H
IPR036820

Archease domain superfamily

InterPro entry
Short nameArchease_dom_sf
Overlapping entries
 
Archease domain (IPR023572)
Archease (IPR002804)
Archease, archaea (IPR022952)

Description

The archease superfamily of proteins are represented in all three domains of life. Archease genes are generally located adjacent to genes encoding proteins involved in DNA or RNA processing and therefore have been predicted to be modulators or chaperones involved in DNA or RNA metabolism. Many of the roles of archeases remain to be established experimentally.

The function of one of the archeases from the hyperthermophile Pyrococcus abyssi has been determined. The gene encoding the archease (PAB1946) is located in a bicistronic operon immediately upstream from a second open reading frame (PAB1947), which encodes a tRNA m5C methyltransferase. The methyl transferase catalyses m5C formation at several cytosine's within tRNAs with preference for C49; the specificity of the methyltransferase reaction being increased by the archease. The archease protects the tRNA (cytosine-5-)-methyltransferase PAB1947 against aggregation and increases its specificity. The archease exists in monomeric and oligomeric states, with only the oligomeric forms able to bind the methyltransferase
[2]
.

The function of this family of archeases as chaperones is supported by structural analysis of
O27635
from Methanobacterium thermoautotrophicum, which shows homology to heat shock protein 33, which is a chaperone protein that inhibits the aggregation of partially denatured proteins
[1]
.

Structurally, the archeases are composed of a single three layer β-α-β sandwich domain similar to those found in other chaperones.

References

1.An NMR approach to structural proteomics. Yee A, Chang X, Pineda-Lucena A, Wu B, Semesi A, Le B, Ramelot T, Lee GM, Bhattacharyya S, Gutierrez P, Denisov A, Lee CH, Cort JR, Kozlov G, Liao J, Finak G, Chen L, Wishart D, Lee W, McIntosh LP, Gehring K, Kennedy MA, Edwards AM, Arrowsmith CH. Proc. Natl. Acad. Sci. U.S.A. 99, 1825-30, (2002). View articlePMID: 11854485

2.Archease from Pyrococcus abyssi improves substrate specificity and solubility of a tRNA m5C methyltransferase. Auxilien S, El Khadali F, Rasmussen A, Douthwaite S, Grosjean H. J. Biol. Chem. 282, 18711-21, (2007). View articlePMID: 17470432

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