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Open access publications by University of Delaware faculty, staff, postdocs, and graduate students at the Delaware Biotechnology Institute.
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Browsing Open Access Publications by Author "Arikit, Siwaret"
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Item Genome assembly with in vitro proximity ligation data and whole-genome triplication in lettuce(Nature Publishing Group, 2017-04-12) Reyes-Chin-Wo, Sebastian; Wang, Zhiwen; Yang, Xinhua; Kozik, Alexander; Arikit, Siwaret; Song, Chi; Xia, Liangfeng; Froenicke, Lutz; Lavelle, Dean O.; Truco, Marı´a-Jose´; Xia, Rui; Zhu, Shilin; Xu, Chunyan; Xu, Huaqin; Xu, Xun; Cox, Kyle; Korf, Ian; Meyers, Blake C.; Michelmore, Richard W.; Sebastian Reyes-Chin-Wo, Zhiwen Wang, Xinhua Yang, Alexander Kozik, Siwaret Arikit, Chi Song, Liangfeng Xia, Lutz Froenicke, Dean O. Lavelle, Marı´a-Jose´ Truco, Rui Xia, Shilin Zhu, Chunyan Xu, Huaqin Xu, Xun Xu, Kyle Cox, Ian Korf, Blake C. Meyers & Richard W. Michelmore; Arikit, Siwaret; Meyers, Blake CLettuce (Lactuca sativa) is a major crop and a member of the large, highly successful Compositae family of flowering plants. Here we present a reference assembly for the species and family. This was generated using whole-genome shotgun Illumina reads plus in vitro proximity ligation data to create large superscaffolds; it was validated genetically and superscaffolds were oriented in genetic bins ordered along nine chromosomal pseudomolecules. We identify several genomic features that may have contributed to the success of the family, including genes encoding Cycloidea-like transcription factors, kinases, enzymes involved in rubber biosynthesis and disease resistance proteins that are expanded in the genome. We characterize 21 novel microRNAs, one of which may trigger phasiRNAs from numerous kinase transcripts. We provide evidence for a whole-genome triplication event specific but basal to the Compositae. We detect 26% of the genome in triplicated regions containing 30% of all genes that are enriched for regulatory sequences and depleted for genes involved in defence.Item A new approach for annotation of transposable elements using small RNA mapping(Oxford University Press, 2015-03-15) El Baidouri, Moaine; Do Kim, Kyung; Abernathy, Brian; Arikit, Siwaret; Maumus, Florian; Panaud, Olivier; Meyers, Blake C.; Jackson, Scott A.; Moaine El Baidouri, Kyung Do Kim, Brian Abernathy, Siwaret Arikit, Florian Maumus, Olivier Panaud, Blake C. Meyers and Scott A. Jackson; Arikit, Siwaret; Meyers, Blake C. (orcid.org/0000-0003-3436-6097)Transposable elements (TEs) are mobile genomic DNA sequences found in most organisms. They so densely populate the genomes of many eukaryotic species that they are often the major constituents. With the rapid generation of many plant genome sequencing projects over the past few decades, there is an urgent need for improved TE annotation as a prerequisite for genome-wide studies. Analogous to the use of RNA-seq for gene annotation, we propose a new method for de novo TE annotation that uses as a guide 24 nt-siRNAs that are a part of TE silencing pathways. We use this new approach, called TASR (for Transposon Annotation using Small RNAs), for de novo annotation of TEs in Arabidopsis, rice and soybean and demonstrate that this strategy can be successfully applied for de novo TE annotation in plants.