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Conservation and Divergence in the Asexual Sporulation Gene Regulatory Network Across a Genus of Filamentous Fungi

biorxiv. 2018; 
Ming-Yueh Wu, Matthew E. Mead, Mi-Kyung Lee, Sun-Chang Kim, Antonis Rokas, Jae-Hyuk Yu
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Catalog Antibody Cell lysates were sonicated to shear DNA to 300-500 bp and were immunoprecipitated with the rabbit anti-WetA polyclonal antibodies (GenScript, NJ). Two experiments were performed, each with biological triplicates. Get A Quote

摘要

Asexual sporulation is fundamental to the ecology and lifestyle of filamentous fungi and can facilitate both plant and human infection. In Aspergillus, the production of asexual spores is primarily governed by the BrlA→AbaA→WetA regulatory cascade. The final step in this cascade is controlled by the WetA protein and not only governs the morphological differentiation of spores but also the production and deposition of diverse metabolites into spores. While WetA is conserved across the genus Aspergillus, the structure and degree of conservation of the wetA gene regulatory network (GRN) remains largely unknown. We carried out comparative transcriptome analyses between wetA null mutant and wild type asexu... More

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