 2086, 2106, 2169, 2238, 2265, 2266, 2292, 2562, 2875, 2886, 3088, 3099, 3115, 3124, 3144, 3199, 3411, 3504, 3521, 3590, 3835, 3868, 3893, 4054, 4115, 4232, 4433, 4439, 4487, 4592, 4624, 4795, 5031.

This note evaluates a tentative new SNP in USH2A with comparative genomics. The mutation occurs as a non-hotspot G-->A transition causing a seemingly innoculous S-->N amino acid change at postion 3743. This residue lies in the 22nd fibronectin domain which is split across exon 34 and 35.

This change will be shown significant (not plausibly neutral). It could represent an innovation but is more likely deleterious. The gene is single-copy so there are no prospects for compensation by a second gene. Consequently the mutation, if present on both alleles, could well result in a new form of Usher syndrome type IIA.

Background

Fibronectin FN3 domains are an ancient and exceedingly common domain in bilaterans with 2% of the human proteome containing them (400 genes), often in multiple tandem copies having a role in cell adhesion.

Pseudogene issues

Paralog issues

Known variations

Side issues

Structural significance

Functional significance

Comparative genomics

USH2A_homSap 
USH2A_panTro 
USH2A_gorGor 
USH2A_ponAbe 
USH2A_rheMac 
USH2A_calJac 
USH2A_micMur 
USH2A_otoGar 
USH2A_tupBel 
USH2A_musMus 
USH2A_ratNor 
USH2A_criGri 
USH2A_dipOrd 
USH2A_cavPor 
USH2A_speTri 
USH2A_oryCun 
USH2A_ochPri 
USH2A_vicPac 
USH2A_susScr 
USH2A_turTru 
USH2A_bosTau 
USH2A_equCab 
USH2A_felCat 
USH2A_canFam 
USH2A_myoLuc 
USH2A_eriEur 
USH2A_sorAra 
USH2A_loxAfr 
USH2A_proCap 
USH2A_echTel 
USH2A_monDom 
USH2A_macEug 
USH2A_sarHar1 
USH2A_ornAna 
USH2A_galGal 
USH2A_taeGut 
USH2A_anoCar 
USH2A_xenTro 
USH2A_tetNig 
USH2A_takRub 
USH2A_gasAcu 
USH2A_oryLat 
USH2A_danRer 
USH2A_oncMyk 
USH2A_pimPro 
USH2A_calMil 
USH2A_petMar 
USH2A_braFlo 
USH2A_strPur 
USH2A_helRob
USH2A_nemVec