Plant genome sequence assembly in the era of long reads: Progress, challenges and future directions.
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Peer-reviewed
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Abstract
Third-generation long-read sequencing is transforming plant genomics. Oxford Nanopore Technologies and Pacific Biosciences are offering competing long-read sequencing technologies and enable plant scientists to investigate even large and complex plant genomes. Sequencing projects can be conducted by single research groups and sequences of smaller plant genomes can be completed within days. This also resulted in an increased investigation of genomes from multiple species in large scale to address fundamental questions associated with the origin and evolution of land plants. Increased accessibility of sequencing devices and user-friendly software allows more researchers to get involved in genomics. Current challenges are accurately resolving diploid or polyploid genome sequences and better accounting for the intra-specific diversity by switching from the use of single reference genome sequences to a pangenome graph.
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2632-8828
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Deutsche Forschungsgemeinschaft (436841671, VR132/4-1)
Chinese Academy of Sciences (XDA26030104)
National Natural Science Foundation of China (32070249)