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Single-pollen-cell sequencing for gamete-based phased diploid genome assembly in plants.


ABSTRACT: Genome assemblies from diploid organisms create mosaic sequences alternating between parental alleles, which can create erroneous gene models and other problems. In animals, a popular strategy to generate haploid genome-resolved assemblies has been the sampling of (haploid) gametes, and the advent of single-cell sequencing has further advanced such methods. However, several challenges for the isolation and amplification of DNA from plant gametes have limited such approaches in plants. Here, we combined a new approach for pollen protoplast isolation with a single-cell DNA amplification technique and then used a "barcoding" bioinformatics strategy to incorporate haploid-specific sequence data from 12 pollen cells, ultimately enabling the efficient and accurate phasing of the pear genome into its A and B haploid genomes. Beyond revealing that 8.12% of the genes in the pear reference genome feature mosaic assemblies and enabling a previously impossible analysis of allelic affects in pear gene expression, our new haploid genome assemblies provide high-resolution information about recombination during meiosis in pollen. Considering that outcrossing pear is an angiosperm species featuring very high heterozygosity, our method for rapidly phasing genome assemblies is potentially applicable to several yet-unsequenced outcrossing angiosperm species in nature.

SUBMITTER: Shi D 

PROVIDER: S-EPMC6836740 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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Single-pollen-cell sequencing for gamete-based phased diploid genome assembly in plants.

Shi Dongqing D   Wu Jun J   Tang Haibao H   Yin Hao H   Wang Hongtao H   Wang Ran R   Wang Runze R   Qian Ming M   Wu Juyou J   Qi Kaijie K   Xie Zhihua Z   Wang Zhiwen Z   Zhao Xiang X   Zhang Shaoling S  

Genome research 20191024 11


Genome assemblies from diploid organisms create mosaic sequences alternating between parental alleles, which can create erroneous gene models and other problems. In animals, a popular strategy to generate haploid genome-resolved assemblies has been the sampling of (haploid) gametes, and the advent of single-cell sequencing has further advanced such methods. However, several challenges for the isolation and amplification of DNA from plant gametes have limited such approaches in plants. Here, we c  ...[more]

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