CRYBA4

Beta-crystallin A4 is a protein that in humans is encoded by the CRYBA4 gene.^[5][6][7]

PDBOrtholog search: PDBe RCSB

AliasesCRYBA4, CTRCT23, MCOPCT4, CYRBA4, crystallin beta A4

External IDsOMIM: 123631; MGI: 102716; HomoloGene: 1422; GeneCards: CRYBA4; OMA:CRYBA4 - orthologs

Chr.Chromosome 22 (human)^[1]

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CRYBA4
Available structures PDB Ortholog search: PDBe RCSB List of PDB id codes 3LWK
Identifiers
Aliases	CRYBA4, CTRCT23, MCOPCT4, CYRBA4, crystallin beta A4
External IDs	OMIM: 123631; MGI: 102716; HomoloGene: 1422; GeneCards: CRYBA4; OMA:CRYBA4 - orthologs
Gene location (Human) Chr. Chromosome 22 (human)[1] Band 22q12.1 Start 26,621,963 bp[1] End 26,630,669 bp[1]
Gene location (Mouse) Chr. Chromosome 5 (mouse)[2] Band 5|5 F Start 112,394,359 bp[2] End 112,400,384 bp[2]
RNA expression pattern Bgee Human Mouse (ortholog) Top expressed in testicle gonad granulocyte right testis left testis mucosa of transverse colon spleen prefrontal cortex dorsolateral prefrontal cortex cingulate gyrus Top expressed in lens epithelium of lens conjunctival fornix ciliary body retinal pigment epithelium lip neural layer of retina granulocyte hair follicle embryo More reference expression data BioGPS More reference expression data
Gene ontology Molecular function protein binding structural constituent of eye lens molecular function Cellular component cellular component Biological process camera-type eye development visual perception lens development in camera-type eye Sources:Amigo / QuickGO
Orthologs Species Human Mouse Entrez 1413 12959 Ensembl ENSG00000196431 ENSMUSG00000066975 UniProt P53673 Q9JJV0 RefSeq (mRNA) NM_001886 NM_021351 NM_001312884 RefSeq (protein) NP_001877 NP_001877.1 NP_001299813 NP_067326 Location (UCSC) Chr 22: 26.62 – 26.63 Mb Chr 5: 112.39 – 112.4 Mb PubMed search [3] [4]
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Crystallins are separated into two classes: taxon-specific, or enzyme, and ubiquitous. The latter class constitutes the major proteins of vertebrate eye lens and maintains the transparency and refractive index of the lens. Since lens central fiber cells lose their nuclei during development, these crystallins are made and then retained throughout life, making them extremely stable proteins.

Mammalian lens crystallins are divided into alpha, beta, and gamma families; beta and gamma crystallins are also considered as a superfamily. Alpha and beta families are further divided into acidic and basic groups. Seven protein regions exist in crystallins: four homologous motifs, a connecting peptide, and N- and C-terminal extensions.

Beta-crystallins, the most heterogeneous, differ by the presence of the C-terminal extension (present in the basic group, none in the acidic group). Beta-crystallins form aggregates of different sizes and are able to self-associate to form dimers or to form heterodimers with other beta-crystallins. This gene, a beta acidic group member, is part of a gene cluster with beta-B1, beta-B2, and beta-B3.^[7]