Literature DB >> 11457984

Sequence and analysis of the tomato JOINTLESS locus.

L Mao1, D Begum, S A Goff, R A Wing.   

Abstract

A 119-kb bacterial artificial chromosome from the JOINTLESS locus on the tomato (Lycopersicon esculentum) chromosome 11 contained 15 putative genes. Repetitive sequences in this region include one copia-like LTR retrotransposon, 13 simple sequence repeats, three copies of a novel type III foldback transposon, and four putative short DNA repeats. Database searches showed that the foldback transposon and the short DNA repeats seemed to be associated preferably with genes. The predicted tomato genes were compared with the complete Arabidopsis genome. Eleven out of 15 tomato open reading frames were found to be colinear with segments on five Arabidopsis bacterial artificial chromosome/P1-derived artificial chromosome clones. The synteny patterns, however, did not reveal duplicated segments in Arabidopsis, where over half of the genome is duplicated. Our analysis indicated that the microsynteny between the tomato and Arabidopsis genomes was still conserved at a very small scale but was complicated by the large number of gene families in the Arabidopsis genome.

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Year:  2001        PMID: 11457984      PMCID: PMC116490          DOI: 10.1104/pp.126.3.1331

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  28 in total

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2.  Base-calling of automated sequencer traces using phred. II. Error probabilities.

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Journal:  Genome Res       Date:  1998-03       Impact factor: 9.043

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4.  Sequence and analysis of chromosome 2 of the plant Arabidopsis thaliana.

Authors:  X Lin; S Kaul; S Rounsley; T P Shea; M I Benito; C D Town; C Y Fujii; T Mason; C L Bowman; M Barnstead; T V Feldblyum; C R Buell; K A Ketchum; J Lee; C M Ronning; H L Koo; K S Moffat; L A Cronin; M Shen; G Pai; S Van Aken; L Umayam; L J Tallon; J E Gill; M D Adams; A J Carrera; T H Creasy; H M Goodman; C R Somerville; G P Copenhaver; D Preuss; W C Nierman; O White; J A Eisen; S L Salzberg; C M Fraser; J C Venter
Journal:  Nature       Date:  1999-12-16       Impact factor: 49.962

5.  Hairpin elements, the first family of foldback transposons (FTs) in Arabidopsis thaliana.

Authors:  J Adé; F J Belzile
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6.  A computer-based systematic survey reveals the predominance of small inverted-repeat elements in wild-type rice genes.

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7.  Rice transposable elements: a survey of 73,000 sequence-tagged-connectors.

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8.  Transposon diversity in Arabidopsis thaliana.

Authors:  Q H Le; S Wright; Z Yu; T Bureau
Journal:  Proc Natl Acad Sci U S A       Date:  2000-06-20       Impact factor: 11.205

9.  RFLP analysis of phylogenetic relationships and genetic variation in the genus Lycopersicon.

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Authors:  S B Hong; M L Tucker
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  18 in total

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2.  Characteristics of the tomato nuclear genome as determined by sequencing undermethylated EcoRI digested fragments.

Authors:  Y Wang; R S van der Hoeven; R Nielsen; L A Mueller; S D Tanksley
Journal:  Theor Appl Genet       Date:  2005-10-06       Impact factor: 5.699

3.  In-depth sequence analysis of the tomato chromosome 12 centromeric region: identification of a large CAA block and characterization of pericentromere retrotranposons.

Authors:  Tae-Jin Yang; Seunghee Lee; Song-Bin Chang; Yeisoo Yu; Hans de Jong; Rod A Wing
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4.  Genetic characterization of the polycotyledon locus in tomato.

Authors:  Kavitha Madishetty; P Bauer; M S Sharada; A S A Al-Hammadi; R Sharma
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Authors:  E van der Knaap; A Sanyal; S A Jackson; S D Tanksley
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6.  Euchromatin and pericentromeric heterochromatin: comparative composition in the tomato genome.

Authors:  Ying Wang; Xiaomin Tang; Zhukuan Cheng; Lukas Mueller; Jim Giovannoni; Steve D Tanksley
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7.  Deep sequencing of tomato short RNAs identifies microRNAs targeting genes involved in fruit ripening.

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8.  Complex organization and evolution of the tomato pericentromeric region at the FER gene locus.

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9.  Genome mapping and molecular breeding of tomato.

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10.  Microcollinearity in an ethylene receptor coding gene region of the Coffea canephora genome is extensively conserved with Vitis vinifera and other distant dicotyledonous sequenced genomes.

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Journal:  BMC Plant Biol       Date:  2009-02-25       Impact factor: 4.215
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