A combination system of micro-pore ceramic filtration and UV radiation was built up for ballast water treatment. Two treatment methods, single micro-pore ceramic filtration and micro-pore filtration and UV radiation, were studied in the research, respectively. Chlorella removal rates and total oceanic bacteria inactivation rates were measured at different flow rates (0.6 ~ 4.7 m
MADS-box gene family is a key regulatory factor family, which controls vegetative growth, reproductive development and can be used to mediate abiotic stresses in many plants. However, Knowledge of this gene family is still limited in Setaria italica. In the present study, a total of 70 SitMADS genes were identified and renamed on the basis of the chromosomal distribution of the SitMADS genes. According to gene structure, conserved motif and phylogenetic feature, the 70 SitMADSs were classified into type-Ⅰ (Mα, Mβ, Mγ) and type-Ⅱ (MIKCC and MIKC*). All of the SitMADS genes were randomly distributed on nine chromosomes, and five tandem duplicated genes and 12 pairs of duplicated gene segments were detected in the SitMADS genes family. Synteny analysis provided a high homology between SitMADS genes and OsMADS genes. A cis-element analysis inferred that SitMADS genes, except for SitMADS23, possessed at least one drought stress response and ABA(Abscisic Acid)-induced response cis-element. Real-time quantitative PCR analysis was used to detect the expression patterns of SitMADS genes in various tissues and demonstrated that the genes responded drought stress and ABA treatments. SitMADS23, SitMADS42, SitMADS51, SitMADS52, SitMADS58 and SitMADS64 were highly expressed in PEG(Polyethylene glycol) and drought stress, which suggested its important role in drought stress response. SitMADS51, SitMADS63 and SitMADS64 seemed to be responsive to ABA hormone signaling, suggesting that they were involved in the ABA signaling pathways. This paper provided a deep insight into the evolutionary characteristics of SitMADS genes. The results provide comprehensive information for further analyses of the molecular functions of the MADS-box gene family in Setaria italica.
The sulfonylurea herbicide nicosulfuron is efficient, harmless and selective at low doses and has been widely used in maize cultivation. In this study, a pair of corn sister lines, HK301 (nicosulfuron-tolerence, NT) and HK320 (nicosulfuron-sensitive, NS), was chosen to study the effect of nicosulfuron on plant growth and sugar metabolism in sweet maize (Zea mays L.) seedlings. All the experimental samples were subjected to treatment with water or 80 mg kg–1 of nicosulfuron when the sweet maize seedlings grew to the four-leaf stage. Nicosulfuron significantly inhibited the growth of NS line. The content of sucrose and the activities of sucrose phosphate synthase and sucrose synthase in the two inbred lines increased differentially under nicosulfuron stress compared with the respective control treatment. After nicosulfuron treatment, the activities of hexokinase and 6-phosphofructokinase and the contents of pyruvic acid and citric acid in NS line decreased significantly compared with those of NT line, while the content of sucrose and activities of sucrose phosphate synthase and sucrose synthase increased significantly. The disruption of sugar metabolism in NS line led to a lower supply of energy for growth. This study showed that the glycolysis pathway and the tricarboxylic acid cycle were enhanced in nicosulfuron-tolerant line under nicosulfuron stress in enhancing the adaptability of sweet maize.
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