Characterization of PEBP-like Genes and Function of Capebp1 and Capebp5 in Fruiting Body Regeneration in Cyclocybe aegerita

Author:

Tao Nan123,Cheng Bopu1,Ma Yuanhao123,Liu Ping123,Chai Hongmei123,Zhao Yongchang123ORCID,Chen Weimin123

Affiliation:

1. Biotechnology and Germplasm Resources Institute, Yunnan Academy of Agricultural Sciences, Kunming 650223, China

2. Yunnan Provincial Key Lab of Agricultural Biotechnology, Kunming 650223, China

3. Key Lab of Southwestern Crop Gene Resources and Germplasm Innovation, Ministry of Agriculture, Kunming 650223, China

Abstract

Phosphatidylethanolamine-binding proteins (PEBPs) play a crucial role in the growth and development of various organisms. Due to the low sequence similarity compared to plants, humans, and animals, the study of pebp genes in fungi has not received significant attention. The redifferentiation of fruiting bodies is exceedingly rare in fungal development. Hitherto, only a few studies have identified the Capebp2 gene as being associated with this phenomenon in Cyclocybe aegerita. Thus, exploring the role of pebp genes in fruiting body development is imperative. In the present study, four Capebp genes (Capebp1, Capebp3, Capebp4, and Capebp5) were cloned from the AC0007 strain of C. aegerita based on genome sequencing and gene prediction. The findings indicate that the pebp family, in C. aegerita, comprises a total of five genes. Moreover, the sequence similarity was low across the five CAPEBP protein sequences in C. aegerita, and only a few conserved sequences, such as HRY and RHF, were identical. Expression analyses revealed that, similarly to Capebp2, the four Capebp genes exhibit significantly higher expression levels in the fruiting bodies than in the mycelium. Furthermore, overexpressed and RNA interference Capebp1 or Capebp5 transformants were analyzed. The results demonstrate that overexpression of Capebp1 or Capebp5 could induce the regeneration of the lamella or fruiting body, whereas the knockdown of Capebp1 or Capebp5 could lead to the accelerated aging of fruiting bodies. These findings highlight a significant role of Capebp genes in the generation of C. aegerita fruiting bodies and provide a foundation for further exploration into their involvement in basidiomycete growth and development.

Funder

National Nature Science Foundation of China

Innovation Guidance and Scientific and Technological Enterprises Cultivation Plan of Yunnan proince

Pre-research Project of Yunnan Academy of Agricultural Sciences

Scientific Talents and platform plan of Yunnan province

Publisher

MDPI AG

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