# Identification and classification of Aquilaria (Thymelaeaceae): inferences from a phylogenetic study based on matK sequences

**Authors:** Zhaoqi Xie, Siqing Fan, Junyu Xu, Haijing Xiao, Jiaxin Yang, Min Guo, Chunsong Cheng

PMC · DOI: 10.7717/peerj.19752 · 2025-07-23

## TL;DR

This study uses DNA markers to clarify the classification of Aquilaria species, helping resolve market uncertainties and offering insights into their evolutionary history.

## Contribution

The study introduces matK molecular markers and trnL-trnF integration as a novel method for accurate Aquilaria species differentiation and classification.

## Key findings

- matK markers with eight polymorphic loci effectively differentiate Aquilaria species based on origin.
- Molecular clock analysis traces Aquilaria divergence to 6.78 million years ago and recent speciation of key commercial species.
- Gyrinops walla is reclassified within Aquilaria, challenging previous taxonomic assumptions.

## Abstract

In the realm of Aquilaria classification and grading, a persistent market uncertainty persists, questioning whether the basis should be geographical distribution or biological origin. In this study, the effectiveness of matK molecular markers, particularly through eight stable polymorphic loci (e.g., +249C for Chinese origin, +435G for Aquilaria sinensis), emerges as a decisive tool for differentiating Aquilaria species. The integration of matK and trnL-trnF not only validates this efficacy but also streamlines the systematic categorization of 34 agarwood products into four biogeographic pedigrees: Chinese (C1: A. sinensis; C2: A. malaccensis), Indonesian (A. cumingiana), and Indochinese (A. rugosa). Molecular clock analyses trace the genus’s divergence to 6.78 million years ago (Ma) (A. hirta), with recent speciation of commercially pivotal species (A. sinensis:  0.9 Ma; A. malaccensis:  1.0 Ma). Notably, the redefined placement of Gyrinops walla (5.75 Ma) within Aquilaria challenges prior taxonomic assumptions, suggesting revised genus boundaries. The Median-Joining network further visualized these haplotypes, showing key evolutionary transitions, particularly from A. crassna to A. rugosa and A. malaccensis. These findings provide robust tools for species differentiation, insights into evolutionary history, and practical guidance for conservation and trade applications within the field of botany.

## Linked entities

- **Genes:** MATK (megakaryocyte-associated tyrosine kinase) [NCBI Gene 4145]
- **Species:** Aquilaria sinensis (taxon 210372), Aquilaria malaccensis (taxon 223753), Aquilaria cumingiana (taxon 1767999), Aquilaria rugosa (taxon 314115), Aquilaria hirta (taxon 1040644), Aquilaria crassna (taxon 223751), Gyrinops walla (taxon 223760)

## Full-text entities

- **Genes:** matK [NCBI Gene 26836365]
- **Species:** Gyrinops walla (species) [taxon 223760], Aquilaria sinensis (species) [taxon 210372], Aquilaria malaccensis (species) [taxon 223753], Aquilaria crassna (species) [taxon 223751]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12296565/full.md

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Source: https://tomesphere.com/paper/PMC12296565