Complete plastome sequences of two Psidium species from the Galápagos Islands

We report the complete plastome sequences of an endemic and an unidentified species from the genus Psidium in the Galápagos Islands ( P. galapageium and Psidium sp. respectively).


Introduction
Over a quarter of all vascular plant species are endemic to islands, making them hotspots of plant diversity and conservation (Kreft et al., 2008). In the Galápagos Islands, there are roughly 560 native species of plants of which approximately 32% are endemic (Lawesson et al., 1987). However, many of these endemic species have remained relatively unstudied since they were originally given scientific descriptions, making the study of the evolutionary histories of these unique taxa difficult. In the present study, we constructed the complete plastome sequences of two species of Psidium (guava) from the Galápagos Islands, one endemic and one currently unidentified in hopes of facilitating future work on the evolutionary relationships of these species.

Methods
This research is authorized under the permit: MAE-DNB-CM-2016-004 in compliance with Ecuadorian regulations.
Leaf samples were collected during May of 2017 from the Galápagos endemic Psidium galapageium Hook (commonly known as guayabillo) on the island of San Cristobal (0.89094°S, 89.43769°W) and from an unidentified Psidium species on the island of Santa Cruz (0.62313°S, 90.38581°W). Based on morphological similarity, the Psidium sp. individual is suspected to be P. acidum (Landrum, 2016), but no reference or barcode sequence from P. acidum is available for confirmation.
Leaf tissue was desiccated immediately after harvesting using silica gel. DNA extractions were performed using a Qiagen DNeasy Plant mini kit (Qiagen, Inc.). Sequence data was generated in the form of paired-end, 150 bp reads using a KAPA library prep kit (Roche Sequencing) and sequenced on an Illumina HiSeq 4000 platform (Illumina, Inc.).
Reads were quality and adapter trimmed using Trim Galore! version 0.4.3 with a minimum phred score value of 20 and minimum read length of 50 bp. Filtered reads were then aligned to the Psidium guajava plastome reference available at NCBI (Accession: KX364403) using the mem function within BWA version 0.7.15 (Li & Durbin, 2009). Consensus plastome sequences were generated using the mpileup function within samtools version 1.8 followed by the call and consensus functions within bcftools with a minimum depth of coverage of 10x (Li et al., 2009). Using IRscope (Amiryousefi et al., 2018), the P. galapageium and Psidium sp. plastomes respectively were confirmed to contain a large single copy of 88,268 bp and 87,747 bp and a small single copy of 18,465 bp and 18,490 bp separated by two inverted repeats of 26,071 bp and 26,360 bp for total lengths of 158,875 bp and 158,957 bp (Figure 1).
Annotations were generated using the program Plann (Huang & Cronk, 2015). Of the 132 gene features annotated previously in the Psidium guajava (guava) chloroplast genome on NCBI (Accession: KX364403), all were recovered in the Psidium sp. and P. galapageium plastome sequences. The non-identity of the two taxa sampled is evidenced by the absolute pairwise sequence divergence of the concatenated sequences of three conserved genes (MatK, psbA, and rbcL) which have been successfully used as barcodes previously in Psidium (Kress et al., 2009). Sequences were aligned using MUSCLE within MEGA version 7.0.26 (Tamura et al., 2007), and the number of nucleotide differences were counted between these alignments to estimate divergence. A total of 35 differences were observed among 4011 sites (0.87% uncorrected divergence) between P. guajava (Accession: KX364403) and P. galapageium, 45 differences (1.1%) between P. guajava and Psidium sp., and 40 differences (0.99%) between P. galapageium and Psidium sp.

Data availability
Voucher specimens for P. galapageium and Psidium sp. are available at the Charles Darwin Research Station herbarium (Index Herbariorum code CDS) with accession numbers 3053515 and 3053562, respectively. The corresponding plastome sequences for P. galapageium and Psidium sp. are available at NCBI with accession numbers MH491846 and MH491847, respectively.

Competing interests
No competing interests were disclosed.

Grant information
This work was supported by a Louise Coker Fellowship from the University of North Carolina at Chapel Hill (UNC).
All funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.