Divergence of two cultivated allotetraploid cottons unveiled by single-molecule long-read expression sequencing

Yan Hu , Jiedan Chen , Lei Fang , Fan Dai , Gaofu Mei , Qiong Wang , Tianzhen Zhang
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引用次数: 1

Abstract

Allotetraploid Gossypium hirsutum and G. barbadense are two major cultivated cotton species that have different fiber traits. Research into the molecular basis of those differences is limited by a lack of accurate, complete transcript profiles. Here we adopted joint PacBio Iso-seq and RNA-seq to investigate genome-wide transcript profiles and uncover differences in the expression between G. hirsutum acc. TM-1 and G. barbadense cv. Hai7124. We obtained 178,867 full-length transcripts covering 60.0% of gene loci in the TM-1 reference annotation, including 7846 transcription factors and 3122 lncRNAs. Moreover, we identified 304 and 610 high-confidence (HC) species-specific transcripts in TM-1 and Hai7124, respectively, along with 4156 and 4381 tissue-specific transcripts. Our results update the reference genome annotation and also provide potential resources for studying the molecular mechanisms of fiber development. We are thus able to promote improvements in cotton fiber quality.

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单分子长读表达测序揭示了两种栽培异源四倍体棉花的分化
异源四倍体棉花(Gossypium hirsutum)和巴氏棉(G. barbadense)是两种具有不同纤维性状的主要栽培品种。由于缺乏准确、完整的转录谱,对这些差异的分子基础的研究受到限制。本研究采用PacBio Iso-seq和RNA-seq联合方法,研究了全基因组转录谱,揭示了毛毛草在不同基因型间的表达差异。TM-1和g.b barbadense cv。Hai7124。我们获得了178,867个全长转录本,覆盖了TM-1参考注释中60.0%的基因位点,包括7846个转录因子和3122个lncrna。此外,我们在TM-1和Hai7124中分别鉴定出304个和610个高可信度(HC)种特异性转录本,以及4156个和4381个组织特异性转录本。我们的结果更新了参考基因组注释,也为研究纤维发育的分子机制提供了潜在的资源。这样我们就能促进棉纤维质量的提高。
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