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Draft genome of the wheat A-genome progenitor Triticum urartu (2013)

H. Q. Ling ; S. Zhao ; D. Liu ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 496(7443): 87-90. doi: 10.1038/nature11997.

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Publication Date: 2013-03-29

Description: Bread wheat (Triticum aestivum, AABBDD) is one of the most widely cultivated and consumed food crops in the world. However, the complex polyploid nature of its genome makes genetic and functional analyses extremely challenging. The A genome, as a basic genome of bread wheat and other polyploid wheats, for example, T. turgidum (AABB), T. timopheevii (AAGG) and T. zhukovskyi (AAGGA(m)A(m)), is central to wheat evolution, domestication and genetic improvement. The progenitor species of the A genome is the diploid wild einkorn wheat T. urartu, which resembles cultivated wheat more extensively than do Aegilops speltoides (the ancestor of the B genome) and Ae. tauschii (the donor of the D genome), especially in the morphology and development of spike and seed. Here we present the generation, assembly and analysis of a whole-genome shotgun draft sequence of the T. urartu genome. We identified protein-coding gene models, performed genome structure analyses and assessed its utility for analysing agronomically important genes and for developing molecular markers. Our T. urartu genome assembly provides a diploid reference for analysis of polyploid wheat genomes and is a valuable resource for the genetic improvement of wheat.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Ling, Hong-Qing -- Zhao, Shancen -- Liu, Dongcheng -- Wang, Junyi -- Sun, Hua -- Zhang, Chi -- Fan, Huajie -- Li, Dong -- Dong, Lingli -- Tao, Yong -- Gao, Chuan -- Wu, Huilan -- Li, Yiwen -- Cui, Yan -- Guo, Xiaosen -- Zheng, Shusong -- Wang, Biao -- Yu, Kang -- Liang, Qinsi -- Yang, Wenlong -- Lou, Xueyuan -- Chen, Jie -- Feng, Mingji -- Jian, Jianbo -- Zhang, Xiaofei -- Luo, Guangbin -- Jiang, Ying -- Liu, Junjie -- Wang, Zhaobao -- Sha, Yuhui -- Zhang, Bairu -- Wu, Huajun -- Tang, Dingzhong -- Shen, Qianhua -- Xue, Pengya -- Zou, Shenhao -- Wang, Xiujie -- Liu, Xin -- Wang, Famin -- Yang, Yanping -- An, Xueli -- Dong, Zhenying -- Zhang, Kunpu -- Zhang, Xiangqi -- Luo, Ming-Cheng -- Dvorak, Jan -- Tong, Yiping -- Wang, Jian -- Yang, Huanming -- Li, Zhensheng -- Wang, Daowen -- Zhang, Aimin -- Wang, Jun -- England -- Nature. 2013 Apr 4;496(7443):87-90. doi: 10.1038/nature11997. Epub 2013 Mar 24.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/23535596" target="_blank"〉PubMed〈/a〉

Keywords: Base Sequence ; Brachypodium/genetics ; Crops, Agricultural/classification/genetics ; Diploidy ; Genetic Markers/genetics ; Genome, Plant/*genetics ; Molecular Sequence Data ; Oryza/genetics ; Phylogeny ; Sorghum/genetics ; Synteny/genetics ; Triticum/classification/*genetics ; Zea mays/genetics

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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A mechanism of viral immune evasion revealed by cryo-EM analysis of the TAP transporter (2016)

M. L. Oldham ; R. K. Hite ; A. M. Steffen ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 529(7587): 537-40. doi: 10.1038/nature16506.

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Publication Date: 2016-01-21

Description: Cellular immunity against viral infection and tumour cells depends on antigen presentation by major histocompatibility complex class I (MHC I) molecules. Intracellular antigenic peptides are transported into the endoplasmic reticulum by the transporter associated with antigen processing (TAP) and then loaded onto the nascent MHC I molecules, which are exported to the cell surface and present peptides to the immune system. Cytotoxic T lymphocytes recognize non-self peptides and program the infected or malignant cells for apoptosis. Defects in TAP account for immunodeficiency and tumour development. To escape immune surveillance, some viruses have evolved strategies either to downregulate TAP expression or directly inhibit TAP activity. So far, neither the architecture of TAP nor the mechanism of viral inhibition has been elucidated at the structural level. Here we describe the cryo-electron microscopy structure of human TAP in complex with its inhibitor ICP47, a small protein produced by the herpes simplex virus I. Here we show that the 12 transmembrane helices and 2 cytosolic nucleotide-binding domains of the transporter adopt an inward-facing conformation with the two nucleotide-binding domains separated. The viral inhibitor ICP47 forms a long helical hairpin, which plugs the translocation pathway of TAP from the cytoplasmic side. Association of ICP47 precludes substrate binding and prevents nucleotide-binding domain closure necessary for ATP hydrolysis. This work illustrates a striking example of immune evasion by persistent viruses. By blocking viral antigens from entering the endoplasmic reticulum, herpes simplex virus is hidden from cytotoxic T lymphocytes, which may contribute to establishing a lifelong infection in the host.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Oldham, Michael L -- Hite, Richard K -- Steffen, Alanna M -- Damko, Ermelinda -- Li, Zongli -- Walz, Thomas -- Chen, Jue -- Howard Hughes Medical Institute/ -- England -- Nature. 2016 Jan 28;529(7587):537-40. doi: 10.1038/nature16506. Epub 2016 Jan 20.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉The Rockefeller University, 1230 York Avenue, New York, New York 10065, USA. ; Howard Hughes Medical Institute, 4000 Jones Bridge Road, Chevy Chase, Maryland 20815, USA. ; Department of Cell Biology, Harvard Medical School, 240 Longwood Avenue, Boston, Massachusetts 02115, USA.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/26789246" target="_blank"〉PubMed〈/a〉

Keywords: ATP-Binding Cassette Transporters/antagonists & ; inhibitors/chemistry/*metabolism/*ultrastructure ; Amino Acid Sequence ; Antigens, Viral/immunology/metabolism ; *Cryoelectron Microscopy ; Endoplasmic Reticulum/metabolism ; Herpesvirus 1, Human/chemistry/*immunology/metabolism/ultrastructure ; Immediate-Early Proteins/chemistry/*metabolism/*ultrastructure ; *Immune Evasion ; Models, Molecular ; Molecular Sequence Data ; Protein Binding ; Protein Conformation

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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Recoded organisms engineered to depend on synthetic amino acids (2015)

A. J. Rovner ; A. D. Haimovich ; S. R. Katz ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 518(7537): 89-93. doi: 10.1038/nature14095.

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Publication Date: 2015-01-22

Description: Genetically modified organisms (GMOs) are increasingly used in research and industrial systems to produce high-value pharmaceuticals, fuels and chemicals. Genetic isolation and intrinsic biocontainment would provide essential biosafety measures to secure these closed systems and enable safe applications of GMOs in open systems, which include bioremediation and probiotics. Although safeguards have been designed to control cell growth by essential gene regulation, inducible toxin switches and engineered auxotrophies, these approaches are compromised by cross-feeding of essential metabolites, leaked expression of essential genes, or genetic mutations. Here we describe the construction of a series of genomically recoded organisms (GROs) whose growth is restricted by the expression of multiple essential genes that depend on exogenously supplied synthetic amino acids (sAAs). We introduced a Methanocaldococcus jannaschii tRNA:aminoacyl-tRNA synthetase pair into the chromosome of a GRO derived from Escherichia coli that lacks all TAG codons and release factor 1, endowing this organism with the orthogonal translational components to convert TAG into a dedicated sense codon for sAAs. Using multiplex automated genome engineering, we introduced in-frame TAG codons into 22 essential genes, linking their expression to the incorporation of synthetic phenylalanine-derived amino acids. Of the 60 sAA-dependent variants isolated, a notable strain harbouring three TAG codons in conserved functional residues of MurG, DnaA and SerS and containing targeted tRNA deletions maintained robust growth and exhibited undetectable escape frequencies upon culturing approximately 10(11) cells on solid media for 7 days or in liquid media for 20 days. This is a significant improvement over existing biocontainment approaches. We constructed synthetic auxotrophs dependent on sAAs that were not rescued by cross-feeding in environmental growth assays. These auxotrophic GROs possess alternative genetic codes that impart genetic isolation by impeding horizontal gene transfer and now depend on the use of synthetic biochemical building blocks, advancing orthogonal barriers between engineered organisms and the environment.〈br /〉〈br /〉〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4590768/" target="_blank"〉〈img src="https://static.pubmed.gov/portal/portal3rc.fcgi/4089621/img/3977009" border="0"〉〈/a〉 〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4590768/" target="_blank"〉This paper as free author manuscript - peer-reviewed and accepted for publication〈/a〉〈br /〉〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Rovner, Alexis J -- Haimovich, Adrian D -- Katz, Spencer R -- Li, Zhe -- Grome, Michael W -- Gassaway, Brandon M -- Amiram, Miriam -- Patel, Jaymin R -- Gallagher, Ryan R -- Rinehart, Jesse -- Isaacs, Farren J -- K01 DK089006/DK/NIDDK NIH HHS/ -- T32 GM007205/GM/NIGMS NIH HHS/ -- T32GM07205/GM/NIGMS NIH HHS/ -- England -- Nature. 2015 Feb 5;518(7537):89-93. doi: 10.1038/nature14095. Epub 2015 Jan 21.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉1] Department of Molecular, Cellular and Developmental Biology, Yale University, New Haven, Connecticut 06520, USA [2] Systems Biology Institute, Yale University, West Haven, Connecticut 06516, USA. ; 1] Systems Biology Institute, Yale University, West Haven, Connecticut 06516, USA [2] Department of Cellular and Molecular Physiology, Yale University, New Haven, Connecticut 06520, USA.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/25607356" target="_blank"〉PubMed〈/a〉

Keywords: Amino Acids/*chemical synthesis/chemistry/metabolism/*pharmacology ; Amino Acyl-tRNA Synthetases/genetics/metabolism ; Catalytic Domain/genetics ; Codon/genetics ; Containment of Biohazards/*methods ; Culture Media/chemistry/pharmacology ; Environment ; Escherichia coli/cytology/*drug effects/*genetics/metabolism ; Escherichia coli Proteins/biosynthesis/chemistry/genetics/metabolism ; Evolution, Molecular ; Gene Transfer, Horizontal/genetics ; Genes, Essential/genetics ; Genetic Code/genetics ; Genetic Engineering/methods ; Genome, Bacterial/genetics ; Microbial Viability/*drug effects/genetics ; Molecular Sequence Data ; Organisms, Genetically Modified/genetics/growth & development/metabolism ; Peptide Termination Factors/genetics ; Phenylalanine/chemistry/metabolism ; Protein Multimerization/genetics ; RNA, Transfer/genetics ; Synthetic Biology/*methods

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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