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Hauptverfasser: Doroshkov, Alexey V, Naumenko, Ludmila G, Iukhtanov, Daniil A, Morozova, Ksenia N, Kiseleva, Elena V, Menzorov, Aleksei G, Zubairova, Ulyana S
Format: Artículo científico
Sprache:en
Veröffentlicht: International journal of molecular sciences 2025
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Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/41373465/
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author Doroshkov, Alexey V
Naumenko, Ludmila G
Iukhtanov, Daniil A
Morozova, Ksenia N
Kiseleva, Elena V
Menzorov, Aleksei G
Zubairova, Ulyana S
author_facet Doroshkov, Alexey V
Naumenko, Ludmila G
Iukhtanov, Daniil A
Morozova, Ksenia N
Kiseleva, Elena V
Menzorov, Aleksei G
Zubairova, Ulyana S
Doroshkov, Alexey V
Naumenko, Ludmila G
Iukhtanov, Daniil A
Morozova, Ksenia N
Kiseleva, Elena V
Menzorov, Aleksei G
Zubairova, Ulyana S
collection PubMed - marine biology
contents Integrative Study of the Life Cycle in the Marine Protist ssp. . Doroshkov, Alexey V Naumenko, Ludmila G Iukhtanov, Daniil A Morozova, Ksenia N Kiseleva, Elena V Menzorov, Aleksei G Zubairova, Ulyana S Stramenopiles Life Cycle Stages Aquatic Organisms ssp. , a marine protist belonging to the class Labyrinthulea, exhibits a complex life cycle characterized by alternating motile and vegetative phases. Using an integrative multimodal microscopy approach, we reconstructed its full developmental cycle and analyzed the coordination between cellular morphology, subcellular architecture, and population-level behavior. Transmission and scanning electron microscopy, combined with fluorescence and time-lapse imaging, revealed the dynamics of nuclear division, organelle rearrangement, and zoospore formation. Morphometric analysis of serial ultrathin sections demonstrated distinct changes in mitochondrial distribution, Golgi apparatus, and lipid droplet abundance during transitions between stages. We have shown that vegetative cells undergo synchronized karyokinesis coupled with stable nuclear-to-cytoplasmic ratios, leading to the emergence of multinucleate stages prior to zoospore formation. The integration of ultrastructural and dynamic data enabled us to propose a systems-level model linking metabolic state, morphogenesis, and population structure. This model highlights feedback regulation between nutrient availability, biomass accumulation, and developmental synchronization. Our results establish that ssp. has good potential to serve as a tractable model organism for systems-level studies of protists and provide an initial framework for predictive modeling of its life cycle under controlled conditions.
format Artículo científico
id pubmed_41373465
institution PubMed
language en
publishDate 2025
publisher International journal of molecular sciences
record_format pubmed
spellingShingle Integrative Study of the Life Cycle in the Marine Protist ssp. .
Doroshkov, Alexey V
Naumenko, Ludmila G
Iukhtanov, Daniil A
Morozova, Ksenia N
Kiseleva, Elena V
Menzorov, Aleksei G
Zubairova, Ulyana S
Stramenopiles
Life Cycle Stages
Aquatic Organisms
Integrative Study of the Life Cycle in the Marine Protist ssp. . Doroshkov, Alexey V Naumenko, Ludmila G Iukhtanov, Daniil A Morozova, Ksenia N Kiseleva, Elena V Menzorov, Aleksei G Zubairova, Ulyana S Stramenopiles Life Cycle Stages Aquatic Organisms ssp. , a marine protist belonging to the class Labyrinthulea, exhibits a complex life cycle characterized by alternating motile and vegetative phases. Using an integrative multimodal microscopy approach, we reconstructed its full developmental cycle and analyzed the coordination between cellular morphology, subcellular architecture, and population-level behavior. Transmission and scanning electron microscopy, combined with fluorescence and time-lapse imaging, revealed the dynamics of nuclear division, organelle rearrangement, and zoospore formation. Morphometric analysis of serial ultrathin sections demonstrated distinct changes in mitochondrial distribution, Golgi apparatus, and lipid droplet abundance during transitions between stages. We have shown that vegetative cells undergo synchronized karyokinesis coupled with stable nuclear-to-cytoplasmic ratios, leading to the emergence of multinucleate stages prior to zoospore formation. The integration of ultrastructural and dynamic data enabled us to propose a systems-level model linking metabolic state, morphogenesis, and population structure. This model highlights feedback regulation between nutrient availability, biomass accumulation, and developmental synchronization. Our results establish that ssp. has good potential to serve as a tractable model organism for systems-level studies of protists and provide an initial framework for predictive modeling of its life cycle under controlled conditions.
title Integrative Study of the Life Cycle in the Marine Protist ssp. .
topic Stramenopiles
Life Cycle Stages
Aquatic Organisms
url https://pubmed.ncbi.nlm.nih.gov/41373465/