Beyond membrane components: uncovering the intriguing world of fungal sphingolipid synthesis and regulation

被引:10
作者
Usmani, Sana Akhtar [1 ]
Kumar, Mohit [2 ,3 ,5 ]
Arya, Khushboo [1 ]
Ali, Basharat [2 ,3 ]
Bhardwaj, Nitin [4 ]
Gaur, Naseem Akhtar [5 ]
Prasad, Rajendra [2 ,3 ]
Singh, Ashutosh [1 ]
机构
[1] Univ Lucknow, Dept Biochem, Lucknow 226024, Uttar Pradesh, India
[2] Amity Univ Gurgaon, Amity Inst Integrat Sci & Hlth, Gurgaon, Haryana, India
[3] Amity Univ Gurgaon, Amity Inst Biotechnol, Gurgaon, Haryana, India
[4] Gurukula Kangri Vishwavidyalaya, Dept Zool & Environm Sci, Haridwar 249404, Uttarakhand, India
[5] Int Ctr Genet Engn & Biotechnol, New Delhi 110067, India
来源
RESEARCH IN MICROBIOLOGY | 2023年 / 174卷 / 07期
关键词
Sphingolipid; Fungi; Biosynthesis; Degradation; Regulation; INOSITOL PHOSPHORYLCERAMIDE SYNTHASE; LONG-CHAIN BASES; FATTY-ACID ELONGATION; SACCHAROMYCES-CEREVISIAE; GLUCOSYLCERAMIDE SYNTHASE; CRYPTOCOCCUS-NEOFORMANS; CERAMIDE SYNTHASES; CANDIDA-ALBICANS; SERINE PALMITOYLTRANSFERASE; FUNCTIONAL-CHARACTERIZATION;
D O I
10.1016/j.resmic.2023.104087
中图分类号
Q93 [微生物学];
学科分类号
071005 ; 100705 ;
摘要
Sphingolipids (SLs) are essential to fungal survival and represent a major class of structural and signaling lipids. Unique SL structures and their biosynthetic enzymes in filamentous fungi make them an ideal drug target. Several studies have contributed towards the functional characterization of specific SL metabolism genes, which have been complemented by advanced lipidomics methods which allow accurate identification and quantification of lipid structures and pathway mapping. These studies have provided a better understanding of SL biosynthesis, degradation and regulation networks in filamentous fungi, which are discussed and elaborated here. (c) 2023 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.
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页数:11
相关论文
共 138 条
[41]   Sphingolipids and their metabolism in physiology and disease [J].
Hannun, Yusuf A. ;
Obeid, Lina M. .
NATURE REVIEWS MOLECULAR CELL BIOLOGY, 2018, 19 (03) :175-191
[42]   Inositol phosphoryl transferases from human pathogenic fungi [J].
Heidler, SA ;
Radding, JA .
BIOCHIMICA ET BIOPHYSICA ACTA-MOLECULAR BASIS OF DISEASE, 2000, 1500 (01) :147-152
[43]   Formation of glucosylceramide and sterol glucoside by a UDP-glucose-dependent glucosylceramide synthase from cotton expressed in Pichia pastoris [J].
Hillig, I ;
Leipelt, M ;
Ott, C ;
Zähringer, U ;
Warnecke, D ;
Heinz, E .
FEBS LETTERS, 2003, 553 (03) :365-369
[44]   Identification of a family of animal sphingomyelin synthases [J].
Huitema, K ;
van den Dikkenberg, J ;
Brouwers, JFHM ;
Holthuis, JCM .
EMBO JOURNAL, 2004, 23 (01) :33-44
[45]   Fungal glycosides: Structure and biological function [J].
Hussain, Hidayat ;
Mamadalieva, Nilufar Z. ;
Ali, Iftikhar ;
Elizbit ;
Green, Ivan R. ;
Wang, Daijie ;
Zou, Liang ;
Simal-Gandara, Jesus ;
Cao, Hui ;
Xiao, Jianbo .
TRENDS IN FOOD SCIENCE & TECHNOLOGY, 2021, 110 :611-651
[46]   Acceleration of the substrate Cα deprotonation by an analogue of the second substrate palmitoyl-CoA in serine palmitoyltransferase [J].
Ikushiro, Hiroko ;
Fujii, Shigeru ;
Shiraiwa, Yuka ;
Hayashi, Hideyuki .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2008, 283 (12) :7542-7553
[47]   Differential Regulation of Glucosylceramide Synthesis and Efflux by Golgi and Plasma Membrane Bound ABCC10 [J].
Iqbal, Jahangir ;
Otaibi, Abeer Al ;
Mubarak, Sindiyan Alshaikh ;
Alqarni, Ali ;
Bakillah, Ahmed .
NUTRIENTS, 2023, 15 (02)
[48]   Quality Control of Fungus-specific Glucosylceramide in Cryptococcus neoformans by Endoglycoceramidase-related Protein 1 (EGCrP1) [J].
Ishibashi, Yohei ;
Ikeda, Kazutaka ;
Sakaguchi, Keishi ;
Okino, Nozomu ;
Taguchi, Ryo ;
Ito, Makoto .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2012, 287 (01) :368-381
[49]  
Ivessa AS, 1997, EUR J CELL BIOL, V74, P399
[50]   Glycosphingolipids in Filamentous Fungi: Biological Roles and Potential Applications in Cosmetics and Health Foods [J].
Jiang, Chunmiao ;
Ge, Jinxin ;
He, Bin ;
Zeng, Bin .
FRONTIERS IN MICROBIOLOGY, 2021, 12
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