scholarly article | Q13442814 |
P356 | DOI | 10.1111/J.1365-313X.2012.05012.X |
P698 | PubMed publication ID | 22463056 |
P2093 | author name string | Richard G F Visser | |
Yuling Bai | |||
Hans de Jong | |||
Sander A Peters | |||
José van de Belt | |||
Joachim W Bargsten | |||
Dóra Szinay | |||
P2860 | cites work | Genome sequence and analysis of the tuber crop potato | Q22122169 |
Gapped BLAST and PSI-BLAST: a new generation of protein database search programs | Q24545170 | ||
Chromosomal inversions and the reproductive isolation of species | Q24555146 | ||
Plant speciation | Q24647925 | ||
Prediction of complete gene structures in human genomic DNA | Q27860780 | ||
Tobacco to tomatoes: a phylogenetic perspective on fruit diversity in the Solanaceae | Q28203966 | ||
Sequencing and comparative analysis of a conserved syntenic segment in the Solanaceae | Q28757152 | ||
Genome rearrangements in mammalian evolution: lessons from human and mouse genomes | Q28775766 | ||
Comparing sequenced segments of the tomato and Arabidopsis genomes: large-scale duplication followed by selective gene loss creates a network of synteny | Q28776633 | ||
Comparison of AFLPs with Other Markers for Phylogenetic Inference in Wild Tomatoes [Solanum L. Section Lycopersicon (Mill.) Wettst.] | Q28959953 | ||
Repbase Update, a database of eukaryotic repetitive elements | Q29547460 | ||
Automatic clustering of orthologs and in-paralogs from pairwise species comparisons | Q29615401 | ||
Deductions about the number, organization, and evolution of genes in the tomato genome based on analysis of a large expressed sequence tag collection and selective genomic sequencing | Q30837037 | ||
Identification, analysis, and utilization of conserved ortholog set markers for comparative genomics in higher plants | Q30837046 | ||
The nematode-resistance gene, Mi-1, is associated with an inverted chromosomal segment in susceptible compared to resistant tomato. | Q31047739 | ||
Localization of jointless-2 gene in the centromeric region of tomato chromosome 12 based on high resolution genetic and physical mapping | Q33193202 | ||
Domestication and breeding of tomatoes: what have we gained and what can we gain in the future? | Q33295019 | ||
Comparative BAC end sequence analysis of tomato and potato reveals overrepresentation of specific gene families in potato | Q33327766 | ||
High-resolution chromosome mapping of BACs using multi-colour FISH and pooled-BAC FISH as a backbone for sequencing tomato chromosome 6. | Q33353604 | ||
Ecological and evolutionary genomics in the wild tomatoes (Solanum sect. Lycopersicon). | Q33364251 | ||
Conservation of gene repertoire but not gene order in pepper and tomato | Q33644470 | ||
Transposable element contributions to plant gene and genome evolution | Q33845509 | ||
Comparative sequence analysis of plant nuclear genomes:m microcolinearity and its many exceptions | Q33971721 | ||
It takes two transposons to tango: transposable-element-mediated chromosomal rearrangements | Q34069643 | ||
SynBrowse: a synteny browser for comparative sequence analysis | Q34430766 | ||
Mechanisms of chromosome number reduction in Arabidopsis thaliana and related Brassicaceae species. | Q34597115 | ||
Macrotransposition and other complex chromosomal restructuring in maize by closely linked transposons in direct orientation | Q34809735 | ||
Combining bioinformatics and phylogenetics to identify large sets of single-copy orthologous genes (COSII) for comparative, evolutionary and systematic studies: a test case in the euasterid plant clade | Q35176069 | ||
Candidate gene analysis of organ pigmentation loci in the Solanaceae. | Q35259799 | ||
Chromosome evolution in eukaryotes: a multi-kingdom perspective | Q36293593 | ||
Integration of cytogenetic and genetic linkage maps unveils the physical architecture of tomato chromosome 2. | Q36778023 | ||
Chromosomal evolution and speciation: a recombination-based approach | Q37012887 | ||
Alternative Ac/Ds transposition induces major chromosomal rearrangements in maize | Q37141803 | ||
Interspecific reproductive barriers in the tomato clade: opportunities to decipher mechanisms of reproductive isolation | Q37809493 | ||
Cross-species bacterial artificial chromosome-fluorescence in situ hybridization painting of the tomato and potato chromosome 6 reveals undescribed chromosomal rearrangements | Q38454421 | ||
Structural divergence of chromosomal segments that arose from successive duplication events in the Arabidopsis genome | Q39735181 | ||
LTR_FINDER: an efficient tool for the prediction of full-length LTR retrotransposons | Q41876467 | ||
Comparative genetic linkage map of Solanum sect. Juglandifolia: evidence of chromosomal rearrangements and overall synteny with the tomatoes and related nightshades | Q43679079 | ||
GRIMM: genome rearrangements web server | Q44543804 | ||
Major cytogenetic landmarks and karyotype analysis inDaucus carota and other Apiaceae | Q44545523 | ||
Solanum lycopersicum cv. Heinz 1706 chromosome 6: distribution and abundance of genes and retrotransposable elements. | Q45730899 | ||
Genetic mapping of the Tsw locus for resistance to the Tospovirus Tomato spotted wilt virus in Capsicum spp. and its relationship to the Sw-5 gene for resistance to the same pathogen in tomato. | Q45742190 | ||
Proceedings of the SMBE Tri-National Young Investigators' Workshop 2005. Genome-wide associations between hybrid sterility QTL and marker transmission ratio distortion | Q46125415 | ||
Comparative linkage map of the Solanum lycopersicoides and S. sitiens genomes and their differentiation from tomato | Q46732383 | ||
A new genetic linkage map of tomato based on a Solanum lycopersicum x S. pimpinellifolium RIL population displaying locations of candidate pathogen response genes. | Q50592131 | ||
Tomato chromosome 6: effect of alien chromosomal segments on recombinant frequencies. | Q51194278 | ||
Chromosomal inversion polymorphisms and adaptation. | Q52668116 | ||
Structural differences in chromosomes distinguish species in the tomato clade. | Q53318359 | ||
Mapping OI-4, a gene conferring resistance to Oidium neolycopersici and originating from Lycopersicon peruvianum LA2172, requires multi-allelic, single-locus markers. | Q53886757 | ||
Chloroplast DNA Evidence for the Interrelationships of Tomtoes, Potatoes, and Pepinos (Solanaceae) | Q55766295 | ||
Current Status Of Breeding Tomatoes For Salt And Drought Tolerance | Q57275978 | ||
FISH mapping and molecular organization of the major repetitive sequences of tomato | Q57443078 | ||
Development of SNP markers linked to the L locus in Capsicum spp. by a comparative genetic analysis | Q58003222 | ||
P433 | issue | 4 | |
P921 | main subject | Solanaceae | Q134172 |
P304 | page(s) | 602-614 | |
P577 | publication date | 2012-06-12 | |
P1433 | published in | The Plant Journal | Q15766987 |
P1476 | title | Structural homology in the Solanaceae: analysis of genomic regions in support of synteny studies in tomato, potato and pepper | |
P478 | volume | 71 |
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