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Journal Abstract Search

572 related items for PubMed ID: 18178768

  • 1. Identification and characterization of shared duplications between rice and wheat provide new insight into grass genome evolution.
    Salse J, Bolot S, Throude M, Jouffe V, Piegu B, Quraishi UM, Calcagno T, Cooke R, Delseny M, Feuillet C.
    Plant Cell; 2008 Jan; 20(1):11-24. PubMed ID: 18178768
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  • 2. Comparative DNA sequence analysis of mapped wheat ESTs reveals the complexity of genome relationships between rice and wheat.
    La Rota M, Sorrells ME.
    Funct Integr Genomics; 2004 Mar; 4(1):34-46. PubMed ID: 14740255
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  • 3. In silico comparative analysis reveals a mosaic conservation of genes within a novel colinear region in wheat chromosome 1AS and rice chromosome 5S.
    Guyot R, Yahiaoui N, Feuillet C, Keller B.
    Funct Integr Genomics; 2004 Mar; 4(1):47-58. PubMed ID: 14767678
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  • 4. Diverged copies of the seed regulatory Opaque-2 gene by a segmental duplication in the progenitor genome of rice, sorghum, and maize.
    Xu JH, Messing J.
    Mol Plant; 2008 Sep; 1(5):760-9. PubMed ID: 19825579
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  • 5. Sixty million years in evolution of soft grain trait in grasses: emergence of the softness locus in the common ancestor of Pooideae and Ehrhartoideae, after their divergence from Panicoideae.
    Charles M, Tang H, Belcram H, Paterson A, Gornicki P, Chalhoub B.
    Mol Biol Evol; 2009 Jul; 26(7):1651-61. PubMed ID: 19395588
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  • 6. The sequence of rice chromosomes 11 and 12, rich in disease resistance genes and recent gene duplications.
    Rice Chromosomes 11 and 12 Sequencing Consortia.
    BMC Biol; 2005 Sep 27; 3():20. PubMed ID: 16188032
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  • 7. Exploring the tertiary gene pool of bread wheat: sequence assembly and analysis of chromosome 5M(g) of Aegilops geniculata.
    Tiwari VK, Wang S, Danilova T, Koo DH, Vrána J, Kubaláková M, Hribova E, Rawat N, Kalia B, Singh N, Friebe B, Doležel J, Akhunov E, Poland J, Sabir JS, Gill BS.
    Plant J; 2015 Nov 27; 84(4):733-46. PubMed ID: 26408103
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  • 8. Intraspecific sequence comparisons reveal similar rates of non-collinear gene insertion in the B and D genomes of bread wheat.
    Bartoš J, Vlček C, Choulet F, Džunková M, Cviková K, Safář J, Simková H, Pačes J, Strnad H, Sourdille P, Bergès H, Cattonaro F, Feuillet C, Doležel J.
    BMC Plant Biol; 2012 Aug 30; 12():155. PubMed ID: 22935214
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  • 11. Recurrent sequence exchange between homeologous grass chromosomes.
    Wicker T, Wing RA, Schubert I.
    Plant J; 2015 Nov 30; 84(4):747-59. PubMed ID: 26408412
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  • 12. Sequence analysis of the long arm of rice chromosome 11 for rice-wheat synteny.
    Singh NK, Raghuvanshi S, Srivastava SK, Gaur A, Pal AK, Dalal V, Singh A, Ghazi IA, Bhargav A, Yadav M, Dixit A, Batra K, Gaikwad K, Sharma TR, Mohanty A, Bharti AK, Kapur A, Gupta V, Kumar D, Vij S, Vydianathan R, Khurana P, Sharma S, McCombie WR, Messing J, Wing R, Sasaki T, Khurana P, Mohapatra T, Khurana JP, Tyagi AK.
    Funct Integr Genomics; 2004 May 30; 4(2):102-17. PubMed ID: 15085449
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  • 14. Targeted analysis of orthologous phytochrome A regions of the sorghum, maize, and rice genomes using comparative gene-island sequencing.
    Morishige DT, Childs KL, Moore LD, Mullet JE.
    Plant Physiol; 2002 Dec 30; 130(4):1614-25. PubMed ID: 12481045
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  • 17. New in silico insight into the synteny between rice (Oryza sativa L.) and maize (Zea mays L.) highlights reshuffling and identifies new duplications in the rice genome.
    Salse J, Piégu B, Cooke R, Delseny M.
    Plant J; 2004 May 30; 38(3):396-409. PubMed ID: 15086801
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  • 18. Lr34 multi-pathogen resistance ABC transporter: molecular analysis of homoeologous and orthologous genes in hexaploid wheat and other grass species.
    Krattinger SG, Lagudah ES, Wicker T, Risk JM, Ashton AR, Selter LL, Matsumoto T, Keller B.
    Plant J; 2011 Feb 30; 65(3):392-403. PubMed ID: 21265893
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