Maria Cedroni scite author profile

PCR recombination describes a process of in vitro chimera formation from non-identical templates. The key requirement of this process is the inclusion of two partially homologous templates in one reaction, a condition met when amplifying any locus from polyploid organisms and members of multigene families from diploid organisms. Because polyploids possess two or more divergent genomes ("homoeologues") in a common nucleus, intergenic chimeras can form during the PCR amplification of any gene. Here we report a high frequency of PCR-induced recombination for four low-copy genes from allotetraploid cotton ( Gossypium hirsutum). Amplification products from these genes ( Myb3, Myb5, G1262 and CesA1) range in length from 860 to 4,050 bp. Intergenomic recombinants were formed frequently, accounting for 23 of the 74 (31.1%) amplicons evaluated, with the frequency of recombination in individual reactions ranging from 0% to approximately 89%. Inspection of the putative recombination zones failed to reveal sequence-specific attributes that promote recombination. The high levels of observed in vitro recombination indicate that the tacit assumption of exclusive amplification of target templates may often be violated, particularly from polyploid genomes. This conclusion has profound implications for population and evolutionary genetic studies, where unrecognized artifactually recombinant molecules may bias results or alter interpretations.

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Generation and annotation of the DNA sequences of human chromosomes 2 and 4

Hillier

Graves

Fulton

et al. 2005

Nature

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Cedroni

Cronn

Adams

et al. 2003

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R2R3-MYB transcription factors have been implicated in a diversity of plant-specific processes. Among the functions attributed to myb factors is the determination of cell shape, including regulation of trichome length and density. Because myb transcription factors are likely to play a role in cotton fiber development, the molecular evolutionary properties of six MYB genes previously shown to be expressed in cotton fiber initiation were examined. In accordance with their presumed central role, each of the genes display conservative substitution patterns and limited sequence divergence in diploid members of the genus Gossypium, and this pattern is conserved in allotetraploid cottons. In contrast to highly reiterated rDNA repeats, GhMYB homologues (duplicated gene pairs) exhibit no evidence of concerted evolution, but instead appear to evolve independently in the allopolyploid nucleus. Expression patterns for the MYB genes were examined in several organs to determine if there have been changes in expression patterns between the diploids (G. raimondii and G. arboreum) and the tetraploid (G. hirsutum) or between the duplicated copies in the tetraploid. Spatial and temporal expression patterns appear to have been evolutionarily conserved, both during divergence of the diploid parents of allopolyploid cotton and following polyploid formation. However, the duplicated copies of MYB1 in the tetraploid are not expressed at equal levels or equivalently in all organs, suggesting possible functional differentiation.

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The evolution of myb transcription factors in Gossypium

Cedroni¹

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CHAPTER 1. INTRODUCTION Thesis Organization General Introduction History of the genus Gossypium 2 The impact of polyploidy on plant evolution 3 Myb transcription factors 4 Gene duplication and morphological evolution 5 Myb transcription factors in cotton 8 References 9 CHAPTER 2. EVOLUTION AND EXPRESSION OF MYB GENES IN DIPLOID AND POL YPLOID COTTON 12 Abstract 12 Introduction 12 Materials and Methods 15 Results 17 Discussion 21 Acknowledgments 23 References 23 CHAPTER 3. THE MYB MULTI GENE FAMILY IN A DIPLOID COTTON Gossypium arboreum L. Abstract Introduction Materials and Methods Results Discussion Acknowledgements References 42 CHAPTER 4. GENERAL CONCLUSIONS Characterization of the MYB gene family in plants 58 ACKNOWLEDGEMENTS 61 Lynch, M. and Force, A. (2000). The probability of duplicate gene preservation by subfunctionalization. Genetics. 154,459-473.

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Maria Cedroni

PCR-mediated recombination in amplification products derived from polyploid cotton

Generation and annotation of the DNA sequences of human chromosomes 2 and 4

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The evolution of myb transcription factors in Gossypium

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