Utility of Low-Copy Nuclear Gene Sequences in Plant Phylogenetics

Low-copy nuclear genes in plants are a rich source of phylogenetic information. They hold a great potential to improve the robustness of phylogenetic reconstruction at all taxonomic levels, especially where universal markers such as cpDNA and nrDNA are unable to generate strong phylogenetic hypothes...

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Bibliographic Details
Published in:Critical reviews in biochemistry and molecular biology 2002, Vol.37 (3), p.121-147
Main Author: Sang, Tao
Format: Article
Language:English
Subjects:
Cell Nucleus - genetics
Cloning, Molecular
Gene Dosage
Genes, Duplicate - genetics
Genes, Plant - genetics
Phylogeny
Plant Cells
Plants - classification
Plants - genetics
Species Specificity
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Summary:Low-copy nuclear genes in plants are a rich source of phylogenetic information. They hold a great potential to improve the robustness of phylogenetic reconstruction at all taxonomic levels, especially where universal markers such as cpDNA and nrDNA are unable to generate strong phylogenetic hypotheses. Low-copy nuclear genes, however, remain underused in plant phylogenetic studies due to practical and theoretical complications in unraveling the evolutionary dynamics of nuclear gene families. The lack of the universal markers or universal PCR primers of low-copy nuclear genes has also hampered their phylogenetic utility. It has recently become clear that low-copy nuclear genes are particularly helpful in resolving close interspecific relationships and in reconstructing allopolyploidization in plants. Gene markers that are widely, if not universally, useful have begun to emerge. Although utilizing low-copy nuclear genes usually requires extra lab work such as designing PCR primers, PCR-cloning, and or Southern blotting, rapid accumulation of gene sequences in the databases and advances in cloning techniques have continued to make such studies more feasible. With the growing number of theoretical studies devoted to the gene tree and species tree problem, a solid foundation for reconstructing complex plant phylogenies based on multiple gene trees began to build. It is also realized increasingly that fast evolving introns of the low-copy nuclear genes will provide much needed phylogenetic information around the species boundary and allow us to address fundamental questions concerning processes of plant speciation. Phylogenetic and molecular evolutionary analyses of developmentally important genes will add a new dimension to systematic and evolutionary studies of plant diversity.
ISSN:1040-9238
1549-7798
DOI:10.1080/10409230290771474