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Paired domain
PAX5 bound to DNA ( PDB: 1mdm​).
Identifiers
SymbolPAX
Pfam PF00292
InterPro IPR001523
PROSITE PDOC00034
CATH 1pdn
SCOP2 1pdn / SCOPe / SUPFAM
CDD cd00131
Available protein structures:
Pfam   structures / ECOD  
PDB RCSB PDB; PDBe; PDBj
PDBsum structure summary

In evolutionary developmental biology, Paired box (Pax) genes are a family of genes coding for tissue specific transcription factors containing an N-terminal paired domain and usually a partial, or in the case of four family members (PAX3, PAX4, PAX6 and PAX7), [1] a complete homeodomain to the C-terminus. An octapeptide as well as a Pro-Ser-Thr-rich C terminus may also be present. [2] Pax proteins are important in early animal development for the specification of specific tissues, as well as during epimorphic limb regeneration in animals capable of such.

The paired domain was initially described in 1987 as the "paired box" in the Drosophila protein paired (prd; P06601). [3] [4]

Groups

Within the mammalian family, there are four well defined groups of Pax genes.

  • Pax group 1 (Pax 1 and 9),
  • Pax group 2 (Pax 2, 5 and 8),
  • Pax group 3 (Pax 3 and 7) and
  • Pax group 4 (Pax 4 and 6).

Two more families, Pox-neuro and Pax-α/β, exist in basal bilaterian species. [5] [6] Orthologous genes exist throughout the Metazoa, including extensive study of the ectopic expression in Drosophila using murine Pax6. [7] The two rounds of whole-genome duplications in vertebrate evolution is responsible for the creation of as many as 4 paralogs for each Pax protein. [8]

Members

  • PAX1 has been identified in mice with the development of vertebrate and embryo segmentation, and some evidence this is also true in humans. It transcribes a 440 amino acid protein from 4 exons and 1,323bps in humans. In the mouse Pax1 mutation has been linked to undulated mutant suffering from skeletal malformations. [9]
  • PAX2 has been identified with kidney and optic nerve development. It transcribes a 417 amino acid protein from 11 exons and 4,261 bps in humans. Mutation of PAX2 in humans has been associated with renal-coloboma syndrome as well as oligomeganephronia. [10]
  • PAX3 has been identified with ear, eye and facial development. It transcribes a 479 amino acid protein in humans. Mutations in it can cause Waardenburg syndrome. PAX3 is frequently expressed in melanomas [11] and contributes to tumor cell survival. [12]
  • PAX4 has been identified with pancreatic islet beta cells. It transcribes a 350 amino acid protein from 9 exons and 2,010 bps in humans. Knockout mice lacking Pax4 expression fail to develop insulin-producing cells. [13] Pax4 undergoes mutual reciprocal interaction with the transcription factor Arx to endow pancreatic endocrine cells with insulin and glucagon cells respectively [14]
  • PAX5 has been identified with neural and spermatogenesis development and b-cell differentiation. It transcribes a 391 amino acid protein from 10 exons and 3,644bps in humans.
  • PAX6 (eyeless) is the most researched and appears throughout the literature as a "master control" gene for the development of eyes and sensory organs, certain neural and epidermal tissues as well as other homologous structures, usually derived from ectodermal tissues. [15]
  • PAX7 has been possibly associated with myogenesis. It transcribes a protein of 520 amino acids from 8 exons and 2,260bps in humans. PAX7 directs postnatal renewal and propagation of myogenic satellite cells but not for the specification. [16]
  • PAX8 has been associated with thyroid specific expression. It transcribes a protein of 451 amino acids from 11 exons and 2,526bps in humans. Pax8 loss-of-function mutant mice lack follicular cells of the thyroid gland. [17]
  • PAX9 has found to be associated with a number of organ and other skeletal developments, particularly teeth. It transcribes a protein of 341 amino acids from 4 exons and 1,644bps in humans.

See also

References

  1. ^ Chi, N; Epstein, JA (January 2002). "Getting your Pax straight: Pax proteins in development and disease". Trends in Genetics. 18 (1): 41–7. doi: 10.1016/s0168-9525(01)02594-x. PMID  11750700.
  2. ^ Eberhard, D; Jiménez, G; Heavey, B; Busslinger, M (15 May 2000). "Transcriptional repression by Pax5 (BSAP) through interaction with corepressors of the Groucho family". The EMBO Journal. 19 (10): 2292–303. doi: 10.1093/emboj/19.10.2292. PMC  384353. PMID  10811620.
  3. ^ Bopp, D; Burri, M; Baumgartner, S; Frigerio, G; Noll, M (26 December 1986). "Conservation of a large protein domain in the segmentation gene paired and in functionally related genes of Drosophila". Cell. 47 (6): 1033–40. doi: 10.1016/0092-8674(86)90818-4. PMID  2877747. S2CID  21943167.
  4. ^ Baumgartner, S; Bopp, D; Burri, M; Noll, M (December 1987). "Structure of two genes at the gooseberry locus related to the paired gene and their spatial expression during Drosophila embryogenesis". Genes & Development. 1 (10): 1247–67. doi: 10.1101/gad.1.10.1247. PMID  3123319.
  5. ^ Navet, S; Buresi, A; Baratte, S; Andouche, A; Bonnaud-Ponticelli, L; Bassaglia, Y (2017). "The Pax gene family: Highlights from cephalopods". PLOS ONE. 12 (3): e0172719. Bibcode: 2017PLoSO..1272719N. doi: 10.1371/journal.pone.0172719. PMC  5333810. PMID  28253300.
  6. ^ Franke, FA; Schumann, I; Hering, L; Mayer, G (2015). "Phylogenetic analysis and expression patterns of Pax genes in the onychophoran Euperipatoides rowelli reveal a novel bilaterian Pax subfamily". Evolution & Development. 17 (1): 3–20. doi: 10.1111/ede.12110. PMID  25627710. S2CID  205095304.
  7. ^ Gehring WJ, Ikeo K (September 1999). "Pax 6: mastering eye morphogenesis and eye evolution". Trends in Genetics. 15 (9): 371–7. doi: 10.1016/S0168-9525(99)01776-X. PMID  10461206.
  8. ^ Ravi V, Bhatia S, Gautier P, Loosli F, Tay BH, Tay A, Murdoch E, Coutinho P, van Heyningen V, Brenner S, Venkatesh B, Kleinjan DA (2013). "Sequencing of Pax6 loci from the elephant shark reveals a family of Pax6 genes in vertebrate genomes, forged by ancient duplications and divergences". PLOS Genetics. 9 (1): e1003177. doi: 10.1371/journal.pgen.1003177. PMC  3554528. PMID  23359656.
  9. ^ Balling et al., 1988
  10. ^ Online Mendelian Inheritance in Man (OMIM): 167409
  11. ^ Medic S, Ziman M (April 2010). Soyer, H. Peter (ed.). "PAX3 Expression in Normal Skin Melanocytes and Melanocytic Lesions (Naevi and Melanomas)". PLOS ONE. 5 (4): e9977. Bibcode: 2010PLoSO...5.9977M. doi: 10.1371/journal.pone.0009977. PMC  2858648. PMID  20421967.
  12. ^ Scholl FA, Kamarashev J, Murmann OV, Geertsen R, Dummer R, Schäfer BW (Feb 2001). "PAX3 is expressed in human melanomas and contributes to tumor cell survival". Cancer Res. 61 (3): 823–6. PMID  11221862.
  13. ^ Sosa-Pineda et al., 1997
  14. ^ Collombat et al, 2003
  15. ^ Walter and Gruss, 1991
  16. ^ Oustanina, S; et al. (2004). "PAX7 directs postnatal renewal and propagation of myogenic satellite cells but not their specification". The EMBO Journal. 23 (16): 3430–3439. doi: 10.1038/sj.emboj.7600346. PMC  514519. PMID  15282552.
  17. ^ Mansouri et al.,1998

[1]==Further reading==

External links

This article incorporates text from the public domain Pfam and InterPro: IPR001523
  1. ^ Mansouri A et al. 1996
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