Abstract
The planting of Pinus elliottii Engelm. has now reached close to three million ha in China. Molecular breeding as part of the improvement program for P. elliottii in southern China has been carried out in recent years. Third-generation sequencing (Pacbio sequencing technology, TGS) was used to obtain the exome of P. elliottii for molecular breeding. A total of 35.8 Gb clean reads were generated using TGS. After removing the redundant reads, we obtained 80,339 high-accuracy transcripts. Significantly, a total of 76,411 transcripts (95.1%) were blasted to public annotation databases. We predicted 65,062 intact coding sequences (CDSs), 8916 alternative splicing events, 1937 long non-coding RNAs, and 22,109 simple sequence repeats (SSRs) based on these obtained transcripts. Using the public databases and the data obtained above, 23 orthologous single-copy genes were identified to analyze the phylogenetic relationships for Pinus firstly including P. elliottii. Many positive selection genes involved in important biological processes and metabolism pathways were identified between P. elliottii and other pines. These positive selection genes could be candidate genes to be researched on the genetic basis of superior performance. Our study is the first to reveal the full-length and well-annotated transcripts of P. elliottii, which could provide reference for short transcriptome sequences in the research of genetics, phylogenetics, and genetic improvement for the non-reference genome species.
Highlights
Slash pine (Pinus elliottii Engelm.) is a pine species of primary importance that is planted in industrial plantations of timber forests around the world
Third-Generation Sequencing of the Full-Length Transcriptome and the Second-Generation Sequencing
The lack of a sequencing with Pacific BioSciences (PacBio) SMRT was supplemented by applying second-generation sequencing (SGS) technologies
Summary
Slash pine (Pinus elliottii Engelm.) is a pine species of primary importance that is planted in industrial plantations of timber forests around the world. This species provides important resources for people, such as timber, resins, and paper [1,2]. As a part of this improvement program, has been carried out in recent years. It is very important for tree molecular breeders to understand the genetic basis of key biological processes, complex phenotype trait variation, and biological evolution
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