Temporal microbiome changes in axolotl limb regeneration: Stage‐specific restructuring of bacterial and fungal communities with a Flavobacterium bloom during blastema proliferation

The intricate relationship between regeneration and microbiota has recently gained attention, spanning diverse model organisms. Axolotl (Ambystoma mexicanum) is a critically endangered salamander species and a model organism for regenerative and developmental biology. Despite its significance, a not...

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Veröffentlicht in:	Wound repair and regeneration 2024-11, Vol.32 (6), p.826-839
Hauptverfasser:	Altın, Hanne, Delice, Büşra, Yıldırım, Berna, Demircan, Turan, Yıldırım, Süleyman
Format:	Artikel
Sprache:	eng
Schlagworte:	Ambystoma mexicanum - microbiology Ambystoma mexicanum - physiology Animals axolotl Bacteria Extremities - microbiology Flavobacterium Flavobacterium - physiology Fungi limb microbiome Microbiota - physiology Original ‐regeneration Science regeneration Regeneration - physiology RNA, Ribosomal, 16S - genetics Wound Healing - physiology
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container_title	Wound repair and regeneration
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creator	Altın, Hanne Delice, Büşra Yıldırım, Berna Demircan, Turan Yıldırım, Süleyman
description	The intricate relationship between regeneration and microbiota has recently gained attention, spanning diverse model organisms. Axolotl (Ambystoma mexicanum) is a critically endangered salamander species and a model organism for regenerative and developmental biology. Despite its significance, a noticeable gap exists in understanding the interplay between axolotl regeneration and its microbiome. Here, we analyse in depth bacterial 16S rRNA amplicon dataset that we reported before as data resource and profile fungal community by sequencing ITS amplicons at the critical stages of limb regeneration (0–1–4–7–30–60 days post amputation, ‘dpa’). Results reveal a decline in richness and evenness in the course of limb regeneration, with bacterial community richness recovering beyond 30 dpa unlike fungi community. Beta diversity analysis reveals precise restructuring of the bacterial community along the three phases of limb regeneration, contrasting with less congruent changes in the fungal community. Temporal dynamics of the bacterial community highlight prevalent anaerobic bacteria in initiation phase and Flavobacterium bloom in the early phase correlating with limb blastema proliferation. Predicted functional analysis mirrors these shifts, emphasising a transition from amino acid metabolism to lipid metabolism control. Fungal communities shift from Blastomycota to Ascomycota dominance in the late regeneration stage. Our findings provide ecologically relevant insights into stage specific role of microbiome contributions to axolotl limb regeneration.
doi_str_mv	10.1111/wrr.13207
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Axolotl (Ambystoma mexicanum) is a critically endangered salamander species and a model organism for regenerative and developmental biology. Despite its significance, a noticeable gap exists in understanding the interplay between axolotl regeneration and its microbiome. Here, we analyse in depth bacterial 16S rRNA amplicon dataset that we reported before as data resource and profile fungal community by sequencing ITS amplicons at the critical stages of limb regeneration (0–1–4–7–30–60 days post amputation, ‘dpa’). Results reveal a decline in richness and evenness in the course of limb regeneration, with bacterial community richness recovering beyond 30 dpa unlike fungi community. Beta diversity analysis reveals precise restructuring of the bacterial community along the three phases of limb regeneration, contrasting with less congruent changes in the fungal community. 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subjects	Ambystoma mexicanum - microbiology Ambystoma mexicanum - physiology Animals axolotl Bacteria Extremities - microbiology Flavobacterium Flavobacterium - physiology Fungi limb microbiome Microbiota - physiology Original ‐regeneration Science regeneration Regeneration - physiology RNA, Ribosomal, 16S - genetics Wound Healing - physiology
title	Temporal microbiome changes in axolotl limb regeneration: Stage‐specific restructuring of bacterial and fungal communities with a Flavobacterium bloom during blastema proliferation
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