BackgroundIn recently years, plant

Background
In recently years, plant diseases in agriculture are extremely difficult to control due to the continued moist weather during the crop growing season and the resistance of fungicides in the pathogen population, which bring about for billions of dollars in economic losses worldwide each year [1]. Take fusarium head blight (FHB) as example, it was caused by Gibberella zeae and was endemic in the wheat producing areas of many provinces of China, this kind of disease have caused an estimated 30 to 50% of reduction and even completely failure of harvests in many wheat-producing areas [2]. Therefore, the controlling of plant pathogens (such as G. zeae) has become more and more difficult, and the development of novel fungicidal molecules for these pathogens has been attracted more and more attention.

Nicotinamide derivatives, an important class of heterocyclic derivative, has attracted more and more attention in the field of pesticide due to their fungicidal activity [3-5], insecticidal activity [6-9], herbicidal activity [8,10], plant growth regulator activity [11], and bactericidal activity [12-15]. In fungicidal activity regard, some nicotinamide derivatives have been developed and commercialized, an example of such a fungicide is boscalid (Figure 1), which was discovered by BASF and registered in Britain, Germany, and Switzerland in 2004 [16]. In 2008, Coqueron, P Y. et al. described a nicotinamide containing 4-(3-chloro-5-(trifluoromethyl)pyridin-2-yl)butyl (A, Figure 1 ) possessing good fungicidal activities against Alternaria alternate[17]. More recently, Fang W and his co-workers also reported several nicotinamide derivatives (B, Figure 1) exhibiting good fungicidal activities after modification of the boscalid structure [18].