# The First Complete Chloroplast Genome of Lycium shawii: Genomic Architecture, Molecular Phylogenetics and Evolutionary Insights

**Authors:** Manal Mohammed Ahmed Asiri, Mohammad Ajmal Ali, Mona Solaiman Alwahibi, Sheikh Sunzid Ahmed, M. Oliur Rahman, Rajesh Mahato, Mohammad Faisal, Soo‐Yong Kim, Joongku Lee

PMC · DOI: 10.1002/ece3.72972 · Ecology and Evolution · 2026-01-20

## TL;DR

This study sequenced the first complete chloroplast genome of Lycium shawii, a desert medicinal plant, providing insights into its structure, evolution, and potential for DNA barcoding.

## Contribution

The first complete chloroplast genome of Lycium shawii is reported, offering new genomic resources for evolutionary and comparative studies in Solanaceae.

## Key findings

- The chloroplast genome is 155,936 bp with 128 annotated genes, including 84 protein-coding genes.
- atpI, rbcL, and accD are identified as hypervariable loci suitable for DNA barcoding.
- Phylogenetic analysis places L. shawii within the tribe Lycieae, with an origin estimated at 1.40 million years ago.

## Abstract

Lycium shawii Roem. & Schult., a stress‐resilient medicinal plant native to the deserts of Saudi Arabia, possesses notable bioactive compounds used in traditional medicine for treating inflammation, oxidative stress, and other ailments. However, its chloroplast (Cp) genome has not previously been sequenced or described, limiting accurate molecular identification and phylogenetic resolution. In this study, we present the first complete Cp genome of 
L. shawii
. The plastome spans 155,936 bp and is organized into a large single‐copy (LSC) region (86,608 bp), a small single‐copy (SSC) region (18,430 bp), and two inverted repeats regions (IRA and IRB), each spanning 25,449 bp. A total of 128 genes were annotated, comprising 84 protein‐coding genes, 36 tRNAs, and eight rRNAs. Comparative genomic analyses revealed conservation of genome structure without major rearrangements across Solanaceae. Forty simple sequence repeats (SSRs) and 50 oligonucleotide repeats were identified, with mononucleotides (38) as the dominant SSR type, and forward repeats as the most common among longer repeats. RNA‐editing sites were unevenly distributed, with the highest proportion in the LSC region (48%), followed by the SSC (29%) and IRs (23%). Nucleotide diversity analysis highlighted atpI, rbcL, and accD within the LSC region as hypervariable loci suitable for DNA barcoding. Plastome‐wide phylogenetic reconstruction confirmed the placement of 
L. shawii
 within the tribe Lycieae of the subfamily Solanoideae. Molecular dating analysis suggested its emergence around 1.40 MYA, during the Calabrian stage of the Cenozoic era. This study provides the first Cp genome resource for 
L. shawii
, offering new perspectives for evolutionary and comparative genomics within Solanaceae.

The study presents the first complete chloroplast genome of Lycium shawii (PQ824997.1) spanning 155,936 bp and contains 128 genes (84 protein‐coding genes, 36 tRNAs, and eight rRNAs). Nucleotide diversity analysis highlighted atpI, rbcL, and accD as hypervariable loci suitable for DNA barcoding. Molecular dating analysis revealed that 
L. shawii
 originated around 1.40 MYA, during the Calabrian stage of the Cenozoic era.

## Linked entities

- **Genes:** ATP5IF1 (ATP synthase inhibitory factor subunit 1) [NCBI Gene 93974], rbcL (ribulose-1,5-bisphosphate carboxylase/oxygenase large subunit) [NCBI Gene 800305], accD (acetyl-CoA carboxylase beta subunit) [NCBI Gene 800114]
- **Species:** Lycium shawii (taxon 155082), Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** ATP5IF1 (ATP synthase inhibitory factor subunit 1) [NCBI Gene 93974] {aka ATPI, ATPIF1, ATPIP, IP}
- **Diseases:** inflammation (MESH:D007249)
- **Species:** Clostridium sp. ATCC 29733 (species) [taxon 1507], Lycium shawii (species) [taxon 155082]

## Full text

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## Figures

11 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12819175/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/PMC12819175/full.md

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Source: https://tomesphere.com/paper/PMC12819175