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Review
. 2020 Dec 17:11:609993.
doi: 10.3389/fpls.2020.609993. eCollection 2020.

N- and O-Glycosylation Pathways in the Microalgae Polyphyletic Group

Elodie Mathieu-Rivet  1 Narimane Mati-Baouche  1 Marie-Laure Walet-Balieu  1 Patrice Lerouge  1 Muriel Bardor  1   2
Affiliations
Review

N- and O-Glycosylation Pathways in the Microalgae Polyphyletic Group

Elodie Mathieu-Rivet et al. Front Plant Sci. .

Abstract

The term microalga refers to various unicellular and photosynthetic organisms representing a polyphyletic group. It gathers numerous species, which can be found in cyanobacteria (i.e., Arthrospira) as well as in distinct eukaryotic groups, such as Chlorophytes (i.e., Chlamydomonas or Chlorella) and Heterokonts (i.e., diatoms). This phylogenetic diversity results in an extraordinary variety of metabolic pathways, offering large possibilities for the production of natural compounds like pigments or lipids that can explain the ever-growing interest of industrials for these organisms since the middle of the last century. More recently, several species have received particular attention as biofactories for the production of recombinant proteins. Indeed, microalgae are easy to grow, safe and cheap making them attractive alternatives as heterologous expression systems. In this last scope of applications, the glycosylation capacity of these organisms must be considered as this post-translational modification of proteins impacts their structural and biological features. Although these mechanisms are well known in various Eukaryotes like mammals, plants or insects, only a few studies have been undertaken for the investigation of the protein glycosylation in microalgae. Recently, significant progresses have been made especially regarding protein N-glycosylation, while O-glycosylation remain poorly known. This review aims at summarizing the recent data in order to assess the state-of-the art knowledge in glycosylation processing in microalgae.

Keywords: Golgi apparatus; N-glycosylation; O-glycosylation; biopharmaceuticals; endoplasmic reticulum; microalgae; post-translational modification; protein.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The reviewer FA declared a past co-authorship with one of the authors MB to the handling editor.

Figures

FIGURE 1
FIGURE 1
Schemes depicting the structure of the dolichol pyrophosphate oligosaccharide precursor (A), the canonical Man5GlcNAc2 structure (B) and the non-canonical Man5GlcNAc2 structure (C). Structures are drawn according to the Symbol Nomenclature For Glycans (SNFG) (Neelamegham et al., 2019). Blue squares: N-acetylglucosamine residues; green circles: mannose and blue circles: glucose residues.
FIGURE 2
FIGURE 2
Scheme of O-glycan motif harbored by proteins in C. reinhardtii. According to Bollig et al. (2007), O-glycans attached to C. reinhardtii proteins are composed of a Hyp-O-Ara-Ara core substituted with methylated galactofuranose residues. Hyp: hydroxyproline; orange pentagon: arabinofuranose; yellow circle: galactofuranose, Me: methyl group.
See this image and copyright information in PMC

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