自引率: 2.7%
被引量: 14836
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国人发稿量: 11
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Published by Elsevier Science. ISSN: 1369-5266.<br /><br />Current Opinion in Plant Biology contains: Over 70 reviews from leading international contributors Web alerts of hot sites Paper alert service - the latest exciting papers Evaluated reference lists for all articles Annual author and subject index Online Fully searchable Access back issues Numerous links Search and read all issues from the very latest back to the first, giving you access to your own reference library without leaving your desk. Save valuable time by exploring our links to MEDLINE and numerous websites. Check out contents and abstracts FREE
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Epigenetics and plant genome evolution.
Epigenetics was envisioned as a topic to inform evolutionary theory, but the interplay between epigenetics and evolution has received little attention. With the advent of high-throughput methods, it is now routine to measure the genome-wide distribution of epigenetic marks, and these genome-wide patterns are providing insights into evolutionary processes. For example, DNA methylation is associated with transposable element silencing but also with repression of the expression of nearby genes, perhaps caused by the spread of methylation into regulatory regions. This repressive effect, which is typically deleterious, is acted upon by purifying selection. These dynamics may also govern the outcome of hybridization and polyploid events by affecting homoeolog expression. Finally, genes are also often methylated, but the implications of genic methylation for plant gene and genome evolution are not yet characterized fully.
被引量:42 发表:1970
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Rarely successful polyploids and their legacy in plant genomes.
Polyploidy, or whole genome duplication, is recognized as an important feature of eukaryotic genome evolution. Among eukaryotes, polyploidy has probably had the largest evolutionary impact on vascular plants where many contemporary species are of recent polyploid origin. Genomic analyses have uncovered evidence of at least one round of polyploidy in the ancestry of most plants, fueling speculation that genome duplications lead to increases in net diversity. In spite of the frequency of ancient polyploidy, recent analyses have found that recently formed polyploid species have higher extinction rates than their diploid relatives. These results suggest that despite leaving a substantial legacy in plant genomes, only rare polyploids survive over the long term and most are evolutionary dead-ends.
被引量:- 发表:1970
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Orphan legume crops enter the genomics era!
Many of the world's most important food legumes are grown in arid and semi-arid regions of Africa and Asia, where crop productivity is hampered by biotic and abiotic stresses. Until recently, these crops have also suffered from a dearth of genomic and molecular-genetic resources and thus were 'orphans' of the genome revolution. However, the community of legume researchers has begun a concerted effort to change this situation. The driving force is a series of international collaborations that benefit from recent advances in genome sequencing and genotyping technologies. The focus of these activities is the development of genome-scale data sets that can be used in high-throughput approaches to facilitate genomics-assisted breeding in these legumes.
被引量:63 发表:1970
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Population, quantitative and comparative genomics of adaptation in forest trees.
High-throughput DNA sequencing and genotyping technologies have enabled a new generation of research in plant genetics where combined quantitative and population genetic approaches can be used to better understand the relationship between naturally occurring genotypic and phenotypic diversity. Forest trees are highly amenable to such studies because of their combined undomesticated and partially domesticated state. Forest geneticists are using association genetics to dissect complex adaptive traits and discover the underlying genes. In parallel, they are using resequencing of candidate genes and modern population genetics methods to discover genes under natural selection. This combined approach is identifying the most important genes that determine patterns of complex trait adaptation observed in many tree populations.
被引量:34 发表:1970
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Transposable elements and the plant pan-genomes.
The comparative sequencing of several grass genomes has revealed that transposable elements are largely responsible for extensive variation in both intergenic and local genic content, not only between closely related species but also among individuals within a species. These observations indicate that a single genome sequence might not reflect the entire genomic complement of a species, and prompted us to introduce the concept of the plant pan-genome, which includes core genomic features that are common to all individuals and a dispensable genome composed of partially shared and/or non-shared DNA sequence elements. Uncovering the intriguing nature of the dispensable genome, namely its composition, origin and function, represents a step forward towards an understanding of the processes that generate genetic diversity and phenotypic variation. The developing view of transcriptional regulation as a complex and modular system, in which long-range interactions and the involvement of transposable elements are frequently observed, lends support to the possibility of an important functional role for the dispensable genome and could make it less dispensable than previously thought.
被引量:96 发表:1970
