# Structural insights into how vacuolar sorting receptor recognizes the C‐terminal sorting determinant of a vicilin‐like seed storage protein

**Authors:** Shu Nga Lui, Hsi‐En Tsao, Anthony Hiu‐Fung Lo, Liwen Jiang, Kam‐Bo Wong

PMC · DOI: 10.1111/febs.70245 · 2025-09-02

## TL;DR

The study reveals how a receptor recognizes a specific protein tag to sort storage proteins into plant vacuoles.

## Contribution

The paper provides structural and functional insights into how the C-terminal sorting determinant of a seed storage protein is recognized by a vacuolar sorting receptor.

## Key findings

- The PA domain of VSR1 interacts with the C-terminal pentapeptide of VL22 through conformational changes and specific salt bridges.
- VL22 forms extra hydrophobic and hydrogen bond interactions with VSR1 compared to cruciferin 1.
- Mutagenesis experiments show that charge repulsion prevents interaction between VL43 and VSR1.

## Abstract

During seed development, vacuolar sorting receptors (VSRs) recognize a sequence‐specific vacuolar sorting determinant located at the C terminus (ctVSD) of storage proteins, thereby sorting them into protein storage vacuoles. The protease‐associated (PA) domain of VSRs is responsible for interacting with the ctVSD of cargo proteins. Here, we report the crystal structure of the PA domain of Arabidopsis vacuolar‐sorting receptor 1 (VSR1) in complex with the C‐terminal pentapeptide (507SDRFV511) of vicilin‐like seed storage protein 22 (VL22). Structural comparison with the apo form of VSR1 reveals conformational changes in four switch regions in the PA domain. VL22 binds to a cradle of VSR1 formed by residues in the cargo‐binding loop, the switch I and III regions. The C‐terminal carboxyl group of VL22 is recognized by forming salt bridges with the invariant Arg95 of VSR1. Compared with the structure of VSR1‐PA in complex with the ctVSD of cruciferin 1, VL22 makes extra hydrophobic interactions with the cargo‐binding loop and hydrogen bonds with switch I residues in VSR1. Tagging the C‐terminal sequence of VL22, but not VL22‐R509P, VL22‐V511P, VL22‐R509P‐V511P nor vicilin‐like seed storage protein 43 (VL43), redirected secretory red fluorescent protein (spRFP) to the vacuoles in Arabidopsis protoplasts. Scanning mutagenesis identified an E519S substitution converting the C‐terminal sequence of VL43 to a sorting determinant that can redirect spRFP to the vacuoles, suggesting that charge–charge repulsion prevents the receptor–cargo interactions between VL43 and VSR1. The recognition of ctVSD by VSRs is likely promiscuous, resulting from the additive effect of individual preference of residues in the ctVSD.

Soluble cargo proteins are sorted to the vacuoles via a receptor‐mediated mechanism. Combining crystallographic and mutagenesis studies, we showed how the C‐terminal sorting determinant (ctVSD) of vicilin‐like seed storage protein VL22 is recognized by the protease‐associated domain of Arabidopsis vacuolar‐sorting receptor 1. The structural insights can be generalized to understand how seed storage proteins are sorted to the vacuoles. Figure was made using the program pymol.

## Linked entities

- **Genes:** VSR1 (vacuolar sorting receptor homolog 1) [NCBI Gene 824451]
- **Proteins:** VSR1 (vacuolar sorting receptor homolog 1)
- **Species:** Arabidopsis (taxon 3701)

## Full-text entities

- **Genes:** VSR1 (vacuolar sorting receptor homolog 1) [NCBI Gene 824451] {aka ARABIDOPSIS THALIANA EPIDERMAL GROWTH FACTOR RECEPTOR-LIKE PROTEIN, ATELP, ATELP1, ATVSR1, BP-80, BP80}
- **Chemicals:** cruciferin 1 (-)
- **Species:** Arabidopsis thaliana (mouse-ear cress, species) [taxon 3702]
- **Mutations:** R509P, V511P, E519S

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12796998/full.md

---
Source: https://tomesphere.com/paper/PMC12796998