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Draft genome assembly and annotation of Glycyrrhiza uralensis,a medicinal legume 总被引:1,自引:0,他引:1
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Keiichi Mochida Tetsuya Sakurai Hikaru Seki Takuhiro Yoshida Kotaro Takahagi Satoru Sawai Hiroshi Uchiyama Toshiya Muranaka Kazuki Saito 《The Plant journal : for cell and molecular biology》2017,89(2):181-194
Chinese liquorice/licorice (Glycyrrhiza uralensis) is a leguminous plant species whose roots and rhizomes have been widely used as a herbal medicine and natural sweetener. Whole‐genome sequencing is essential for gene discovery studies and molecular breeding in liquorice. Here, we report a draft assembly of the approximately 379‐Mb whole‐genome sequence of strain 308‐19 of G. uralensis; this assembly contains 34 445 predicted protein‐coding genes. Comparative analyses suggested well‐conserved genomic components and collinearity of gene loci (synteny) between the genome of liquorice and those of other legumes such as Medicago and chickpea. We observed that three genes involved in isoflavonoid biosynthesis, namely, 2‐hydroxyisoflavanone synthase (CYP93C), 2,7,4′‐trihydroxyisoflavanone 4′‐O‐methyltransferase/isoflavone 4′‐O‐methyltransferase (HI4OMT) and isoflavone‐7‐O‐methyltransferase (7‐IOMT) formed a cluster on the scaffold of the liquorice genome and showed conserved microsynteny with Medicago and chickpea. Based on the liquorice genome annotation, we predicted genes in the P450 and UDP‐dependent glycosyltransferase (UGT) superfamilies, some of which are involved in triterpenoid saponin biosynthesis, and characterised their gene expression with the reference genome sequence. The genome sequencing and its annotations provide an essential resource for liquorice improvement through molecular breeding and the discovery of useful genes for engineering bioactive components through synthetic biology approaches. 相似文献
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Functional network analysis of genes differentially expressed during xylogenesis in soc1ful woody Arabidopsis plants
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Nicolas Davin Patrick P. Edger Charles A. Hefer Eshchar Mizrachi Mathias Schuetz Erik Smets Alexander A. Myburg Carl J. Douglas Michael E. Schranz Frederic Lens 《The Plant journal : for cell and molecular biology》2016,86(5):376-390
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Global analysis of canola genes targeted by SHORT HYPOCOTYL UNDER BLUE 1 during endosperm and embryo development
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Huanan Zhang Feng Cheng Yuguo Xiao Xiaojun Kang Xiaowu Wang Rui Kuang Min Ni 《The Plant journal : for cell and molecular biology》2017,91(1):158-171
Seed development in dicots includes early endosperm proliferation followed by growth of the embryo to replace the endosperm. Endosperm proliferation in dicots not only provides nutrient supplies for subsequent embryo development but also enforces a space limitation, influencing final seed size. Overexpression of Arabidopsis SHORT HYPOCOTYL UNDER BLUE1::uidA (SHB1:uidA) in canola produces large seeds. We performed global analysis of the canola genes that were expressed and influenced by SHB1 during early endosperm proliferation at 8 days after pollination (DAP) and late embryo development at 13 DAP. Overexpression of SHB1 altered the expression of 973 genes at 8 DAP and 1035 genes at 13 DAP. We also surveyed the global SHB1 association sites, and merging of these sites with the RNA sequencing data identified a set of canola genes targeted by SHB1. The 8‐DAP list includes positive and negative genes that influence endosperm proliferation and are homologous to Arabidopsis MINI3, IKU2, SHB1, AGL62, FIE and AP2. We revealed a major role for SHB1 in canola endosperm development based on the dynamics of SHB1‐altered gene expression, the magnitude of SHB1 chromatin immunoprecipitation enrichment and the over‐representation of eight regulatory genes for endosperm development. Our studies focus on an important agronomic trait in a major crop for global agriculture. The datasets on stage‐specific and SHB1‐induced gene expression and genes targeted by SHB1 also provide a useful resource in the field of endosperm development and seed size engineering. Our practices in an allotetraploid species will impact similar studies in other crop species. 相似文献
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The transcriptomic signature of developing soybean seeds reveals the genetic basis of seed trait adaptation during domestication
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Xiang Lu Qing‐Tian Li Qing Xiong Wei Li Ying‐Dong Bi Yong‐Cai Lai Xin‐Lei Liu Wei‐Qun Man Wan‐Ke Zhang Biao Ma Shou‐Yi Chen Jin‐Song Zhang 《The Plant journal : for cell and molecular biology》2016,86(6):530-544
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The vertebrate Hox genes have been shown to confer regional identity along the anteroposterior axis of the developing embryo, especially within
the central nervous system (CNS) and the paraxial mesoderm. The notochord has been shown to play vital roles in patterning
adjacent tissues along both the dorsoventral and mediolateral axes. However, the notochord’s role in imparting anteroposterior
information to adjacent structures is less well understood, especially as the notochord shows no morphological distinctions
along the anteroposterior axis and is not generally described as a segmental or compartmentalized structure. Here we report
that four zebrafish hox genes: hoxb1, hoxb5, hoxc6 and hoxc8 are regionally expressed along the anteroposterior extent of the developing notochord. Notochord expression for each gene
is transient, but maintains a definite, gene-specific anterior limit throughout its duration. The hox gene expression in the zebrafish notochord is spatially colinear with those genes lying most 3’ in the hox clusters having the most anterior limits. The expression patterns of these hox cluster genes in the zebrafish are the most direct molecular evidence for a system of anteroposterior regionalization of
the notochord in any vertebrate studied to date.
Received: 30 March 1998 / Accepted: 16 June 1998 相似文献
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Noémie S. Jelly Laure Valat Bernard Walter Pascale Maillot 《Plant biotechnology journal》2014,12(9):1231-1245
In the past few years, the usefulness of transient expression assays has continuously increased for the characterization of unknown gene function and metabolic pathways. In grapevine (Vitis vinifera L.), one of the most economically important fruit crops in the world, recent systematic sequencing projects produced many gene data sets that require detailed analysis. Due to their rapid nature, transient expression assays are well suited for large‐scale genetic studies. Although genes and metabolic pathways of any species can be analysed by transient expression in model plants, a need for homologous systems has emerged to avoid the misinterpretation of results due to a foreign genetic background. Over the last 10 years, various protocols have thus been developed to apply this powerful technology to grapevine. Using cell suspension cultures, somatic embryos, leaves or whole plantlets, transient expression assays enabled the study of the function, regulation and subcellular localization of genes involved in specific metabolic pathways such as the biosynthesis of phenylpropanoids. Disease resistance genes that could be used for marker‐assisted selection in conventional breeding or for stable transformation of elite cultivars have also been characterized. Additionally, transient expression assays have proved useful for shaping new tools for grapevine genetic improvement: synthetic promoters, silencing constructs, minimal linear cassettes or viral vectors. This review provides an update on the different tools (DNA constructs, reporter genes, vectors) and methods (Agrobacterium‐mediated and direct gene transfer methods) available for transient gene expression in grapevine. The most representative results published thus far are then described. 相似文献
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Transcriptome‐wide comparison of selenium hyperaccumulator and nonaccumulator Stanleya species provides new insight into key processes mediating the hyperaccumulation syndrome
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Jiameng Wang Jennifer J. Cappa Jonathan P. Harris Patrick P. Edger Wen Zhou J. Chris Pires Michael Adair Sarah A. Unruh Mark P. Simmons Michela Schiavon Elizabeth A. H. Pilon‐Smits 《Plant biotechnology journal》2018,16(9):1582-1594
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Apium graveolens L. plants showing stunting, purplish/whitening of new leaves, flower abnormalities and bushy tops were observed in South Bohemia (Czech Republic) during 2011 and 2012. Transmission electron microscopy observations showed phytoplasmas in phloem sieve tube elements of symptomatic but not healthy plants. Polymerase chain reactions with universal and group‐specific phytoplasma primers followed by restriction fragment length polymorphism analyses and sequencing of 16S rDNA enabled classification of the detected phytoplasmas into the aster yellows group, ribosomal subgroup 16SrI‐C. Identical analyses of the ribosomal protein genes rpl22 and rps3 were used for further classification and revealed affiliation of the phytoplasmas with the rpIC subgroups. This is the first report of naturally occurring clover phyllody phytoplasma in A. graveolens in both the Czech Republic and worldwide. 相似文献
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