Whole-Genome Sequencing of <i>Flammulina filiformis</i> and Multi-Omics Analysis in Response to Low Temperature

Whole-Genome Sequencing of <i>Flammulina filiformis</i> and Multi-Omics Analysis in Response to Low Temperature

The growth of <i>Flammulina filiformis</i> is strongly dependent on low-temperature cues for the initiation of primordia formation. To obtain a comprehensive understanding of the molecular mechanisms that govern the mycelial response to cold stress, de novo genome sequencing of the <i...

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Bibliographic Details
Main Authors: Xinmin Liang, Jing Han, Yuqin Cui, Xueqin Shu, Mengting Lei, Bo Wang, Dinghong Jia, Weihong Peng, Xiaolan He, Xun Liu
Format: Article
Language:English
Published: MDPI AG 2025-03-01
Series:Journal of Fungi
Subjects:
<i>Flammulina filiformis</i>
whole-genome sequencing
transcriptome
metabolome
cold adaptation
Online Access:https://www.mdpi.com/2309-608X/11/3/229
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Summary:The growth of <i>Flammulina filiformis</i> is strongly dependent on low-temperature cues for the initiation of primordia formation. To obtain a comprehensive understanding of the molecular mechanisms that govern the mycelial response to cold stress, de novo genome sequencing of the <i>F. filiformis</i> monokaryon and multi-omics data (transcriptome and metabolome) analyses of the mycelia, primordia, and fruiting bodies were conducted in the present study. Genome sequencing based on PacBio HiFi and Hi-C resulted in a 36.3 Mb genome sequence that mapped to 12 chromosomes, comprising 11,886 protein-coding genes. A total of 25 cold-responsive (COR) genes and 520 cold-adapted enzymes were identified in the genome. Multi-omics analyses showed that the pathways related to carbohydrate metabolism in the mycelia under low temperature (10 °C) were significantly enriched. Further examination of the expression profiles of carbohydrate-active enzymes (CAZymes) involved in carbohydrate metabolism revealed that out of 515 CAZyme genes in <i>F. filiformis</i>, 58 were specifically upregulated in mycelia under low-temperature conditions. By contrast, the expression levels of these genes in primordia and fruiting bodies reverted to those prior to low-temperature exposure. These indicate that CAZyme genes are important for the low-temperature adaptation of <i>F. filiformis</i>. This research contributes to the targeted breeding of <i>F. filiformis</i>.
ISSN:2309-608X

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