Literature DB >> 15514044

Deletion mapping of homoeologous group 6-specific wheat expressed sequence tags.

H S Randhawa1, M Dilbirligi, D Sidhu, M Erayman, D Sandhu, S Bondareva, S Chao, G R Lazo, O D Anderson, J P Gustafson, B Echalier, L L Qi, B S Gill, E D Akhunov, J Dvorák, A M Linkiewicz, A Ratnasiri, J Dubcovsky, C E Bermudez-Kandianis, R A Greene, M E Sorrells, E J Conley, J A Anderson, J H Peng, N L V Lapitan, K G Hossain, V Kalavacharla, S F Kianian, M S Pathan, H T Nguyen, T R Endo, T J Close, P E McGuire, C O Qualset, K S Gill.   

Abstract

To localize wheat (Triticum aestivum L.) ESTs on chromosomes, 882 homoeologous group 6-specific ESTs were identified by physically mapping 7965 singletons from 37 cDNA libraries on 146 chromosome, arm, and sub-arm aneuploid and deletion stocks. The 882 ESTs were physically mapped to 25 regions (bins) flanked by 23 deletion breakpoints. Of the 5154 restriction fragments detected by 882 ESTs, 2043 (loci) were localized to group 6 chromosomes and 806 were mapped on other chromosome groups. The number of loci mapped was greatest on chromosome 6B and least on 6D. The 264 ESTs that detected orthologous loci on all three homoeologs using one restriction enzyme were used to construct a consensus physical map. The physical distribution of ESTs was uneven on chromosomes with a tendency toward higher densities in the distal halves of chromosome arms. About 43% of the wheat group 6 ESTs identified rice homologs upon comparisons of genome sequences. Fifty-eight percent of these ESTs were present on rice chromosome 2 and the remaining were on other rice chromosomes. Even within the group 6 bins, rice chromosomal blocks identified by 1-6 wheat ESTs were homologous to up to 11 rice chromosomes. These rice-block contigs were used to resolve the order of wheat ESTs within each bin.

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Year:  2004        PMID: 15514044      PMCID: PMC1448826          DOI: 10.1534/genetics.104.034843

Source DB:  PubMed          Journal:  Genetics        ISSN: 0016-6731            Impact factor:   4.562


  40 in total

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Journal:  Genetics       Date:  2004-01       Impact factor: 4.562

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Authors:  J A Anderson; Y Ogihara; M E Sorrells; S D Tanksley
Journal:  Theor Appl Genet       Date:  1992-05       Impact factor: 5.699

4.  The distribution of genes in the genomes of Gramineae.

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Journal:  Proc Natl Acad Sci U S A       Date:  1997-06-24       Impact factor: 11.205

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Journal:  Biochem Genet       Date:  1974-10       Impact factor: 1.890

6.  Identification and high-density mapping of gene-rich regions in chromosome group 1 of wheat.

Authors:  K S Gill; B S Gill; T R Endo; T Taylor
Journal:  Genetics       Date:  1996-12       Impact factor: 4.562

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Journal:  Science       Date:  2002-04-05       Impact factor: 47.728

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Journal:  Genetics       Date:  2004-10       Impact factor: 4.562

9.  Structural evolution of wheat chromosomes 4A, 5A, and 7B and its impact on recombination.

Authors:  K M Devos; J Dubcovsky; J Dvořák; C N Chinoy; M D Gale
Journal:  Theor Appl Genet       Date:  1995-07       Impact factor: 5.699

10.  A barley RFLP map: alignment of three barley maps and comparisons to Gramineae species.

Authors:  J D Sherman; A L Fenwick; D M Namuth; N L Lapitan
Journal:  Theor Appl Genet       Date:  1995-09       Impact factor: 5.699
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  19 in total

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2.  Evolution of Gene Expression Balance Among Homeologs of Natural Polyploids.

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5.  Wheat genome structure: translocations during the course of polyploidization.

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6.  Single-copy genes define a conserved order between rice and wheat for understanding differences caused by duplication, deletion, and transposition of genes.

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7.  Structural characterization of Brachypodium genome and its syntenic relationship with rice and wheat.

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10.  A molecular-cytogenetic method for locating genes to pericentromeric regions facilitates a genomewide comparison of synteny between the centromeric regions of wheat and rice.

Authors:  Lili Qi; Bernd Friebe; Peng Zhang; Bikram S Gill
Journal:  Genetics       Date:  2009-09-21       Impact factor: 4.562
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