FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the p...FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the photoperiod,which limits their ornamental and annual production supply.In this study,we aim to analyze the nutrients and flowering-related genes of chrysanthemums with different photoperiod types and to clone and verify the function of the flowering-related gene CmFT.We found that the formation of floral buds requires the accumulation of starch while consuming soluble sugars and the expression patterns of flowering-related genes GIGANTEA(GI),CONSTANS(CO),and FT in C.morifolium‘Zilian’and C.morifolium‘Zihongtuogui’had a certain synchronization during floral buds differentiation according to our quantitative validation,and the expression levels of CmGI,CmCO and CmFT in C.morifolium‘Zihongtuogui’were higher than those in C.morifolium.‘Zilian’in the later stage of differentiation.CmFT was cloned from photosensitive chrysanthemums-C.morifolium‘Zihongtuogui’and polypeptide alignment and phylogenetic analysis showed that CmFT was clustered in FT-like subfamily.In further functional verification,we obtained two Arabidopsis transgenic lines.Our results showed that CmFT transgenic ft mutant lines can significantly accelerate flowering in Arabidopsis.Thus,we can initially confirm that CmFT plays an important role in promoting flowering,which may be the key reason for the photosensitivity of C.morifolium‘Zihongtuogui’.Overall,the results of this study are of great importance in revealing the flowering mechanism of different photoperiod types of chrysanthemums.展开更多
Ex situ conservation is the main method for the protection of endangered wildlife.To explore the effect of ex situ conservation on the gut microbiota of the kiang(Equus kiang),metagenomic sequencing combined with bioi...Ex situ conservation is the main method for the protection of endangered wildlife.To explore the effect of ex situ conservation on the gut microbiota of the kiang(Equus kiang),metagenomic sequencing combined with bioinformatics analysis was used to investigate the composition and function of the gut microbiota of the kiang.The results showed that ex situ conservation not only protected wildlife,but also affected the composition and function of gut microbiota,as well as the health of animals.In the zoo,the ratio of the relative abundance of Firmicutes to that of Bacteroidetes(F/B)is higher,clusters of potentially pathogenic bacteria(such as Catonella,Catonella,and Mycoplasma)are more numerous,the abundance of resistance genes is higher,and the abundance of metabolic functions is increased.The dynamic changes of the gut microbiota also played an important role in the nutritional absorption,energy metabolism,and environmental adaptation of the kiang.Improving the rearing environment and increasing food diversity play important roles for increasing the diversity of gut microbiota,reducing the spread of potentially pathogenic bacteria,and reducing diseases.In the wild,especially in winter and in food-deficient areas,food supplementation can enhance the gut microbial homeostasis of wild animals and reduce the impact of crises.In depth studies of the gut microbial function of wildlife have important implications for improving ex situ conservation.展开更多
基金the Major Technological Innovation of Guangdong Province of China,Grant Number 2020B020220009the Science and Technology Projects,Grant Number 202201011833.
文摘FLOWERING LOCUS T(FT)is an important factor for integrating flowering signals through the photoperiod pathway,which significantly promotes flowering.Most chrysanthemum varieties are short-day plants,sensitive to the photoperiod,which limits their ornamental and annual production supply.In this study,we aim to analyze the nutrients and flowering-related genes of chrysanthemums with different photoperiod types and to clone and verify the function of the flowering-related gene CmFT.We found that the formation of floral buds requires the accumulation of starch while consuming soluble sugars and the expression patterns of flowering-related genes GIGANTEA(GI),CONSTANS(CO),and FT in C.morifolium‘Zilian’and C.morifolium‘Zihongtuogui’had a certain synchronization during floral buds differentiation according to our quantitative validation,and the expression levels of CmGI,CmCO and CmFT in C.morifolium‘Zihongtuogui’were higher than those in C.morifolium.‘Zilian’in the later stage of differentiation.CmFT was cloned from photosensitive chrysanthemums-C.morifolium‘Zihongtuogui’and polypeptide alignment and phylogenetic analysis showed that CmFT was clustered in FT-like subfamily.In further functional verification,we obtained two Arabidopsis transgenic lines.Our results showed that CmFT transgenic ft mutant lines can significantly accelerate flowering in Arabidopsis.Thus,we can initially confirm that CmFT plays an important role in promoting flowering,which may be the key reason for the photosensitivity of C.morifolium‘Zihongtuogui’.Overall,the results of this study are of great importance in revealing the flowering mechanism of different photoperiod types of chrysanthemums.
基金We would like to express our heartfelt thanks to the keepers of the Qinghai-Tibet Plateau Wildlife Park for their help in collecting fecal samples from the Tibetan wild ass in zoo.This study was financially supported by the Strategic Priority Research Program of the Chinese Academy of Sciences(XDA23060602 and XDA2002030302)the Qinghai Province Science and Technology Plan(2021-ZJ-951Q)+3 种基金the Second Tibetan Plateau Scientific Expedition and Research Program(STEP)(2019QZKK0501)Qinghai Key R&D and Transformation Program(2019-SF-150)the Joint Grant from Chinese Academy of Sciences-People’s Government of Qinghai Province on Sanjiangyuan National Park(LHZX-2020-01)the Science and Technology Department of Qinghai Province Major Project“Sanjiangyaun National Park Animal Genome Program.”。
文摘Ex situ conservation is the main method for the protection of endangered wildlife.To explore the effect of ex situ conservation on the gut microbiota of the kiang(Equus kiang),metagenomic sequencing combined with bioinformatics analysis was used to investigate the composition and function of the gut microbiota of the kiang.The results showed that ex situ conservation not only protected wildlife,but also affected the composition and function of gut microbiota,as well as the health of animals.In the zoo,the ratio of the relative abundance of Firmicutes to that of Bacteroidetes(F/B)is higher,clusters of potentially pathogenic bacteria(such as Catonella,Catonella,and Mycoplasma)are more numerous,the abundance of resistance genes is higher,and the abundance of metabolic functions is increased.The dynamic changes of the gut microbiota also played an important role in the nutritional absorption,energy metabolism,and environmental adaptation of the kiang.Improving the rearing environment and increasing food diversity play important roles for increasing the diversity of gut microbiota,reducing the spread of potentially pathogenic bacteria,and reducing diseases.In the wild,especially in winter and in food-deficient areas,food supplementation can enhance the gut microbial homeostasis of wild animals and reduce the impact of crises.In depth studies of the gut microbial function of wildlife have important implications for improving ex situ conservation.
