Mengjie Liang scite author profile

Mengjie Liang

3Publications

0Citation Statements Received

71Citation Statements Given

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Huazhong Agricultural University

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Genomic Resources of Broomcorn Millet: Demonstration and Application of a High-throughput BAC Mapping Pipeline

Liang

Wang

et al. 2020

Preprint

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BackgroundWith high-efficient water-use and drought tolerance, broomcorn millet has emerged as candidate for food security. To promote its research process for molecular breeding and functional research, a comprehensive genome resources is of great important.ResultsHerein, we constructed the first BAC library for broomcorn millet, generated BAC end sequences and integrated BAC clones into genome by a novel pipeline for BAC end profiling depending on clone-array pooled shotgun sequencing strategy and Illumina sequencing technology. The BAC library is consisted of 76,023 clones with average insert length of 123.48 Kb, about 9.9x coverage of 850 Mb genome. Then, 8262 of 9216 clones were mapped on broomcorn millet cultivar longmi4 genome using our pipeline. Furthermore, we also extracted and assembled unmapped reads against longmi4 genome. A total of 135 deletion sequences, 64 specific sequences and some sample contamination sequences were identified.ConclusionsBAC clones in this library can be browsed and obtained from our website (http://flyinguineapig.com/gresource/JBrowse-1.16.5/index.html). This pipeline designed for BAC end profiling can greatly reduce the cost of acquiring BAC end sequences and shorten the period of the experiment compared with the Sanger sequencing method. These high-quality BAC clones related with genome in this study provide a useful and convinient genomic resource for genome gap filling, complex segment sequencing, FISH, functional research, and genetic engineering.

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Genomic resources of broomcorn millet: demonstration and application of a high-throughput BAC mapping pipeline

Liang

Yang

et al. 2021

BMC Genom Data

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Background With high-efficient water-use and drought tolerance, broomcorn millet has emerged as a candidate for food security. To promote its research process for molecular breeding and functional research, a comprehensive genome resource is of great importance. Results Herein, we constructed a BAC library for broomcorn millet, generated BAC end sequences based on the clone-array pooled shotgun sequencing strategy and Illumina sequencing technology, and integrated BAC clones into genome by a novel pipeline for BAC end profiling. The BAC library consisted of 76,023 clones with an average insert length of 123.48 Kb, covering about 9.9-fold of the 850 Mb genome. Of 9216 clones tested using our pipeline, 8262 clones were mapped on the broomcorn millet cultivar longmi4 genome. These mapped clones covered 308 of the 829 gaps left by the genome. To our knowledge, this is the only BAC resource for broomcorn millet. Conclusions We constructed a high-quality BAC libraray for broomcorn millet and designed a novel pipeline for BAC end profiling. BAC clones can be browsed and obtained from our website (http://eightstarsbio.com/gresource/JBrowse-1.16.5/index.html). The high-quality BAC clones mapped on genome in this study will provide a powerful genomic resource for genome gap filling, complex segment sequencing, FISH, functional research and genetic engineering of broomcorn millet.

show abstract

Genomic Resources of Broomcorn Millet: Demonstration and Application of a High-throughput BAC Mapping Pipeline

Liang

Yang

et al. 2021

Preprint

View full text Add to dashboard Cite

Background: With high-efficient water-use and drought tolerance, broomcorn millet has emerged as a candidate for food security. To promote its research process for molecular breeding and functional research, a comprehensive genome resource is of great importance. Results: Herein, we constructed a BAC library for broomcorn millet, generated BAC end sequences based on the clone-array pooled shotgun sequencing strategy and Illumina sequencing technology, and integrated BAC clones into genome by a novel pipeline for BAC end profiling. The BAC library is consisted of 76,023 clones with an average insert length of 123.48 Kb, covering about 9.9-fold of the 850 Mb genome. Of 9,216 clones tested using our pipeline, 8,262 clones were mapped on the broomcorn millet cultivar longmi4 genome. These mapped clones covered 308 of the 829 gaps left by the genome. To our knowledge, this is the only BAC resource for broomcorn millet.Conclusions: We constructed a high-quality BAC libraray for broomcorn millet and designed a novel pipeline for BAC end profiling. BAC clones can be browsed and obtained from our website (http://eightstarsbio.com/gresource/JBrowse-1.16.5/index.html). The high-quality BAC clones mapped on genome in this study will provide a powerful genomic resource for genome gap filling, complex segment sequencing, FISH, functional research, and genetic engineering of broomcorn millet.

show abstract

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Mengjie Liang

Genomic Resources of Broomcorn Millet: Demonstration and Application of a High-throughput BAC Mapping Pipeline

Genomic resources of broomcorn millet: demonstration and application of a high-throughput BAC mapping pipeline

Genomic Resources of Broomcorn Millet: Demonstration and Application of a High-throughput BAC Mapping Pipeline

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