The structure, function and expression analysis of the nodulin 26-like intrinsic protein subfamily of plant aquaporins in tomato

The nodulin 26-like intrinsic protein (NIP) family belonging to a group of aquaporin proteins is unique to plants. NIPs have a wide of transport activities and are involved in developmental processes and stress tolerance. The well reported Lsi1 and Lsi6 belonging to NIP III were characterized as Si transporters. However, except Lsi1 and Lsi6, most NIPs remain unknown. Here, we identified 43 putative aquaporins in tomato. We found there are 12 NIPs, including 8 NIP I proteins, 3 NIP II proteins, and 1 NIP III protein among the 43 aquaporins. Also, there are two Si efflux transporters SlLsi2-1 and SlLsi2-2 identified by using Lsi2 proteins from other species. By analysing the phylogenetic relationships, conserved residues and expression patterns, we propose that three NIP I members (SlNIP-2, SlNIP-3 and SlNIP-11) may transport water, ammonia, urea, and boric acid, and contribute to pollen development. Three NIP II proteins (SlNIP-7, SlNIP-9 and SlNIP-12) may be boric acid facilitators, and affect plant growth and anther development. Overall, the study provides valuable candidates of Si transporters and other NIP proteins to further explore their roles in uptake and transport for silicon, boron, and other substrates in tomato.

Automated summary

The study identified 43 putative aquaporins in tomato, including 12 NIPs, with some potentially involved in Si transportation, water, ammonia, urea, and boron transport, contributing to pollen development, while others might function as boron facilitators affecting plant growth and anther development. This research offers valuable candidates for further exploration of Si transporters and NIP proteins in tomato regarding uptake and transport of silicon, boron, and other substrates.