Li Xiao scite author profile

Chenopodium quinoa is a halophytic pseudocereal crop that is being cultivated in an ever-growing number of countries. Because quinoa is highly resistant to multiple abiotic stresses and its seed has a better nutritional value than any other major cereals, it is regarded as a future crop to ensure global food security. We generated a high-quality genome draft using an inbred line of the quinoa cultivar Real. The quinoa genome experienced one recent genome duplication about 4.3 million years ago, likely reflecting the genome fusion of two Chenopodium parents, in addition to the γ paleohexaploidization reported for most eudicots. The genome is highly repetitive (64.5% repeat content) and contains 54 438 protein-coding genes and 192 microRNA genes, with more than 99.3% having orthologous genes from glycophylic species. Stress tolerance in quinoa is associated with the expansion of genes involved in ion and nutrient transport, ABA homeostasis and signaling, and enhanced basal-level ABA responses. Epidermal salt bladder cells exhibit similar characteristics as trichomes, with a significantly higher expression of genes related to energy import and ABA biosynthesis compared with the leaf lamina. The quinoa genome sequence provides insights into its exceptional nutritional value and the evolution of halophytes, enabling the identification of genes involved in salinity tolerance, and providing the basis for molecular breeding in quinoa.

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The resurrection genome of Boea hygrometrica : A blueprint for survival of dehydration

Xiao

Zhang

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

130

148

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"Drying without dying" is an essential trait in land plant evolution. Unraveling how a unique group of angiosperms, the Resurrection Plants, survive desiccation of their leaves and roots has been hampered by the lack of a foundational genome perspective. Here we report the ∼1,691-Mb sequenced genome of Boea hygrometrica, an important resurrection plant model. The sequence revealed evidence for two historical genome-wide duplication events, a compliment of 49,374 protein-coding genes, 29.15% of which are unique (orphan) to Boea and 20% of which (9,888) significantly respond to desiccation at the transcript level. Expansion of early light-inducible protein (ELIP) and 5S rRNA genes highlights the importance of the protection of the photosynthetic apparatus during drying and the rapid resumption of protein synthesis in the resurrection capability of Boea. Transcriptome analysis reveals extensive alternative splicing of transcripts and a focus on cellular protection strategies. The lack of desiccation tolerance-specific genome organizational features suggests the resurrection phenotype evolved mainly by an alteration in the control of dehydration response genes.

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Mutations in a subfamily of abscisic acid receptor genes promote rice growth and productivity

Miao

Xiao

Hua

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

276

152

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Abscisic acid (ABA) is a key phytohormone that controls plant growth and stress responses. It is sensed by the pyrabactin resistance 1 (PYR1)/PYR1-like (PYL)/regulatory components of the ABA receptor (RCAR) family of proteins. Here, we utilized CRISPR/Cas9 technology to edit group I (- and ) and group II (- and ) genes in rice. Characterization of the combinatorial mutants suggested that genes in group I have more important roles in stomatal movement, seed dormancy, and growth regulation than those in group II. Among all of the single mutants, only and exhibited significant defects in seed dormancy. Interestingly, high-order group I mutants, but not any group II mutants, displayed enhanced growth. Among group I mutants, exhibited the best growth and improved grain productivity in natural paddy field conditions, while maintaining nearly normal seed dormancy. Our results suggest that a subfamily of rice has evolved to have particularly important roles in regulating plant growth and reveal a genetic strategy to improve rice productivity.

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A new insight into Cannabis sativa (Cannabaceae) utilization from 2500-year-old Yanghai Tombs, Xinjiang, China

Jiang

Xiao

Zhao

et al. 2006

Journal of Ethnopharmacology

159

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The genome of broomcorn millet

et al. 2019

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Broomcorn millet (Panicum miliaceum L.) is the most water-efficient cereal and one of the earliest domesticated plants. Here we report its high-quality, chromosome-scale genome assembly using a combination of short-read sequencing, single-molecule real-time sequencing, Hi-C, and a high-density genetic map. Phylogenetic analyses reveal two sets of homologous chromosomes that may have merged ~5.6 million years ago, both of which exhibit strong synteny with other grass species. Broomcorn millet contains 55,930 protein-coding genes and 339 microRNA genes. We find Paniceae-specific expansion in several subfamilies of the BTB (broad complex/tramtrack/bric-a-brac) subunit of ubiquitin E3 ligases, suggesting enhanced regulation of protein dynamics may have contributed to the evolution of broomcorn millet. In addition, we identify the coexistence of all three C4 subtypes of carbon fixation candidate genes. The genome sequence is a valuable resource for breeders and will provide the foundation for studying the exceptional stress tolerance as well as C4 biology.

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The genomes of pecan and Chinese hickory provide insights into Carya evolution and nut nutrition

Huang

Xiao

Zhang

et al. 2019

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Background Pecan ( Carya illinoinensis ) and Chinese hickory ( C. cathayensis ) are important commercially cultivated nut trees in the genus Carya (Juglandaceae), with high nutritional value and substantial health benefits. Results We obtained >187.22 and 178.87 gigabases of sequence, and ∼288× and 248× genome coverage, to a pecan cultivar (“Pawnee”) and a domesticated Chinese hickory landrace (ZAFU-1), respectively. The total assembly size is 651.31 megabases (Mb) for pecan and 706.43 Mb for Chinese hickory. Two genome duplication events before the divergence from walnut were found in these species. Gene family analysis highlighted key genes in biotic and abiotic tolerance, oil, polyphenols, essential amino acids, and B vitamins. Further analyses of reduced-coverage genome sequences of 16 Carya and 2 Juglans species provide additional phylogenetic perspective on crop wild relatives. Conclusions Cooperative characterization of these valuable resources provides a window to their evolutionary development and a valuable foundation for future crop improvement.

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Transcriptome of Protoplasts Reprogrammed into Stem Cells in Physcomitrella patens

Xiao

Zhang

et al. 2012

PLoS ONE

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BackgroundDifferentiated plant cells can retain the capacity to be reprogrammed into pluripotent stem cells during regeneration. This capacity is associated with both cell cycle reactivation and acquisition of specific cellular characters. However, the molecular mechanisms underlying the reprogramming of protoplasts into stem cells remain largely unknown. Protoplasts of the moss Physcomitrella patens easily regenerate into protonema and therefore provide an ideal system to explore how differentiated cells can be reprogrammed to produce stem cells.Principal findingsWe obtained genome-wide digital gene expression tag profiles within the first three days of P. patens protoplast reprogramming. At four time-points during protoplast reprogramming, the transcript levels of 4827 genes changed more than four-fold and their expression correlated with the reprogramming phase. Gene ontology (GO) and pathway enrichment analysis of differentially expressed genes (DEGs) identified a set of significantly enriched GO terms and pathways, most of which were associated with photosynthesis, protein synthesis and stress responses. DEGs were grouped into six clusters that showed specific expression patterns using a K-means clustering algorithm. An investigation of function and expression patterns of genes identified a number of key candidate genes and pathways in early stages of protoplast reprogramming, which provided important clues to reveal the molecular mechanisms responsible for protoplast reprogramming.ConclusionsWe identified genes that show highly dynamic changes in expression during protoplast reprogramming into stem cells in P. patens. These genes are potential targets for further functional characterization and should be valuable for exploration of the mechanisms of stem cell reprogramming. In particular, our data provides evidence that protoplasts of P. patens are an ideal model system for elucidation of the molecular mechanisms underlying differentiated plant cell reprogramming.

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Experimental Investigation of Interactions between Water and a Lower Silurian Chinese Shale

et al. 2014

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Hydraulic fracturing and well drilling bring water into shale reservoirs. The water interacts with the shale, which can destabilize the wellbore and impact the rate of gas production from the reservoir. Although wellbore instability has been extensively studied, the effect on gas production requires further work. In this work, the interactions of water with shale from China's Sichuan Basin were studied from macroscopic and microscopic perspectives. The visual information provided by studying shale at the microscopic scale helps in understanding the effects of water−shale interactions on gas production. We first studied the shale's wettability and water adsorption capacity and then investigated its water adsorption characteristics, swelling strain, and Young's modulus with different water contents. Field-emission scanning electron microscopy was also used to observe the storage of water in the shale matrix and the interaction of shale minerals with water. Our experimental data show that the adsorption capacity of the shale is low, although it is overall hydrophilic. The adsorption data indicated that diffusion may be the main mechanism for water adsorption by the sample under our experimental conditions. Capillary pressure may also help transport water into the matrix. The shale sample exhibited free swelling and its Young's modulus decreased after uptake of water, which may be attributed to hydration of clay minerals in the shale sample. Microscopic observations showed that some water remained in the sample's pores even when the water vapor pressure was much lower than the saturation pressure. This suggests that the residual water may be difficult to remove from the reservoir and that hydraulic fluid would have a greater influence on smaller pores than on larger pores.

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Li Xiao

A high-quality genome assembly of quinoa provides insights into the molecular basis of salt bladder-based salinity tolerance and the exceptional nutritional value

The resurrection genome of Boea hygrometrica : A blueprint for survival of dehydration

Mutations in a subfamily of abscisic acid receptor genes promote rice growth and productivity

A new insight into Cannabis sativa (Cannabaceae) utilization from 2500-year-old Yanghai Tombs, Xinjiang, China

The genome of broomcorn millet

The genomes of pecan and Chinese hickory provide insights into Carya evolution and nut nutrition

Transcriptome of Protoplasts Reprogrammed into Stem Cells in Physcomitrella patens

Experimental Investigation of Interactions between Water and a Lower Silurian Chinese Shale

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