LOC56985 conclusion: Difference between revisions

From MDWiki
Jump to navigationJump to search
mNo edit summary
No edit summary
Line 2: Line 2:




The molecular function of LOC56985 is still a mystery, however a recent, yet to be published manuscript provides experimental evidence that the rat ortholog, A9Y0H8 functions as a Mn2+ dependant ADP-ribose/ CDP-alcohol pyrophosphatase (ADPRibase-Mn), an intracellular regulator of ion channel activity (Canales et al. 2008). High-throughput gene expression data showed that LOC56985 and its orthologs are predominantly expressed in immune tissues in mammals. The restriction of LOC56985 orthologs to vertebrates among animals further supports the probability of an immune specific role. ADPRibase-Mn, and hence orthologs in other vertebrates, may have a signalling role in immune cells where ADP-Ribose acts as a second messenger of stress. ADP-Ribose is an activator of transient receptor potential melastatin channel-2 (TRPM2), which participates in Ca2+ mediated cell death. Immune cells are a major site of TRPM2 expression, intracellular concentrations of ADP-Ribose increases in response to oxidative or nitrosative stress and trigger opening of TRPM2.
The molecular function of LOC56985 is still a mystery, however a recent, yet to be published manuscript provides experimental evidence that the rat ortholog, A9Y0H8 functions as a Mn2+ dependant ADP-ribose/ CDP-alcohol pyrophosphatase (ADPRibase-Mn), an intracellular regulator of ion channel activity (Canales et al. 2008). High-throughput gene expression data showed that LOC56985 and its orthologs are predominantly expressed in immune tissues in mammals. The restriction of LOC56985 orthologs to vertebrates among animals further supports the probability of an immune specific role. ADPRibase-Mn, and hence orthologs in other vertebrates, may have a signalling role in immune cells where ADP-Ribose acts as a second messenger of stress. ADP-Ribose is an activator of transient receptor potential melastatin channel-2 (TRPM2), which participates in Ca2+ mediated cell death. With the evidence that immune cells are a major site of TRPM2 expression and that the expression of LOC56985 is expressed highly in these cell types it is possible to conclude that LOC56985 is involved in the signaling pathway which leads to Ca<sup>2+</sup> mediated cell death.





Revision as of 01:55, 10 June 2008

The results obtained here show that LOC56985, though structurally similar to purple-acid phosphatases (figure 3), shows no sequence similarity to them (figure 1). The characteristic sequence motifs associated with PAPs indicate that LOC56985 shares some homology with them, however the conserved region (GNHE/D) appears common across all phosphoresterases. Vertical gene transmission appears to be the major form of evolution with the exception of Trypanosoma cruzi which may be a candidate for lateral gene transmission. Othologues have been found in α-proteobacteria and green sulfur bacteria, the protozoan T. cruzi, green algae, mosses, higher plants (tracheophytes), and vertebrates.


The molecular function of LOC56985 is still a mystery, however a recent, yet to be published manuscript provides experimental evidence that the rat ortholog, A9Y0H8 functions as a Mn2+ dependant ADP-ribose/ CDP-alcohol pyrophosphatase (ADPRibase-Mn), an intracellular regulator of ion channel activity (Canales et al. 2008). High-throughput gene expression data showed that LOC56985 and its orthologs are predominantly expressed in immune tissues in mammals. The restriction of LOC56985 orthologs to vertebrates among animals further supports the probability of an immune specific role. ADPRibase-Mn, and hence orthologs in other vertebrates, may have a signalling role in immune cells where ADP-Ribose acts as a second messenger of stress. ADP-Ribose is an activator of transient receptor potential melastatin channel-2 (TRPM2), which participates in Ca2+ mediated cell death. With the evidence that immune cells are a major site of TRPM2 expression and that the expression of LOC56985 is expressed highly in these cell types it is possible to conclude that LOC56985 is involved in the signaling pathway which leads to Ca2+ mediated cell death.


Abstract | Introduction | Results | Discussion | Conclusion | Method | References

Back To Main hypothetical protein LOC56985 page