Plant-Programmed Cell Death-Associated Genes Participation in Pinus sylvestris L. Trunk Tissue Formation

Molecular genetic markers of various PCD (programmed cell death) variants during xylo- and phloemogenesis have been identified for the first time in Scots pine under lingonberry pine forest conditions in Northwest Russia (middle taiga subzone). PCD is a genetically determined process. Gene profiles...

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Bibliographic Details
Published in:Plants
Main Authors: Yulia L. Moshchenskaya, Natalia A. Galibina, Kseniya M. Nikerova, Tatiana V. Tarelkina, Maksim A. Korzhenevsky, Irina N. Sofronova, Maria A. Ershova, Ludmila I. Semenova
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2022
Subjects:
Pinus sylvestris L
programmed cell death
xylogenesis
heartwood formation
bifunctional endonuclease
cysteine endopeptidase
Botany
QK1-989
Northwest Russia
taiga
Online Access:https://doi.org/10.3390/plants11243438
https://doaj.org/article/848a96211c6e4617861badc78c94b764
Description
Summary:Molecular genetic markers of various PCD (programmed cell death) variants during xylo- and phloemogenesis have been identified for the first time in Scots pine under lingonberry pine forest conditions in Northwest Russia (middle taiga subzone). PCD is a genetically determined process. Gene profiles of serine and cysteine proteases (endopeptidases), endonucleases, and metacaspases families are often considered markers of the final xylogenesis stage. In the present study, we examined the gene expression profiles of the BFN (bifunctional endonuclease) family— BFN , BFN1 , BFN2 , BFN3 , and peptidase (cysteine endopeptidase, CEP and metacaspase, MC5 ) in the radial row, in addition to the vascular phloem and cambium (F1), differentiating xylem (F2), sapwood (SW), and transition zone during the active cambial growth period of uneven-aged pine trees (25-, 63- and 164-cambial age (c.a.) years old). We have shown that the expression patterns of the PCD-related genes did not depend on the cambial age but were largely determined by plant tissue type. In the radial row F1-F2-SW, we studied the activities of enzymes, including sucrose in metabolism (sucrose synthase, three forms of invertase); antioxidant system (AOS) enzymes (superoxide dismutase, catalase); and peroxidase andpolyphenol oxidase, which belonged to AOS enzymes and were involved in the synthesis of phenolic components of cell walls. The activity of the enzymes indicated that the trunk tissues of pine trees had varying metabolic status. Molecular genetic PCD regulation mechanisms during xylem vascular and mechanical element formation and parenchyma cells’ PCD during the formation of Scots pine heartwood were discussed.

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