Crystal Structures of the Catalytic Domain of Arabidopsis thaliana Starch Synthase IV, of Granule Bound Starch Synthase From CLg1 and of Granule Bound Starch Synthase I of Cyanophora paradoxa Illustrate Substrate Recognition in Starch Synthases.

Morten M Nielsen,Steven G Ball,Alexander Striebeck,Jose A Cuesta-Seijo,Ugo Cenci,Christian Ruzanski,Monica M Palcic,Katarzyna Krucewicz

doi:10.3389/fpls.2018.01138

Abstract

Starch synthases (SSs) are responsible for depositing the majority of glucoses in starch. Structural knowledge on these enzymes that is available from the crystal structures of rice granule bound starch synthase (GBSS) and barley SSI provides incomplete information on substrate binding and active site architecture. Here we report the crystal structures of the catalytic domains of SSIV from Arabidopsis thaliana, of GBSS from the cyanobacterium CLg1 and GBSSI from the glaucophyte Cyanophora paradoxa, with all three bound to ADP and the inhibitor acarbose. The SSIV structure illustrates in detail the modes of binding for both donor and acceptor in a plant SS. CLg1GBSS contains, in the same crystal structure, examples of molecules with and without bound acceptor, which illustrates the conformational changes induced upon acceptor binding that presumably precede catalytic activity. With structures available from several isoforms of plant and non-plant SSs, as well as the closely related bacterial glycogen synthases, we analyze, at the structural level, the common elements that define a SS, the elements that are necessary for substrate binding and singularities of the GBSS family that could underlie its processivity. While the phylogeny of the SSIII/IV/V has been recently discussed, we now further report the detailed evolutionary history of the GBSS/SSI/SSII type of SSs enlightening the origin of the GBSS enzymes used in our structural analysis.

Highlights

Starch, a macropolymer composed of glucose monomers, is used for storage of both carbon and energy in photosynthesizing organisms
Tuner (DE3) cells were transformed with a pJexpress414 plasmid encoding CLg1GBSS with an N-terminal His6 affinity tag and linker
The crystal of CLg1GBSS contains three crystallographically independent protein molecules in the asymmetric unit of which one is bound to ADP and acarbose, one is bound to ADP and glucose from the cryoprotectant and the third chain appears to be a mixture of the two, ADP and acarbose were modeled in the electron density

Summary

Introduction

A macropolymer composed of glucose monomers, is used for storage of both carbon and energy in photosynthesizing organisms. It can be used when needed, for example to support plant growth during the night, or as a nutrient source for seedlings (Zeeman et al, 2010; Sonnewald and Kossmann, 2013). Starch is the main source of calories in human nutrition, both directly and as Structure of Three Starch Synthases animal fodder, while it finds many industrial uses such as papermaking and biodegradable plastics (Sonnewald and Kossmann, 2013). Starch Synthases (SSs) transfer glucose from ADP-Glc donor to elongate pre-existing glucose chains via α-1,4-linkages. Unlike the SSs, the other enzymes have a common origin in Archaeplastida independently of the compartment where starch is found (for reviews see Ball et al, 2011; Ball et al, 2015)

Methods

Results

Conclusion