SlTPP4 participates in ABA-mediated salt tolerance by enhancing root architecture in tomato

Salinity tolerance is an important physiological index for crop breeding.Roots are typically the first plant tissue to withstand salt stress.In this study,we found that the tomato(Solanum lycopersicum)trehalose-6-phosphate phosphatase(SlTPP4)gene is induced by abscisic acid(ABA)and salt,and is mainly expressed in roots.Overexpression of SlTPP4 in tomato enhanced tolerance to salt stress,resulting in better growth performance.Under saline conditions,SlTPP4 overexpression plants demonstrated enhanced sucrose metabolism,as well as increased expression of genes related to salt tolerance.At the same time,expression of genes related to ABA biosynthesis and signal transduction was enhanced or altered,respectively.In-depth exploration demonstrated that SlTPP4 enhances Casparian band development in roots to restrict the intake of Na^(+).Our study thus clarifies the mechanism of SlTPP4-mediated salt tolerance,which will be of great importance for the breeding of salt-tolerant tomato crops.

Study on the Practical Experience of Ecological Wisdom of Four Artificial Lakes in Guangzhou

The four artificial lakes in Guangzhou(Liwan Lake,Liuhua Lake,Lu Lake,Dongshan Lake)have maintained a benign relationship with the city for the symbiosis of human,nature and society since the end of the 1950s.Taking the four artificial lakes in Guangzhou as the research object,reviewing the construction process of the four artificial lakes in Guangzhou,and combing the ecological practice experience of the four artificial lakes.It is concluded that siting selection suitable for urban geographic conditions,considering the construction of artificial lakes in urban water systems,designing incorporating cultural,constructing and renovating the park combined with urban development and establishing lake-park symbiosis are the internal cause for the benign interoperability and coordinated development of the four artificial lakes and cities.In order to provide reference for the construction of urban artificial lakes in Guangzhou and the urban ecological environment construction of Guangdong,Hong Kong and Macao Dawan District.

Global Lysine Acetylome Analysis of Flower Bud Development in Catalpa bungei

Lysine acetylation,a reversible and dynamic post-translational modification,plays pivotal roles in regulating many biological processes in plants.However,the information of lysine acetylation during flower development of woody angiosperm remains unclear.Herein,we identified a total of 667 lysine acetylation sites in 467 proteins in flower buds of Catalpa Bungei.The acetylated proteins were mainly involved in the pathways of carbon metabolism,glycometabolism and oxidative phosphorylation.Using functional enrichment analysis,61 and 13 acetylated proteins were involved in the glycometabolism and oxidative phosphorylation pathways,respectively.This suggests that lysine acetylated proteins play critical roles in the energy metabolism pathways.Accordingly,the protein–protein interactions were also highly enriched in the carbon metabolic pathway.Integrative analysis of lysine acetylome and transcriptome showed that transcript level changes of seven key lysine-acetylated proteins/genes involved in energy metabolism were significant different during floral transition.Importantly,compared with the normal flowering variety,the expression levels of phosphoribulokinase,phosphoenolpyruvate carboxykinase,ATP synthase and pyruvate dehydrogenase complex genes were significantly up-regulated at the stages of vegetative and transition buds during early flowering of C.bungei.These data represent the first lysine acetylome in the C.bungei flowers,and can serve as an essential basis for exploring the function of lysine acetylated proteins in the flower bud development of plants.

Conservation of architectural paintings at Xiaonan Garden, former residence of Weng family in Changshu

Xiaonan Garden is the back garden at the Weng family＇s former residence, a famed mansion in Jiangnan. Various architectural colored paintings in the Jiangnan style, including a rare paster colored painting, are preserved in the garden. This study examines the wooden support, pigments, and structure of the painting and conducts a series of conservation experiments in situ and in the laboratory. Several conservation problems, such as the manually brushed lime, re-adherence of flaking painting layers, and consolidation of gold foil, were solved, and good results were obtained. Virtual recovery provided a solid foundation for protection and example of research on architectural colored paintings in Jiangnan.