What can we do with 1000 plastid genomes?
|dc.identifier.citation||Tonti-Filippini, J. and Nevill, P. and Dixon, K. and Small, I. 2017. What can we do with 1000 plastid genomes? The Plant Journal.|
The plastid genome of plants is the smallest and most gene-rich of the three genomes in each cell and the one generally present in the highest copy number. As a result, obtaining plastid DNA sequence is a particularly cost-effective way of discovering genetic information about a plant. Until recently, the sequence information gathered in this way was generally limited to small portions of the genome amplified by PCR, but recent advances in sequencing technology have stimulated a substantial rate of increase in the sequencing of complete plastid genomes. Within the last year, the number of complete plastid genomes accessible in public sequence repositories has exceeded 1000. This sudden flood of data raises numerous challenges in data analysis and interpretation but also offers the keys to potential insights across large swathes of plant biology. We examine what has been learnt so far, what more could be learnt if we look at the data in the right way, and what we might gain from the tens of thousands more genome sequences that will surely arrive in the next few years. The most exciting new discoveries are likely to be made at the interdisciplinary interfaces between molecular biology and ecology.
|dc.title||What can we do with 1000 plastid genomes?|
|dcterms.source.title||The Plant Journal|
|curtin.department||Department of Environment and Agriculture|
|curtin.accessStatus||Fulltext not available|
Files in this item
There are no files associated with this item.