O. S. Yudina scite author profile

O. S. Yudina

5Publications

53Citation Statements Received

93Citation Statements Given

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Affiliations

Siberian Branch of the Russian Academy of Sciences, Institute of Cytology and Genetics, Institute of Chemical Biology and Fundamental Medicine

Publications

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The role of Drosophila Merlin in spermatogenesis

et al. 2008

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BackgroundDrosophila Merlin, the homolog of the human Neurofibromatosis 2 (NF2) gene, is important for the regulation of cell proliferation and receptor endocytosis. Male flies carrying a Mer3 allele, a missense mutation (Met177→Ile) in the Merlin gene, are viable but sterile; however, the cause of sterility is unknown.ResultsTestis examination reveals that hemizygous Mer3 mutant males have small seminal vesicles that contain only a few immotile sperm. By cytological and electron microscopy analyses of the Mer3, Mer4 (Gln170→stop), and control testes at various stages of spermatogenesis, we show that Merlin mutations affect meiotic cytokinesis of spermatocytes, cyst polarization and nuclear shaping during spermatid elongation, and spermatid individualization. We also demonstrate that the lethality and sterility phenotype of the Mer4 mutant is rescued by the introduction of a wild-type Merlin gene. Immunostaining demonstrates that the Merlin protein is redistributed to the area associated with the microtubules of the central spindle in telophase and its staining is less in the region of the contractile ring during meiotic cytokinesis. At the onion stage, Merlin is concentrated in the Nebenkern of spermatids, and this mitochondrial localization is maintained throughout sperm formation. Also, Merlin exhibits punctate staining in the acrosomal region of mature sperm.ConclusionMerlin mutations affect spermatogenesis at multiple stages. The Merlin protein is dynamically redistributed during meiosis of spermatocytes and is concentrated in the Nebenkern of spermatids. Our results demonstrated for the first time the mitochondrial localization of Merlin and suggest that Merlin may play a role in mitochondria formation and function during spermatogenesis.

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A GFP trap study uncovers the functions of Gilgamesh protein kinase in Drosophila melanogaster spermatogenesis

Nerusheva

Дорогова

Губанова

et al. 2009

Cell Biology International

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The function of the gene gilgamesh (89B9-12) encoding a casein kinase in Drosophila spermatogenesis was studied. The chimeric Gilgamesh-GFP protein in spermatocytes is cortically located. In the polar and apolar spermatocytes, it concentrates at the terminal ends of the fusome, the organelle that passes through the system of ring canals of the spermatocyte cyst. At the stage of spermatid elongation, the protein associates with the nucleus. A spot of the highest Gilgamesh-GFP concentration in the nucleus co-localizes with gamma-tubulin in the basal body. At later stages, Gilgamesh is localized to the individualization complex (IC), leaving the nuclei somewhat before the IC investment cones, as detected by actin binding. The sterile mutation due to the gilgamesh gene leads to the phenotype of scattered nuclei and altered structure of actin cones in the individualizing spermatid cyst. Ultrastructural evidence confirmed defective spermatid individualization due to the mutation. The phylogenetic origin of the protein, and the connection between vesicular trafficking and spermatid individualization, are discussed.

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Drosophila tumor suppressor merlin is essential for mitochondria morphogenesis during spermatogenesis in Drosophila melanogaster

2011

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Metabolism of 14C-glycine as a substrate for photorespiration of the leaf at different developmental stages of ephemeroides

Mamushina

Zubkova

Yudina

2008

Russ J Plant Physiol

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Drosophila melanogaster as a model for studying the function of animal viral proteins

Omelyanchuk

Yudina

2011

Russ J Genet

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Studies in which Drosophila melanogaster individuals carrying transgenes of animal viruses were used to analyze the action of animal viral proteins on the cell are reviewed. The data presented suggest that host specificity of viruses is determined by their proteins responsible for the penetration of the virus into the cell, while viral proteins responsible for interactions with the host cell are much less host specific. Due to this, the model of Drosophila with its developed system of searching for genetic interactions can be used to find intracellular targets for the action of viral proteins of the second group.

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O. S. Yudina

The role of Drosophila Merlin in spermatogenesis

A GFP trap study uncovers the functions of Gilgamesh protein kinase in Drosophila melanogaster spermatogenesis

Drosophila tumor suppressor merlin is essential for mitochondria morphogenesis during spermatogenesis in Drosophila melanogaster

Metabolism of 14C-glycine as a substrate for photorespiration of the leaf at different developmental stages of ephemeroides

Drosophila melanogaster as a model for studying the function of animal viral proteins

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