Towards Elucidating Structure–Spectra Relationships in Rhamnogalacturonan II: Computational Protocols for Accurate 13C and 1H Shifts for Apiose and Its Borate Esters

Abstract: Apiose is a naturally occurring, uncommon branched-chain pentose found in plant cell walls as part of the complex polysaccharide Rhamnogalacturonan II (RG-II). The structural elucidation of the three-dimensional structure of RG-II by nuclear magnetic resonance (NMR) spectroscopy is significantly complicated by the ability of apiose to cross-link via borate ester linkages to form RG-II dimers. Here, we developed a computational approach to gain insight into the structure–spectra relationships of apio–borate com… Show more

“…20 A unique characteristic of RG-II is its ability to form a homodimer via borate diester crosslinking of the A chain apiose residue of two monomers. [21][22][23][24] Virtually all of the RG-II in the cell wall exists as a dimer, which is believed to be required to maintain wall integrity and porosity during plant growth. [25][26][27] However, the biological role of RG-II and the mechanism of dimer formation remain poorly understood.…”

Probing Sequence-Structure Paradigms in Complex Carbohydrates – A Case Study on Rhamnogalacturonan-II

“…20 A unique characteristic of RG-II is its ability to form a homodimer via borate diester crosslinking of the A chain apiose residue of two monomers. [21][22][23][24] Virtually all of the RG-II in the cell wall exists as a dimer, which is believed to be required to maintain wall integrity and porosity during plant growth. [25][26][27] However, the biological role of RG-II and the mechanism of dimer formation remain poorly understood.…”

Probing Sequence-Structure Paradigms in Complex Carbohydrates – A Case Study on Rhamnogalacturonan-II