# Identification and Transcriptomic Analyses of Two Endophytic Fungi WDR2 and WDR5 from Wild Soybean Elucidates Mechanistic Aspects of Alkali Stress Tolerance

**Authors:** Jiali Tian, Xuan Liu, Shixi Lu, Xuan Dong, Yujie Chen, Siqi Hou, Tianyu Lei, Xinyu Li, Ruixin Cao, Yue Su, Xiaodong Ding, Qiang Li, Jialei Xiao

PMC · DOI: 10.3390/jof12020114 · Journal of Fungi · 2026-02-05

## TL;DR

This study identifies two fungi from wild soybean that help plants tolerate alkaline soil stress, offering insights into how these fungi adapt and improve crop resilience.

## Contribution

The study identifies two novel alkali-tolerant endophytic fungi and reveals their distinct molecular adaptation strategies to alkaline stress.

## Key findings

- WDR2 and WDR5 are alkali-tolerant endophytic fungi that promote plant growth under stress.
- Transcriptomic analysis reveals strain-specific and shared mechanisms for alkali stress adaptation.
- The fungi show potential as bio-inoculants to improve crop productivity in alkaline soils.

## Abstract

Soil alkalinization constitutes a significant abiotic stress factor that severely constrains global agricultural productivity. The application of alkali-tolerant endophytes represents a promising strategy for enhancing crop resilience. This study focused on the isolation and characterization of alkali-resistant endophytic fungi derived from wild soybean (Glycine soja), aiming to elucidate their potential in promoting host plant growth and to investigate their molecular responses to alkali stress. From an initial collection of 39 wild soybean endophytic fungal isolates, 12 strains demonstrated significant alkali tolerance, as evidenced by increased mycelial dry weight under both mild and intense alkali stress. Among these, two strains, designated WDR2 and WDR5, demonstrated particularly pronounced biomass enhancement and were taxonomically identified as Fusarium verticillioides through comprehensive morphological and molecular analyses. Subsequent inoculation assays conducted on maize (Zea mays) revealed that both fungal strains significantly alleviated the inhibitory effects of alkali stress on root system architecture. Comparative evaluations in soybean indicated that the growth-promoting effects of these endophytes were host-specific and varied according to fungal strain, stress intensity, and inoculation timing. Transcriptomic profiling via RNA-Seq under mild alkali stress identified 589 and 182 differentially expressed genes (DEGs) in WDR2 and WDR5, respectively, with only 43 DEGs shared between the two strains, indicating largely strain-specific transcriptional adaptations. Functional enrichment analysis revealed several shared mechanisms underlying alkaline adaptation in both fungi species, including the maintenance of ion homeostasis, remodeling of the cell wall, and regulation of protein complex assembly and oxidative stress responses. Moreover, distinct metabolic adaptations were identified: WDR2 exhibited significant enrichment in cellular integrity and modulation of membrane-related processes, as well as amino sugar and nucleotide sugar metabolism pathways. In contrast, WDR5 was enriched in phosphate ion transport and related transporter functions, glycerol kinase activity, and glycerolipid and glutathione metabolism. In summary, this study successfully identified two novel alkali-tolerant wild soybean endophytic fungi, WDR2 and WDR5. The results provide valuable insights into their divergent molecular adaptation strategies and highlight their potential application as bio-inoculants to enhance crop productivity in alkaline soils.

## Linked entities

- **Species:** Glycine soja (taxon 3848), Zea mays (taxon 4577), Fusarium verticillioides (taxon 117187)

## Full-text entities

- **Diseases:** fungal (MESH:D009181), injury to (MESH:D014947), Alkali Tolerance (MESH:D006934), toxicity (MESH:D064420), infections (MESH:D007239)
- **Chemicals:** lipid (MESH:D008055), Alkali (MESH:D000468), nucleotide (MESH:D009711), purine (MESH:C030985), Na2CO3 (MESH:C005686), agarose (MESH:D012685), IP3 (MESH:D015544), phospholipids (MESH:D010743), Glutathione (MESH:D005978), D-mannitol (MESH:D008353), glucose (MESH:D005947), Galactose (MESH:D005690), ROS (MESH:D017382), ascorbate (MESH:D001205), hydrogen (MESH:D006859), K+ (MESH:D011188), salt (MESH:D012492), phosphate (MESH:D010710), Na+ (MESH:D012964), IP1 (-), metal (MESH:D008670), NaHCO3 (MESH:D017693), Amino sugar (MESH:D000606), Mannose (MESH:D008358), chitin (MESH:D002686), agar (MESH:D000362), glucan (MESH:D005936), N-acetylglucosamine (MESH:D000117), carbohydrate (MESH:D002241), saturated fatty acids (MESH:D005227), polysaccharide (MESH:D011134), polyol (MESH:C024617), CTAB (MESH:D000077286), Thiamine (MESH:D013831), amino acid (MESH:D000596), UDP-glucose (MESH:D014532), heme (MESH:D006418)
- **Species:** Endocarpon pusillum (species) [taxon 364733], Hordeum bogdanii (species) [taxon 4515], Dendrobium moniliforme (species) [taxon 142614], Glycine soja (wild soybean, species) [taxon 3848], Mycosarcoma maydis (corn smut, species) [taxon 5270], Fusarium sp. (species) [taxon 29916], Fungi (kingdom) [taxon 4751], Glycine max (soybean, species) [taxon 3847], Diplosphaera chodatii (species) [taxon 152768], Fusarium verticillioides (species) [taxon 117187], Homo sapiens (human, species) [taxon 9606], Fusarium proliferatum (species) [taxon 948311], Zea mays (maize, species) [taxon 4577]
- **Cell lines:** Y6L-14 — Mus musculus (Mouse), Factor-dependent cell line (CVCL_5U28), Z1L — Rattus norvegicus (Rat), Spontaneously immortalized cell line (CVCL_JY50)

## Full text

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## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12941395/full.md

## References

31 references — full list in the complete paper: https://tomesphere.com/paper/PMC12941395/full.md

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Source: https://tomesphere.com/paper/PMC12941395