The DUBm subunit Sgf11 is required for mRNA export and interacts with Cbp80 in Drosophila

SAGA/TFTC is a histone acetyltransferase complex that has a second enzymatic activity because of the presence of a deubiquitination module (DUBm). Drosophila DUBm consists of Sgf11, ENY2 and Nonstop proteins. We show that Sgf11 has other DUBm-independent functions. It associates with Cbp80 component of the cap-binding complex and is thereby recruited onto growing messenger ribonucleic acid (mRNA); it also interacts with the AMEX mRNA export complex and is essential for hsp70 mRNA export, as well as for general mRNA export from the nucleus. Thus, Sgf11 functions as a component of both SAGA DUBm and the mRNA biogenesis machinery.     

SAGA-mediated H2B deubiquitination controls the development of neuronal connectivity in the Drosophila visual system

Nonstop, which has previously been shown to have homology to ubiquitin proteases, is required for proper termination of axons R1-R6 in the optic lobe of the developing Drosophila eye. Herein, we establish that Nonstop actually functions as an ubiquitin protease to control the levels of ubiquitinated histone H2B in flies. We further establish that Nonstop is the functional homolog of yeast Ubp8, and can substitute for Ubp8 function in yeast cells. In yeast, Ubp8 activity requires Sgf11. We show that in Drosophila, loss of Sgf11 function causes similar photoreceptor axon-targeting defects as loss of Nonstop. Ubp8 and Sgf11 are components of the yeast SAGA complex, suggesting that Nonstop function might be mediated through the Drosophila SAGA complex. Indeed, we find that Nonstop does associate with SAGA components in flies, and mutants in other SAGA subunits display nonstop phenotypes, indicating that SAGA complex is required for accurate axon guidance in the optic lobe. Candidate genes regulated by SAGA that may be required for correct axon targeting were identified by microarray analysis of gene expression in SAGA mutants.     

Evidence that the Arabidopsis Ubiquitin C-terminal Hydrolases 1 and 2 associate with the 26S proteasome and the TREX-2 complex

The 26S proteasome interacts with a number of different proteins, while the TREX-2 complex is an important component of the mRNA export machinery. In animals and yeast, members of the Ubiquitin C-terminal Hydrolase 37 (UCH37) family are found to associate with the 26S proteasome, but this has not been demonstrated in plants. The Arabidopsis UCH1 and UCH2 are orthologous to UCH37. Here, we show that UCH1 and UCH2 interact with the 26S proteasome lid subunits. In addition, the two UCHs also interact with TREX-2 components. Our data suggest that Arabidopsis UCHs may serve as a link between the 26S proteasome lid complex and the TREX-2 complex.