This work examines the role of the Arabidopsis thaliana RING E3 ligase, HISTONE MONOUBIQUITINATION1 (HUB1) in disease resistance. Loss-of-function alleles of HUB1 show increased susceptibility to the necrotrophic fungal pathogens Botrytis cinerea and Alternaria brassicicola, whereas HUB1 overexpression conferred resistance to B. cinerea. By contrast, responses to the bacterial pathogen Pseudomonas syringae are unaltered in hub1 plants. hub1 mutants have thinner cell walls but increased callose around an infection site. HUB1 acts independently of jasmonate, but ethylene (ET) responses and salicylate modulate the resistance of hub1 mutants to necrotrophic fungi. The ET response factor ETHYLENE INSENSITIVE2 is epistatic to HUB1 for A. brassicicola resistance but additive to HUB1 for B. cinerea resistance. HUB1 interacts with MED21, a subunit of the Arabidopsis Mediator, a conserved complex that regulates RNA polymerase II. RNA interference lines with reduced MED21 expression are highly susceptible to A. brassicicola and B. cinerea, whereas T-DNA insertion alleles are embryonic lethal, suggesting an essential role for MED21. However, HUB1-mediated histone H2B modification is independent of histone H3 and DNA methylation. In sum, histone H2B monoubiquitination is an important chromatin modification with regulatory roles in plant defense against necrotrophic fungi most likely through modulation of gene expression.
Amyloid-like aggregation or fibrillization of alpha-synuclein (alpha-Syn) and the filamentous deposits in Lewy bodies are believed to be closely associated with several fatal neurodegenerative disorders, including Parkinson's disease and Alzheimer's disease. Here, we report the importance of a nine-residue peptide motif, (66)VGGAVVTGV(74), in the fibrillization and cytotoxicity of human alpha-Syn. Mutagenesis combined with thioflavin T fluorescence detection, atomic force microscopic imaging, and cytotoxicity assays reveal that deletion of this sequence completely eliminates alpha-Syn fibrillization and cell toxicity. However, deletion of the (71)VTGV(74) sequence decreases the fibrillization rate while the cytotoxicity remains unchanged. Incorporation of charged residues within this region slows aggregation and even impedes filament formation. In addition, substitution of Gly68 with Ala or C-terminal truncations of alpha-Syn accelerate the fibrillization processes. Circular dichroism studies suggest that beta-sheet formation is often concomitant with filament formation. Thus, this segment, namely, the GAV motif, is responsible for aggregation or fibrillization of alpha-Syn and perhaps other amyloidogenic proteins. The oligomers formed during fibrillogenesis might be associated with the cytotoxicities of various alpha-Syn species. This finding may provide further insight into the understanding of the molecular mechanism underlying the fibrillogenesis implicated in neurodegeneration as well as aid in drug design and development of transgenic models.
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