G. Yu. Vinogradova scite author profile

G. Yu. Vinogradova

5Publications

15Citation Statements Received

60Citation Statements Given

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105

Affiliations

Russian Academy of Sciences, Kharkov Technologies

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Comparative analysis of the plastid conversion, photochemical activity and chlorophyll degradation in developing embryos of green-seeded and yellow-seeded pea (Pisum sativum) cultivars

Smolikova

Shiroglazova

Vinogradova

et al. 2020

Functional Plant Biol.

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Developing seeds of some higher plants are photosynthetically active and contain chlorophylls (Chl), which are typically destroyed at the late stages of seed maturation. However, in some crop plant cultivars, degradation of embryonic Chl remains incomplete, and mature seeds preserve green colour, as it is known for green-seeded cultivars of pea (Pisum sativum L.). The residual Chl compromise seed quality and represent a severe challenge for farmers. Hence, comprehensive understanding of the molecular mechanisms, underlying incomplete Chl degradation is required for maintaining sustainable agriculture. Therefore, here we address dynamics of plastid conversion and photochemical activity alterations, accompanying degradation of Chl in embryos of yellow- and green-seeded cultivars Frisson and Rondo respectively. The yellow-seeded cultivar demonstrated higher rate of Chl degradation at later maturation stage, accompanied with termination of photochemical activity, seed dehydration and conversion of green plastids into amyloplasts. In agreement with this, expression of genes encoding enzymes of Chl degradation was lower in the green seeded cultivar, with the major differences in the levels of Chl b reductase (NYC1) and pheophytinase (PPH) transcripts. Thus, the difference between yellow and green seeds can be attributed to incomplete Chl degradation in the latter at the end of maturation period.

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Morpho-Histological Analysis of Direct Shoot Organogenesis Induced in Flower Buds Cultures of <i>Allium altissimum</i>

Poluboyarova¹,

Novikova²,

Vinogradova³

et al. 2014

AJPS

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The present work gives a detailed study of in vitro shoot organogenesis of the ornamental onion A. altissimum Regel from the buds of the middle layer of the inflorescences. The course of morphogenesis was examined by light and scanning electron microscopy. Histological observation revealed that during 3-5 days of culture on the BDS medium supplemented with 2.0 mg•L −1 of BA and 2.0 mg•L − 1 of NAA the epidermal cells of the stamen filament in the area of its fusion with the tepal became competent and dedifferentiated. Originally the organogenesis involved several initial epidermal cells. The formation of meristematic centers was observed from day 3 to day 14. The apical shoot meristems and leaf primordia in a roller shape formed from day 14 to day 28 of culture on the same media. The further development of vegetative shoots and formation of the bulblets were observed when the explants were stimulated by triapenthenol (2.0 mg•L −1).

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Why does only one embryo sac develop in the Paeonia ovule with multiple archesporium?

Vinogradova

Zhinkina

2020

Plant Biol J

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Structure of the multiple archesporium in an ovule, time and place of archesporial cell differentiation and their developmental potential have not been studied in detail. In Paeonia species supernumerary archesporial cells are formed and differentiate as multiple megasporocytes, but only one embryo sac usually develops into an ovule. The reasons leading to development of one gametophyte and the death of most megasporocytes are unknown. The morphological structure of the multiple archesporium in Paeonia veitchii and P. caucasica was studied using cytoembryological methods. We used staining with aniline blue and fluorescence microscopy for visualization of callose on the megasporocyte walls. All cells of the ovule in investigated Paeonia species are uniform and meristematic at the earliest development stage. The onset of archesporium differentiation correlates with inner integument initiation. The sporogenous complex includes ten to 25 cells which develop asynchronously. The cell located in the central part of the sporogenous complex is differentiated into a megasporocyte earlier than in neighbouring cells. Only this megasporocyte is enveloped in callose; it develops further through to meiosis and forms a female gametophyte. The other megasporocytes degenerate during ovule development. We consider that callose participates in the mechanism of ‘lateral inhibition’ during megasporocyte maturation. The cell located in the central part of the Paeonia ovule is the first to receive signals that stimulate the onset of megasporogenesis and formation of the callose wall. It is possible that callose participates in blocking of development signals to neighbouring megasporocytes, leading to the arrest of their development.

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Composition and antioxidant activity of the biopolymer complex from Spirulina platensis (Nordst.) Geitl.

et al. 2000

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The role of embryonic photosynthesis and chlorophyll in seed formation

Smolikova¹,

Shiroglazova²,

Vinogradova³

et al. 2019

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G. Yu. Vinogradova

Comparative analysis of the plastid conversion, photochemical activity and chlorophyll degradation in developing embryos of green-seeded and yellow-seeded pea (Pisum sativum) cultivars

Morpho-Histological Analysis of Direct Shoot Organogenesis Induced in Flower Buds Cultures of <i>Allium altissimum</i>

Why does only one embryo sac develop in the Paeonia ovule with multiple archesporium?

Composition and antioxidant activity of the biopolymer complex from Spirulina platensis (Nordst.) Geitl.

The role of embryonic photosynthesis and chlorophyll in seed formation

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G. Yu. Vinogradova

Comparative analysis of the plastid conversion, photochemical activity and chlorophyll degradation in developing embryos of green-seeded and yellow-seeded pea (Pisum sativum) cultivars

Morpho-Histological Analysis of Direct Shoot Organogenesis Induced in Flower Buds Cultures of &lt;i&gt;Allium altissimum&lt;/i&gt;

Why does only one embryo sac develop in the Paeonia ovule with multiple archesporium?

Composition and antioxidant activity of the biopolymer complex from Spirulina platensis (Nordst.) Geitl.

The role of embryonic photosynthesis and chlorophyll in seed formation

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Product

Resources

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Morpho-Histological Analysis of Direct Shoot Organogenesis Induced in Flower Buds Cultures of <i>Allium altissimum</i>