PAX6
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Paired box protein Pax-6 also known as aniridia type II protein (AN2) or oculorhombin is a protein that in humans is encoded by the PAX6 gene.[1] Pax6 is a transcription factor present during embryonic development. The encoded protein contains two different binding sites that are known to bind DNA and function as regulators of gene transcription. It is a key regulatory gene of eye and brain development. Within the brain, the protein is involved in development of the specialized cells that process smell. As a transcription factor, Pax6 activates and/or deactivates gene expression patterns to ensure for proper development of the tissue. Mutations of the Pax6 gene are known to cause various disorders of the eyes. Two common disorders associated with a mutation are: aniridia, the absence of the iris, and Peter’s anomaly, thinning and clouding of the cornea. Scientists have created a “tae” model using mice during which time the mouse does not express Pax6. The "knockout” model is eyeless or has very underdeveloped eyes further indicating Pax6 is required for proper eye development.[2]
Contents
Function
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PAX6 is a member of the Pax gene family. It acts as a "master control" gene for the development of eyes and other sensory organs, certain neural and epidermal tissues as well as other homologous structures, usually derived from ectodermal tissues.[citation needed] However it has been recognized that a suite of genes is necessary for eye development, and therefore the term of "master control" gene may be inaccurate.[3] This transcription factor is most noted for its use in the interspecifically induced expression of ectopic eyes and is of medical importance because heterozygous mutants produce a wide spectrum of ocular defects such as Aniridia in humans.[4]
Pax6 serves as a regulator in the coordination and pattern formation required for differentiation and proliferation to successfully take place, ensuring that the processes of neurogenesis and oculogenesis are carried out successfully. As a transcription factor, Pax6 acts at the molecular level in the signaling and formation of the central nervous system. The characteristic paired DNA binding domain of Pax6 utilizes two DNA-binding domains, the paired domain (PD), and the paired-type homeodomain (HD). These domains function separately via utilization by Pax6 to carry out molecular signaling that regulates specific functions of Pax6. An example of this lies in HD’s regulatory involvement in the formation of the lens and retina throughout oculogenesis contrasted by the molecular mechanisms of control exhibited on the patterns of neurogenesis in brain development by PD. The HD and PD domains act in close coordination, giving Pax6 its multifunctional nature in directing molecular signaling in formation of the CNS. Although many functions of Pax6 are known, the molecular mechanisms of these functions remain largely unresolved.[5]
Species distribution
PAX6 protein function is highly conserved across bilaterian species. For instance, mouse PAX6 can trigger eye development in Drosophila melanogaster. Additionally, mouse and human PAX6 have identical amino acid sequences.[6]
Genomic organisation of the PAX6 locus varies considerably among species, including the number and distribution of exons, cis-regulatory elements, and transcription start sites.[citation needed] The first work on genomic organisation was performed in quail, but the picture of the mouse locus is the most complete to date. This consists of 2 confirmed promoters (P0 and P1), 16 exons, and at least 6 enhancers. The 16 confirmed exons are numbered 0 through 13 with the additions of exon α located between exons 4 and 5, and the alternatively spliced exon 5a. Each promoter is associated with its own proximal exon (exon 0 for P0, exon 1 for P1) resulting in transcripts which are alternatively spliced in the 5’ un-translated region.
Of the four Drosophila Pax6 orthologues, it is thought that the eyeless (ey) and twin of eyeless (toy) gene products share functional homology with the vertebrate canonical Pax6 isoform, while the eyegone (eyg) and twin of eyegone (toe) gene products share functional homology with the vertebrate Pax6(5a) isoform. Eyeless and eyegone were named for their respective mutant phenotypes.
Isoforms
The vertebrate PAX6 locus encodes at least three different protein isoforms, these being the canonical PAX6, PAX6(5a), and PAX6(ΔPD). The canonical PAX6 protein contains an N-terminal paired domain, connected by a linker region to a paired-type homeodomain, and a proline/serine/threonine (P/S/T)-rich C-terminal domain. The paired domain and paired-type homeodomain each have DNA binding activities, while the P/S/T-rich domain possesses a transactivation function. PAX6(5a) is a product of the alternatively spliced exon 5a resulting in a 14 residue insertion in the paired domain which alters the specificity of this DNA binding activity. The nucleotide sequence corresponding to the linker region encodes a set of three alternative translation start codons from which the third PAX6 isoform originates. Collectively known as the PAX6(ΔPD) or pairedless isoforms, these three gene products all lack a paired domain. The pairedless proteins possess molecular weights of 43, 33, or 32kDa, depending on the particular start codon used. PAX6 transactivation function is attributed to the variable length C-terminal P/S/T-rich domain which stretches to 153 residues in human and mouse proteins.
References
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- ↑ "Genes and Mapped Phenotypes." National Center for Biotechnology Information. U.S. Pax6 is a gene in prenatal development referred to as a transcription factor (activator and repressor). This means that Pax6 is a protein that binds to specific DNA sequences and activates or represses the genetic information delivered to mRNA. Pax6 is controlled by the signaling molecules Wnt1 and FGF8 and regulates eye, brain, and pancreas development. This gene is involved in patterning the midbrain. Nonsense mutations of Pax6 can lead to a condition called Aniridia which is associated with brain, olfactory, and pancreatic abnormalities. A study showed that progression of Aniridia can be stopped by application of a topical drug associated with this condition. National Library of Medicine, 12 Apr. 2014. Web. 14 Apr. 2014. "PAX6." Genetics Home Reference. U.S. National Library of Medicine, 7 Apr. 2014. Web. 14 Apr. 2014. "PAX6 in Sensory Development." Human Molecular Genetics. Oxford Journals, 15 May 2002. Web. 14 Apr. 2014. Shengxiu, Li, Dan Goldowitz, and Douglas J. Swanson. "The Requirement of Pax6 for Postnatal Eye Development: Evidence from Experimental Mouse Chimeras." Investigative Ophthalmology & Visual Science, 1 July 2007. Web. 14 Apr. 2014. Xie, Q., and D. Ung. "Gene Regulation by PAX6: Structural-functional Correlations of Missense Mutants and Transcriptional Control of Trpm3/miR-204." National Center for Biotechnology Information. U.S. National Library of Medicine, 6 Mar. 2014. Web. 14 Apr. 2014.
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See also
Further reading
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External links
- PAX6 protein at the US National Library of Medicine Medical Subject Headings (MeSH)
- GeneReviews/NCBI/NIH/UW entry on Anophthalmia / Microphthalmia Overview
- GeneReviews/NCBI/NIH/UW entry on Aniridia
- OMIM entries on Aniridia
- Gene Expression Patterns from the Allen Brain Atlases
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