Xiangdong Fu

Xiangdong Fu
Institute of Genetics and Developmental Biology

Prof.

About

173
Publications
73,208
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12,586
Citations
Additional affiliations
August 2005 - present
Chinese Academy of Sciences
Position
  • IGDB

Publications

Publications (173)
Article
Full-text available
The drive toward more sustainable agriculture has raised the profile of crop plant nutrient-use efficiency. Here we show that a major rice nitrogen-use efficiency quantitative trait locus (qNGR9) is synonymous with the previously identified gene DEP1 (DENSE AND ERECT PANICLES 1). The different DEP1 alleles confer different nitrogen responses, and g...
Article
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IDEAL PLANT ARCHITECTURE1 (IPA1) is critical in regulating rice (Oryza sativa) plant architecture and substantially enhances grain yield. To elucidate its molecular basis, we first confirmed IPA1 as a functional transcription activator and then identified 1067 and 2185 genes associated with IPA1 binding sites in shoot apices and young panicles, res...
Article
Phosphatidylserine (PS), a quantitatively minor membrane phospholipid, is involved in many biological processes besides its role in membrane structure. One PS synthesis gene, PHOSPHATIDYLSERINE SYNTHASE1 (PSS1), has been discovered to be required for microspore development in Arabidopsis thaliana L. but how PSS1 affects postembryonic development is...
Article
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• Control of organ size and shape by cell proliferation and cell expansion is a fundamental developmental process, but the mechanisms that set the size and shape of determinate organs are largely unknown in plants. • Molecular, genetic, cytological and biochemical approaches were used to characterize the roles of the Arabidopsis thaliana G protein...
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Dominance, semidominance, and recessiveness are important modes of Mendelian inheritance. The phytohormone gibberellin (GA) regulates many plant growth and developmental processes. The previously cloned semidominant GA-insensitive (GAI) genes Reduced height1 (Rht1) and Rht2 in wheat (Triticum aestivum) were the basis of the Green Revolution. Howeve...
Article
Lesion‐mimic mutants (LMMs) serve as valuable resources for uncovering the molecular mechanisms that govern programmed cell death (PCD) in plants. Despite extensive research, the regulatory mechanisms of PCD and lesion formation in various LMMs remain to be fully elucidated. In this study, we identified a rice LMM named early leaf lesion and senesc...
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Molecular-assisted breeding is an effective way to improve targeted agronomic traits. dep1 (dense and erect panicle 1) is a pleiotropic gene that regulates yield, quality, disease resistance, and stress tolerance, traits that are of great value in rice (Oryza sativa L.) breeding. In this study, a colorimetric LAMP (loop-mediated isothermal amplific...
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The breeding of crops with improved nitrogen use efficiency (NUE) is crucial for sustainable agriculture, but the involvement of epigenetic modifications remains unexplored. Here, we analyze the chromatin landscapes of two wheat cultivars (KN9204 and J411) that differ in NUE under varied nitrogen conditions. The expression of nitrogen metabolism ge...
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The GROWTH-REGULATING FACTOR4 (OsGRF4) allele is an important target for the development of new high nitrogen-use efficiency (NUE) rice lines that would require less fertilizers. Detection of OsGRF4 through PCR (polymerase chain reaction)-based assay is cumbersome and needs advanced laboratory skills and facilities. Hence, a method for conveniently...
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Plant breeding is constrained by trade-offs among different agronomic traits by the pleiotropic nature of many genes. Genes that contribute to two or more favourable traits with no penalty on yield are rarely reported, especially in wheat. Here, we describe the editing of a wheat auxin response factor TaARF12 by using CRISPR/Cas9 that rendered shor...
Preprint
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Spike architecture largely affects grain number embraced, which is an important trait to optimize during wheat breeding process. In this study, we incorporated multi-omic data and investigated the genetic regulation of wheat spike development. We generated transcriptome and epigenome profiles of shoot apex at eight developmental stages and observed...
Article
The utilization of reduced plant height genes Rht-B1b and Rht-D1b encoding homeologous DELLA proteins led to the wheat Green Revolution (GR). However, the specific functions of the GR genes in yield determination and the underlying regulatory mechanisms remained unknown. Here we validated that Rht-B1b as a representative of the GR genes affected pl...
Article
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Deep knowledge of crop biodiversity is essential to improving global food security. Despite bread wheat serving as a keystone crop worldwide, the population history of bread wheat and its relatives, both cultivated and wild, remains elusive. By analysing whole-genome sequences of 795 wheat accessions, we found that bread wheat originated from the s...
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Modern semi-dwarf rice varieties of the 'Green Revolution' require a high nitrogen (N) fertilizer supply to obtain a high yield. A better understanding of the interplay between N metabolic and developmental processes is required for improved N use efficiency (NUE) and agricultural sustainability. Here, we show that strigolactones (SLs) modulate roo...
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Background Plant and animal embryogenesis have conserved and distinct features. Cell fate transitions occur during embryogenesis in both plants and animals. The epigenomic processes regulating plant embryogenesis remain largely elusive. Results Here, we elucidate chromatin and transcriptomic dynamics during embryogenesis of the most cultivated cro...
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Climate change negatively affects crop yield, which hinders efforts to reach agricultural sustainability and food security. Here, we show that a previously unidentified allele of the nitrate transporter gene OsNRT2.3 is required to maintain high yield and high nitrogen use efficiency under high temperatures. We demonstrate that this tolerance to hi...
Preprint
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Spike architecture largely affects grain number embraced, which is a key factor influencing wheat grain yield. Here, we systematically explore the genetic regulation network governing wheat spike development by integration of multi-omic data with population genetics. Transcriptome and epigenome profile of shoot apex at eight developmental stages we...
Article
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Grain weight is a major determinant in rice yield, which is tightly associated with grain size. However, the underlying molecular mechanisms that control this trait remain unclear. Here, we report a rice (Oryza sativa) mutant, low grain weight (lgw), which shows that reduced grain length is caused by decreased cell elongation and proliferation. Map...
Article
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Bread wheat (Triticum aestivum L.) is a major crop that feeds 40% of the world’s population. Over the past several decades, advances in genomics have led to tremendous achievements in understanding the origin and domestication of wheat, and the genetic basis of agronomically important traits, which promote the breeding of elite varieties. In this r...
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Linear (Met1-linked) ubiquitination is involved inflammatory and innate immune signaling. Previous studies have characterized enzymes regulating the addition and removal of this modification in mammalian systems. However, only a few plant-derived deubiquitinases targeting Met1-linked ubiquitin chains have been reported and their mechanism of action...
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In the hybrid rice industry, the efficiency in F1 seed production determines whether combinations can be widely used. In a traditional hybrid rice system, the restorer (R) line is the pollen donor, whereas the male sterile (MS) line is the pollen acceptor. The hybrid seed can be generated only if the floret opening time (FOT) of these two lines coi...
Article
The Green Revolution of the 1960s improved crop yields in part through the widespread cultivation of semidwarf plant varieties, which resist lodging but require a high-nitrogen (N) fertilizer input. Because environmentally degrading synthetic fertilizer use underlies current worldwide cereal yields, future agricultural sustainability demands enhanc...
Preprint
Full-text available
Deep knowledge of crop biodiversity is essential to improve global food security. Despite bread wheat serving as a keystone crop worldwide, the population history of bread wheat and its wild relatives (a.k.a. wheats) remains elusive. By analyzing whole-genome sequences of 795 wheats, we found that bread wheat originated southwest of the Caspian Sea...
Preprint
Full-text available
Embryogenesis represents the beginning of life cycle, but our understanding of the regulatory circuitry in plants is far lagged to animals. Here, we draw a transcriptome trajectory and chromatin landscape profile during embryogenesis of most cultivated crop hexaploid wheat, highlighting large-scale chromatin reconfiguration and distinct proximal an...
Article
Diversity surveys of crop germplasm are important for gaining the insight into the genomic basis for plant architecture and grain yield improvement, which is still poorly understood in wheat. Here, we exome sequenced 287 wheat accessions that were collected in the past 100 years. Population genetics analysis identified 6.7% of the wheat genome that...
Article
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Background Cellulose synthase (CESA) mutants have potential use in straw processing due to their lower cellulose content, but almost all of the mutants exhibit defective phenotypes in plant growth and development. Balancing normal plant growth with reduced cellulose content remains a challenge, as cellulose content and normal plant growth are typic...
Preprint
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Background Structural variations (SVs) pervade the genome and contribute substantially to the phenotypic diversity of species. However, most SVs were ineffectively assayed because of the complexity of plant genomes and the limitations of sequencing technologies. Recent advancement of third-generation sequencing technologies, particularly the PacBio...
Article
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The AGAMOUS‐LIKE6 (AGL6)‐like genes are ancient MADS‐box genes and are functionally studied in a few model plants. The knowledge of these genes in wheat remains limited. Here, by studying a “double homoeolog mutant” of the AGL6 gene in tetraploid wheat, we showed that AGL6 was required for the development of all four whorls of floral organs with do...
Article
The Green Revolution of the 1960s boosted cereal crop yields in part through widespread adoption of semi-dwarf plant varieties, many of which were later found to have mutations in either gibberellins (GAs) homeostasis or DELLA proteins. GA is essential for plant growth and developmental regulation and plays an important role in improving crop plant...
Article
Grain size is one of the most import factors of controlling rice yield, as it is associated with grain weight (GW). To date, several rice genes that regulate grain size have been isolated; however, the regulatory mechanism underlying GW control is not fully understood. Herein, a quantitative trait locus qGL5 for grain length (GL) and GW was identif...
Article
G-protein signaling and ubiquitin-dependent degradation are both involved in grain development in rice, but how these pathways are coordinated in regulating this process is unknown. Here, we show that Chang Li Geng 1 (CLG1), which encodes an E3 ligase, regulates grain size by targeting the Gγ protein GS3, a negative regulator of grain length, for d...
Article
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Reticulate evolution through the interchanging of genetic components across organisms can impact significantly on the fitness and adaptation of species. Bread wheat (Triticum aestivum subsp. aestivum) is one of the most important crops in the world. Allopolyploid speciation, frequent hybridization, extensive introgression, and occasional horizontal...
Article
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Kernel number per spike determined by the spike or inflorescence development is one important agricultural trait for wheat yield that is critical for global food security. While a few important genes for wheat spike development were identified, the genetic regulatory mechanism underlying supernumerary spikelets (SSs) is still unclear. Here, we clon...
Article
Full-text available
Kernel number per spike determined by the spike or inflorescence development is one important agricultural trait for wheat yield that is critical for global food security. While a few important genes for wheat spike development were identified, the genetic regulatory mechanism underlying supernumerary spikelets (SSs) is still unclear. Here, we clon...
Article
Full-text available
The external application of nitrogen (N) fertilizers is an important practice for increasing crop production. However, the excessive use of fertilizers significantly increases production costs and causes environmental problems, making the improvement of crop N-use efficiency (NUE) crucial for sustainable agriculture in the future. Here we show that...
Article
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Ubiquitination, an essential post-transcriptional modification (PTM), plays a vital role in nearly every biological process, including development and growth. Despite its functions in plant reproductive development, its targets in rice panicles remain unclear. In this study, we used proteome-wide profiling of lysine ubiquitination in rice (O. sativ...
Article
The agricultural green revolution of the 1960s boosted cereal crop yield was in part due to cultivation of semi-dwarf green revolution varieties. The semi-dwarf plants resist lodging and require high nitrogen (N) fertilizer inputs to maximize yield. To produce higher grain yield, inorganic fertilizer has been overused by Chinese farmers in intensiv...
Preprint
Full-text available
Background Cellulose synthase (CESA) mutants have potential use in straw processing due to their lower cellulose content, but almost all of the mutants exhibit defective phenotypes in plant growth and development. Balancing normal plant growth with reduced cellulose content remains a challenge, as cellulose content and normal plant growth are typic...
Preprint
Full-text available
Background: Cellulose synthase (CESA) mutants have potential use in straw processing due to their lower cellulose content, but almost all of the mutants exhibit defective phenotypes in plant growth and development. Balancing normal plant growth with reduced cellulose content remains a challenge, as cellulose content and normal plant growth are typi...
Preprint
Full-text available
Background: Cellulose synthase (CESA) mutants have potential use in straw processing due to their lower cellulose content, but almost all of the mutants exhibit defective phenotypes in plant growth and development. Balancing normal plant growth with reduced cellulose content remains a challenge, as cellulose content and normal plant growth are typi...
Article
Decoupling tillering and fertilization For rice as an agricultural crop, more tillers, or branches that carry grains, are desired, as is less demand for nitrogen fertilization. Unfortunately, for many rice varieties, the number of tillers depends on the amount of nitrogen fertilization. Wu et al. now show that nitrogen status affects chromatin func...
Article
Excessive cadmium (Cd) in rice grains is of great concern worldwide, particularly in southern China where heavy metal pollution in the soil is widespread. Much work has been done regarding the key genes responsible for Cd absorption, transport, and accumulation in rice, but little is known about the differences of Cd accumulation between indica and...
Article
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Plant-associated microbes are critical for plant growth and survival under natural environmental conditions. To date, most plant microbiome studies involving high-throughput amplicon sequencing have focused on the relative abundance of microbial taxa. However, this technique does not assess the total microbial load and the abundance of individual m...
Article
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Rice is one of the most important cereal crops in the world, and a substantial increase in grain yield is necessary for food security. However, high yields of semidwarf modern rice varieties are heavily dependent on the application of mineral nitrogenous fertilizer (Tilman et al., 2002; Sun et al., 2014). Nitrogen (N)-insensitive responses associat...
Preprint
Full-text available
The evolution of bread wheat (Triticum aestivum) is distinctive in that domestication, natural hybridization, and allopolyploid speciation have all had significant effects on the diversification of its genome. Wheat was spread around the world by humans and has been cultivated in China for ~4,600 years. Here, we report a comprehensive assessment of...
Article
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我国已有 8 000 年以上的禾谷类作物栽培历史,相关的育种知识对全球产生了重要影响。20 世纪 90 年代我国作为发起国之一,参与了“国际水稻基因组计划”,相继完成了粳稻第 4 号染色体的测序和籼稻“93-11”基因组精细图谱,并在科技部“973”项目水稻功能基因组的支持下,水稻重要农艺性状解析取得了长足的进展。中国科学院战略性先导科技专项(A 类)“分子模块设计育种创新体系”以水稻为抓手,通过高产、稳产、优质、高效等复杂性状的分子模块解析,探索建立分子模块设计育种技术体系,以带动小麦、大豆、鱼类等动植物复杂性状的解析和设计育种技术发展。经过近 5 年努力,建立了水稻种质资源库和基因组数据库,获得了一批有重要育种价值的分子模块,在水稻高产优质协同改良、感受与抵御低温、广谱持久抗病与产量平衡...
Article
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Enhancing global food security by increasing the productivity of green revolution varieties of cereals risks increasing the collateral environmental damage produced by inorganic nitrogen fertilizers. Improvements in the efficiency of nitrogen use of crops are therefore essential; however, they require an in-depth understanding of the co-regulatory...
Article
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Background: As one of the most important staple food crops, rice produces huge agronomic biomass residues that contain lots of secondary cell walls (SCWs) comprising cellulose, hemicelluloses and lignin. The transcriptional regulation mechanism underlying SCWs biosynthesis remains elusive. Results: In this study, we isolated a NAC family transcr...
Article
Full-text available
The simultaneous improvement of grain quality and yield of cereal crops is a major challenge for modern agriculture. Here we show that a rice grain yield quantitative trait locus qLGY3 encodes a MADS-domain transcription factor OsMADS1, which acts as a key downstream effector of G-protein βγ dimers. The presence of an alternatively spliced protein...