TY - JOUR

T1 - Identification of new proteins in mature sieve elements

AU - Sanden, Niels Christian

AU - Schulz, Alexander

N1 - Publisher Copyright: © 2022 Scandinavian Plant Physiology Society.

PY - 2022

Y1 - 2022

N2 - The phloem enables vascular plants to transport photoassimilates from source tissues to heterotrophic sink tissues. In the phloem, unbroken strings of enucleated sieve elements, which lose the majority of their cellular contents upon maturation, provide a low resistance path for mass flow. The protein machinery in mature sieve elements performs vital functions to maintain the flow, transmit systemic signals and defend the sugar stream against pests. However, our knowledge of this particular protein population is very limited since mature sieve elements are difficult to isolate and not amenable to transcriptomic analysis due to their enucleate nature. Here, we used co-expression analysis and published gene clusters from transcriptomic studies to generate a list of sieve element proteins that potentially survive the enucleation process to reside in mature sieve elements. We selected seven candidates and show that they all localize in sieve elements in Arabidopsis roots and six of them in bolting stems. Our results support the idea that nascent sieve elements prior to enucleation translate part of the protein machinery found in mature sieve elements. Our co-expression list and the publicly available gene clusters expressed in late proto- and meta-phloem sieve elements are valuable resources for uncharacterized genes that may function in mature sieve elements.

AB - The phloem enables vascular plants to transport photoassimilates from source tissues to heterotrophic sink tissues. In the phloem, unbroken strings of enucleated sieve elements, which lose the majority of their cellular contents upon maturation, provide a low resistance path for mass flow. The protein machinery in mature sieve elements performs vital functions to maintain the flow, transmit systemic signals and defend the sugar stream against pests. However, our knowledge of this particular protein population is very limited since mature sieve elements are difficult to isolate and not amenable to transcriptomic analysis due to their enucleate nature. Here, we used co-expression analysis and published gene clusters from transcriptomic studies to generate a list of sieve element proteins that potentially survive the enucleation process to reside in mature sieve elements. We selected seven candidates and show that they all localize in sieve elements in Arabidopsis roots and six of them in bolting stems. Our results support the idea that nascent sieve elements prior to enucleation translate part of the protein machinery found in mature sieve elements. Our co-expression list and the publicly available gene clusters expressed in late proto- and meta-phloem sieve elements are valuable resources for uncharacterized genes that may function in mature sieve elements.

U2 - 10.1111/ppl.13634

DO - 10.1111/ppl.13634

M3 - Journal article

C2 - 35060148

AN - SCOPUS:85125894260

VL - 174

JO - Physiologia Plantarum

JF - Physiologia Plantarum

SN - 0031-9317

IS - 1

M1 - e13634

ER -