Target of Rapamycin Mediated Ornithine Decarboxylase Antizyme Modulate Intracellular Putrescine and Ganoderic Acid Content in Ganoderma lucidum-Reference-Cited by-同舟云学术

Target of Rapamycin Mediated Ornithine Decarboxylase Antizyme Modulate Intracellular Putrescine and Ganoderic Acid Content in Ganoderma lucidum

Published:2022-10-26 Issue:5 Volume:10 Page:
ISSN:2165-0497
Container-title:Microbiology Spectrum
language:en
Short-container-title:Microbiol Spectr

Author:

Wu Tao¹²,Xia Jiale¹,Ge Feng¹,Qiu Hao¹,Tian Li¹,Liu Xiaotian¹,Liu Rui¹,Jiang Ailiang¹,Zhu Jing¹,Shi Liang¹,Yu Hanshou¹,Zhao Mingwen¹^ORCID,Ren Ang¹²³^ORCID

Affiliation:

1. Key Laboratory of Microbiology for Agricultural Environment, Ministry of Agriculture, Department of Microbiology, College of Life Sciences, Nanjing Agricultural University, Jiangsu, People’s Republic of China

2. Sanya Institute of Nanjing Agricultural University, Hainan, People’s Republic of China

3. Institute of Biology, Guizhou Academy of Sciences, Guizhou, People’s Republic of China

Abstract

Research on antizyme (AZ) in fungi has focused on the mechanism by which AZ inhibits ornithine decarboxylase (ODC). Moreover, there are existing reports on the regulation of AZ protein translation by TOR.

Funder

China Agriculture Research System of MOF and MARA and the Guidence Foundation

Sanya Institute of Nanjing Agricultural University

National Natural Science Foundation of China

Publisher

American Society for Microbiology

Subject

Infectious Diseases,Cell Biology,Microbiology (medical),Genetics,General Immunology and Microbiology,Ecology,Physiology

Link

https://journals.asm.org/doi/pdf/10.1128/spectrum.01633-22

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3. Spermidine Regulates Mitochondrial Function by Enhancing eIF5A Hypusination and Contributes to Reactive Oxygen Species Production and Ganoderic Acid Biosynthesis in Ganoderma lucidum

4. Unravelling the multi-faceted regulatory role of polyamines in plant biotechnology, transgenics and secondary metabolomics

5. Putrescine regulates stomatal opening of cucumber leaves under salt stress via the H2O2-mediated signaling pathway

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