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板栗CmFT基因的克隆及功能分析 被引量:2

Cloning and functional analysis of CmFT in Chinese chestnut
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摘要 【目的】FT(FLOWERING LOCUS T)是成花素基因,探究板栗(Castanea mollissima)CmFT的生物学功能。【方法】在板栗基因组数据库中,检索并克隆板栗FT同源基因,对其基因结构、编码蛋白进行分析。利用荧光定量PCR测定CmFT的时空表达情况。通过亚细胞定位分析CmFT在细胞中的表达位置。通过对CmFT过量表达拟南芥(Arabidopsis thaliana)的开花性状分析,验证CmFT的生物学功能。【结果】CmFT开放阅读框长度为525 bp,编码174个氨基酸,具有保守的PEBP结构域,定位于细胞核。CmFT在叶片和茎尖均有较高表达,并且于7月在叶片中的表达水平达到峰值。在拟南芥中过表达CmFT可提高开花促进基因AtFT、LEAFY(AtLFY)、SUPPRESSOR OF CONSTANS OVEREXPRESSION 1(AtSOC1)及开花抑制基因TERMINAL FLOWER1(AtTFL1)和FLOWERING LOCUS C(AtFLC)的表达水平,并导致植株提前开花。【结论】CmFT为板栗开花素基因,可促进成花。 【Objective】Flower is the sex organ of plant and the basis for sexual reproduction.Flowering is regulated by external environment and endogenous factors.FLOWERING LOCUS T(FT)is the florigen gene to promote flowering.Under induced condition,FT is expressed in companion cell of leaf sieve tube and transported to the shoot apical meristem activating downstream flowering-related genes.Chinese chestnut(Castanea mollissima)is an important economic forest tree species and mainly distributed in the mountainous regions in China.Nut,the product of sexual reproduction,is the main economic product of Chinese chestnut.However,the flowering of Chinese chestnut is unstable,which usually leads to secondary flowering and“on year and off year”phenomena.The flowering regulatory network in Chinese chestnut is still unclear.This study intends to clone C.mollissima florigen gene CmFT and verify its biological function.【Methods】The TBtools was used to search and obtain CmFT genome sequence information from Chinese chestnut genome database.The CmFT structure diagram was drawn with online software GSDS 2.0.FT amino acid sequences of different species were downloaded from Phytozome database.The phylogenetic tree of FT amino acid sequences in Chinese chestnut and other species was constructed with MEGAX software.The CDD-tools in NCBI was used to search the conserved domains of CmFT.Real-time fluorescence quantitative Polymerase Chain Reaction(PCR)was used to determine the expression characteristics of CmFT in different tissues and leaves at different periods.Vector containing 35S::CmFT-GFP was constructed and transformed in A.thaliana protoplasts to determine the subcellular location information of CmFT by observing the fluorescence signal with laser confocal microscope.35S::CmFT vector was constructed and transformed in wild type A.thaliana.Five transgenic Arabidopsis lines were selected to verify the biological function of CmFT in flowering by analyzing flowering phenotype.To determine the pathway of CmFT affecting flowering,expressions of endogenous flowering key genes including FT,TERMINAL FLOWER1(TFL1),CONSTANT(CO),SUPPRESSOR OF CONSTANS OVEREXPRESSION 1(SOC1),FLOWERING LOCUS C(FLC)and LEAFY(LFY)in transgenic and wild type Arabidopsis plants were determined with real-time fluorescence quantitative PCR.【Results】The FT homologous gene BUA.CMHBY204722 was retrieved in the Chinese chestnut genome database and named CmFT,which contained 3 introns,and the coding sequence(CDS)was 525 bp in length.The 5’-untranslated region(UTR)and 3’-UTR of CmFT were 75 bp and 219 bp in length,respectively.CmFT encoded 174 amino acids,which contained a conserved PBP domain.The homology of FT in Chinese chestnut,Arabidopsis,Cymbidium goeringii,Vitis vinifer,Jatropha curcas,Paeonia suffruticosa,Populus nigra and Cucumis sativus was 87.36%.The results of evolutionary analysis showed that FT homologous genes in different species were highly conservative.Among 13 species,including species above,as well as Glycine max,Camellia oleifera,Lactuca sativa,Brassica napus and Aquilegia coerulea,CmFT of Chinese chestnut had the closest relationship with the FT homologous protein of cucumber,followed by poplar.CmFT was expressed in stem tips,leaves,mixed buds and inflorescences.The expression of CmFT in stem tips and leaves was higher,followed by inflorescences and mixed buds.The expression level of CmFT in leaves gradually increased from April,and reached a peak on July 15th,then rapidly decreased,and increased again on September 5th.The results GFP fluorescence signal observation showed that the green fluorescence in leaf protoplasts of Arabidopsis transformed with 35S::CmFT-GFP recombinant expression vector was only distributed in the nucleus.This result indicated that CmFT protein was located in the nucleus.The results of flowering phenotype analysis showed the number of rosette leaves of 5 transgenic lines,when the flower stalk reached 2-5 cm,was 6.3,7.2,6.3,6.0 and 8.2,which were significantly(p<0.05)lower than that of the wild-type Arabidopsis 11.8.This result showed that overexpression of CmFT significantly promoted Arabidopsis flowering.The expression levels of the florigen gene AtFT and its suppressor gene AtTFL1,as well as the photoperiod pathway gene AtSOC1 both in wild-type and transgenic Arabidopsis at 8-leaf stage were higher than those at 4-leaf stage.The expression level of flowering pioneer gene AtLFY changed insignificantly between the two periods.But the expression level of AtLFY in transgenic Arabidopsis leaves at the 8-leaf stage was significantly higher(p<0.05)than that in the wild-type plants.In addition,the expression level of the flowering suppressor gene AtFLC in transgenic Arabidopsis was significantly higher(p<0.05)than that of the wild type at the 4-leaf stage,but the expression levels between various periods were insignificantly different.The expression level of the photoperiod pathway gene AtCO at 8-leaf stage was significantly(p<0.05)lower than that at 4-leaf stage,but there was no significant difference between transgenic and wild-type A.thaliana.【Conclusion】CmFT is a typical member of the PEBP family.The overexpression of CmFT promotes flowering in Arabidopsis.CmFT is the florigen gene of Chinese chestnut.
作者 程运河 程丽莉 胡广隆 杨前宇 韩笑 兰彦平 CHENG Yunhe;CHENG Lili;HU Guanglong;YANG Qianyu;HAN Xiao;LAN Yanping(Institute of Forestry and Pomology,Beijing Academy of Agriculture and Forestry Sciences,Beijing 100093,China;Chestnut Engineering&Technology Research Center State Forestry Administration,Beijing 100093,China;College of Forestry,Shenyang Agriculture University,Shenyang 110866,Liaoning,China;Natural Resources Affairs Service Center of Dalian,Dalian 116000,Liaoning,China)
出处 《果树学报》 CAS CSCD 北大核心 2022年第6期935-944,共10页 Journal of Fruit Science
基金 北京市林业果树科学研究院青年科研基金项目(LGYJJ202007) 国家重点研发计划项目(2018YFD1000605) 国家林业局板栗工程技术研究中心建设项目(PT2019-25) 北京市农林科学院林果种质资源创新项目[KJCX20170111-(07)]。
关键词 板栗 CmFT 基因克隆 开花调控 Castanea mollissima CmFT Gene cloning Flowering regulation
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