Heading date is one of the most important agronomic traits of rice,which critically affects rice ecogeographical adaptation,yield and quality.In this study,a late heading date 3(lhd3)mutant was screened from the^(60)...Heading date is one of the most important agronomic traits of rice,which critically affects rice ecogeographical adaptation,yield and quality.In this study,a late heading date 3(lhd3)mutant was screened from the^(60)Co-γirradiation mutant library.The lhd3 delayed heading date in rice under both short day and long day conditions.Map-based cloning combined with Mutmap strategy was adopted to isolate the causal LHD3 gene.The LHD3 gene encodes a DNA_J domain protein,which was ubiquitously expressed in various plant organs,and dominant expressed in stems and leaves.Subcellular localization analysis showed that LHD3 was localized to nucleus,indicating that LHD3 may interact with other elements to regulate the expression of flowering genes.The transcriptions of the heading activators Ehd1,Hd3a and RFT1 significantly decreased in the lhd3 mutant,suggesting that LHD3 may control the heading date through the Ehd1-Hd3a/RFT1 photoperiodic flowering pathway.The variation and haplotype analyses of the genomic region of LHD3 showed that there were 7 haplotypes in the LHD3 region from 4702 accessions.The haplotypes of LHD3 can be divided into two classes:class a and class b,and the heading dates of these two classes were significantly different.Further study showed that two single nucleotide polymorphisms(SNPs),SNP10(G2100C)in Hap II and SNP3(C861T)in Hap VII,may be the functional sites causing early and late heading in accessions.Nucleotide diversity analysis showed LHD3 had been selected in the indica population,rather than in the japonica population.Therefore,the present study sheds light on the regulation of LHD3 on heading date in rice and suggests that LHD3 is a novel promising new target for rice molecular design and breeding improvement.展开更多
A novel J-domain protein gene was cloned from wheat (Triticum aestivum L.) using RT-PCR technology and named as TaJ. The J-domain protein is defined by the presence of a J-domain. The cDNA of T. aestivum gene, TaJ ...A novel J-domain protein gene was cloned from wheat (Triticum aestivum L.) using RT-PCR technology and named as TaJ. The J-domain protein is defined by the presence of a J-domain. The cDNA of T. aestivum gene, TaJ (GenBank accession number: DQ789026), was 1263 bp and contained a complete open reading frame (ORF) encoding a J-domain protein of 420 amino acid residues. The predicted amino acid sequence of TaJ possesses three functionally essential domains: the Nterminal J-domain which includes the highly conserved HPD tripeptide, an adjacent domain that is rich in glycine and phenylalanine residues (G/F) and a Cysteine-rich zinc-finger domain with four repeats of CxxCxGxG that is important for protein interactions. The C-terminal of TaJ was -CAQQ, a farnesylation motif. The full-length deduced amino acid sequence of TaJ is highly homologous to J-domain proteins from various plant species. Southern blot analysis indicated that a single copy of TaJ existed in wheat genome. The expression pattern of TaJ performed by real-time PCR demonstrated that heat shock (HS) at 37℃ induced the expression of TaJ rapidly and strongly, but the response of the TaJ gene to cold stress was much slower than that to HS. Tissue-specific expression analysis showed that the expression level of TaJ gene was much higher in leaves than that in roots.展开更多
J蛋白是一类含有J结构域或类J结构域、分子质量为40 k Da左右的蛋白。其主要作用是作为热激蛋白70s的辅助分子伴侣参与新生蛋白质的折叠、蛋白质正确构象的维持、蛋白质的转运、蛋白复合体的组装和解离等过程。鉴于近几年对植物J蛋白的...J蛋白是一类含有J结构域或类J结构域、分子质量为40 k Da左右的蛋白。其主要作用是作为热激蛋白70s的辅助分子伴侣参与新生蛋白质的折叠、蛋白质正确构象的维持、蛋白质的转运、蛋白复合体的组装和解离等过程。鉴于近几年对植物J蛋白的生物学功能研究取得了长足进展,本文在扼要介绍植物J蛋白结构与分类的基础上,重点阐述了植物J蛋白的生物学功能及其分子作用机制,最后对该研究领域作了展望。展开更多
基金funded by the National Basic Research Program of China(Grant No.2016YFD0100401)National Natural Science Foundation of China(Grant No.31571742)Scientific Research Initiation Fund of Zhejiang University of Science and Technology,China(Grant No.19042142-Y)。
文摘Heading date is one of the most important agronomic traits of rice,which critically affects rice ecogeographical adaptation,yield and quality.In this study,a late heading date 3(lhd3)mutant was screened from the^(60)Co-γirradiation mutant library.The lhd3 delayed heading date in rice under both short day and long day conditions.Map-based cloning combined with Mutmap strategy was adopted to isolate the causal LHD3 gene.The LHD3 gene encodes a DNA_J domain protein,which was ubiquitously expressed in various plant organs,and dominant expressed in stems and leaves.Subcellular localization analysis showed that LHD3 was localized to nucleus,indicating that LHD3 may interact with other elements to regulate the expression of flowering genes.The transcriptions of the heading activators Ehd1,Hd3a and RFT1 significantly decreased in the lhd3 mutant,suggesting that LHD3 may control the heading date through the Ehd1-Hd3a/RFT1 photoperiodic flowering pathway.The variation and haplotype analyses of the genomic region of LHD3 showed that there were 7 haplotypes in the LHD3 region from 4702 accessions.The haplotypes of LHD3 can be divided into two classes:class a and class b,and the heading dates of these two classes were significantly different.Further study showed that two single nucleotide polymorphisms(SNPs),SNP10(G2100C)in Hap II and SNP3(C861T)in Hap VII,may be the functional sites causing early and late heading in accessions.Nucleotide diversity analysis showed LHD3 had been selected in the indica population,rather than in the japonica population.Therefore,the present study sheds light on the regulation of LHD3 on heading date in rice and suggests that LHD3 is a novel promising new target for rice molecular design and breeding improvement.
基金This work was supported by the grants from the National Natural Science Foundation of China (30470161) Natural Science Foundation of Hebei Province, China (C2004000726) Youth Science Foundation of Hebei Academy of Agricultural and Forestry Sciences, China (A06060102)
文摘A novel J-domain protein gene was cloned from wheat (Triticum aestivum L.) using RT-PCR technology and named as TaJ. The J-domain protein is defined by the presence of a J-domain. The cDNA of T. aestivum gene, TaJ (GenBank accession number: DQ789026), was 1263 bp and contained a complete open reading frame (ORF) encoding a J-domain protein of 420 amino acid residues. The predicted amino acid sequence of TaJ possesses three functionally essential domains: the Nterminal J-domain which includes the highly conserved HPD tripeptide, an adjacent domain that is rich in glycine and phenylalanine residues (G/F) and a Cysteine-rich zinc-finger domain with four repeats of CxxCxGxG that is important for protein interactions. The C-terminal of TaJ was -CAQQ, a farnesylation motif. The full-length deduced amino acid sequence of TaJ is highly homologous to J-domain proteins from various plant species. Southern blot analysis indicated that a single copy of TaJ existed in wheat genome. The expression pattern of TaJ performed by real-time PCR demonstrated that heat shock (HS) at 37℃ induced the expression of TaJ rapidly and strongly, but the response of the TaJ gene to cold stress was much slower than that to HS. Tissue-specific expression analysis showed that the expression level of TaJ gene was much higher in leaves than that in roots.
文摘J蛋白是一类含有J结构域或类J结构域、分子质量为40 k Da左右的蛋白。其主要作用是作为热激蛋白70s的辅助分子伴侣参与新生蛋白质的折叠、蛋白质正确构象的维持、蛋白质的转运、蛋白复合体的组装和解离等过程。鉴于近几年对植物J蛋白的生物学功能研究取得了长足进展,本文在扼要介绍植物J蛋白结构与分类的基础上,重点阐述了植物J蛋白的生物学功能及其分子作用机制,最后对该研究领域作了展望。