Abstract
Cellulose is produced by all plants and a number of other organisms, including bacteria. The most representative cellulose-producing bacterial species is Gluconacetobacter xylinus, an acetic acid bacterium. Cellulose produced by G. xylinus, commonly referred to as bacterial cellulose (BC), has exceptional physicochemical properties resulting in its use in a variety of applications. All cellulose-producing organisms that synthesize cellulose microfibrils have membrane-localized protein complexes (also called terminal complexes or TCs) that contain the enzyme cellulose synthase and other proteins. The bacterium G. xylinus is a prolific cellulose producer and a model organism for studies on cellulose biosynthesis. The widths of cellulose fibers produced by Gluconacetobacter are 50–100 nm, suggesting that cellulose-synthesizing complexes are nanomachines spinning a nanofiber. At least four different proteins (BcsA, BcsB, BcsC, and BcsD) are included in TC from Gluconacetobacter, and the proposed function of each is as follows: BcsA, synthesis of a glucan chain through glycosyl transfer from UDP-glucose; BcsB, complexes with BcsA for cellulose synthase activity; BcsC, formation of a pore in the outer membrane through which a glucan chain is extruded; BcsD, regulates aggregation of glucan chains through four tunnel-like structures. In this review, we discuss structures and functions of these four and a few other proteins that have a role in cellulose biosynthesis in bacteria.
Highlights
IntroductionAn assembly of b-1,4-linked linear glucan chains, is the most abundant polysaccharide and biopolymer
Cellulose, an assembly of b-1,4-linked linear glucan chains, is the most abundant polysaccharide and biopolymer
Strains of G. xylinus and G. hansenii are useful for understanding the basic mechanisms of cellulose biosynthesis, as well as large-scale production of bacterial cellulose
Summary
An assembly of b-1,4-linked linear glucan chains, is the most abundant polysaccharide and biopolymer. It is used widely, without and with further modifications (such as ether and ester derivatives), in a number of industries including clothing, pulp and paper, food, pharmaceuticals, cosmetics, and building materials. Cellulose is an environmentally friendly and circulating polymer, as plants use carbon dioxide from the atmosphere during photosynthesis to produce the raw materials for cellulose biosynthesis, and it is broken down by a number of organisms. Other organisms, including bacteria, produce cellulose as an extracellular polysaccharide. Cellulose biosynthesis is reported in a number of bacterial and cyanobacterial species (Napoli et al 1975; Matthysse et al 1981; Nobles et al 2001; Otsuka et al 2004; Kumagai et al 2011; Kawano et al 2011; Castro et al 2013; Thongsomboon et al.2018), but it is in the acetic acid bacteria where production of cellulose is best observed and studied
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