A novel approach for the synthesis of cobalt-doped ZnO single-crystalline nanorods based on a wet
chemical reaction has been developed. The as-doped ZnO nanorods have a length between 0.3 and
0.6 µm
and a diameter between 30 and 60 nm. Structure and composition analyses indicate that the
cobalt is incorporated into the ZnO lattice, forming a solid solution without any precipitation.
Magnetic property measurements reveal that there is room-temperature ferromagnetism in the
Zn1−xCoxO nanorods
with Tc
higher than 300 K.
Zymomonas mobilis metabolizes sugar through the Entner-Doudoroff pathway with less ATP generated for lower biomass accumulation and more substrate to product formation with improved yield, since ATP is dissipated predominately through growth for intracellular energy homeostasis, making it a platform to be engineered as microbial cell factories, particularly for producing bulk commodities with major cost from feedstock consumption. ZM401, a self-flocculating mutant, presents advantages for production including cost-effective biomass recovery through gravity sedimentation, self-immobilization within bioreactors for high cell density to improve productivity and enhanced tolerance to environmental stresses for high product titers, but molecular mechanism underlying this phenotype is largely unknown. In this work, we sequenced and assembled the genome of ZM401 to explore genetic basis for the self-flocculation of the bacterial cells through comparative genomic and transcriptomic analyses, molecular docking simulations for enzymes encoded by functional genes and their substrates/activators, and experimental validations. Our results demonstrated that the single nucleotide deletion in ZMO1082 disrupted its stop codon for the putative gene being fused with ZMO1083, which created an exciting gene encoding the subunit A of the bacterial cellulose synthase with unique function for synthesizing cellulose microfibrils to flocculate the bacterial cells, and the single nucleotide mutation in ZMO1055 compromised the function of bifunctional diguanylate cyclase/phosphodiesterase encoded by the gene on the degradation of c-di-GMP for its intracellular accumulation to activate the cellulose biosynthesis. These discoveries are significant not only for optimizing the self-flocculation of Z. mobilis, but also engineering other bacteria with the self-flocculating phenotype for robust production.
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