Your search keyword '"Galati BG"' showing total 14 results

1. Comparative study of anther development, microsporogenesis and microgametogenesis in species ofCorchorus,Heliocarpus,LueheaandTriumfettaMalvaceae: Grewioideae) from South America

Author

Lattar, E, primary, Galati, BG, additional, and Ferrucci, MS, additional

Published

2014

2. Comparative study of anther development, microsporogenesis and microgametogenesis in species of Corchorus , Heliocarpus , Luehea and Triumfetta Malvaceae: Grewioideae) from South America.

Author

Lattar, E, Galati, BG, and Ferrucci, MS

Subjects

*COMPARATIVE studies, *GAMETOGENESIS, *PLANT species, *POLLEN, *CELL differentiation, *PLANTS

Abstract

Anther development, microsporogenesis and microgametogenesis of six species of the generaCorchorus, Heliocarpus,LueheaandTriumfettawere analysed. The genera were found to share the following characters: ontogeny of anther wall of basic type; simultaneous microsporogenesis, resulting mainly in tetrahedral tetrads; secretory tapetum and pollen grains shed at the bicellular stage. Moreover, the characters that differentiate them are: presence of uninucleate tapetal cells inHeliocarpusandTriumfetta; binucleate cells inCorchorusand multinucleate cells inLuehea; differentiation of the thickenings of the endothecium at free microspores stage inCorchorus,HeliocarpusandTriumfetta, whereas inLueheadifferentiation occurs at the mature pollen grains stage; late disintegration of sporogenous tissue cell walls inLuehea; and the presence of orbicules, absent only inCorchorus. This is the first embryological report of the Grewioideae subfamily, contributing to the characterization of the genera studied. The results are discussed in relation to the known data for the family. [ABSTRACT FROM AUTHOR]

Published

2014

3. Comparative study of anther development, microsporogenesis and microgametogenesis in species of Corchorus, Heliocarpus, Lueheaand TriumfettaMalvaceae: Grewioideae) from South America

Author

Lattar, E, Galati, BG, and Ferrucci, MS

Abstract

Anther development, microsporogenesis and microgametogenesis of six species of the genera Corchorus, Heliocarpus, Lueheaand Triumfettawere analysed. The genera were found to share the following characters: ontogeny of anther wall of basic type; simultaneous microsporogenesis, resulting mainly in tetrahedral tetrads; secretory tapetum and pollen grains shed at the bicellular stage. Moreover, the characters that differentiate them are: presence of uninucleate tapetal cells in Heliocarpusand Triumfetta; binucleate cells in Corchorusand multinucleate cells in Luehea; differentiation of the thickenings of the endothecium at free microspores stage in Corchorus, Heliocarpusand Triumfetta, whereas in Lueheadifferentiation occurs at the mature pollen grains stage; late disintegration of sporogenous tissue cell walls in Luehea; and the presence of orbicules, absent only in Corchorus. This is the first embryological report of the Grewioideae subfamily, contributing to the characterization of the genera studied. The results are discussed in relation to the known data for the family.

Published

2014

4. Nectary structure is not related to pollination system in Trichocereeae cactus from Northwest Argentina.

Author

González VV, Gorostiague P, Ortega-Baes P, Galati BG, and Ferrucci MS

Subjects

Animals, Argentina, Flowers, Phylogeny, Plant Nectar, Cactaceae, Pollination

Abstract

Floral nectaries are essential for plant reproduction but little is known about the relationship between these secretory structures and pollination system in cacti. To test phenotypic patterns in nectaries associated with pollination syndromes and/or with its pollinators, we selected from evolutionarily related genera Cleistocactus, Denmoza, and Echinopsis, a set of species with bird-pollinated flowers and floral traits that may fit with ornithophily or with sphingophily, and other set of sphingophilous species with moths as effective pollinator. Observations were made under light microscope and scanning and transmission electron microscopes. Nectaries are located at the base of the filaments welded to the tube, forming a chamber. The nectary consists of the epidermis with distinctive features in each genus, a secretory parenchyma which may be vascularized and a non-secretory vascularized parenchyma. Anatomical variants observed in nectaries of different species are not consistent with the floral pollination syndromes neither with groups of pollinators. The basic structure of the nectar chamber is relatively conserved, a fact that may be explained by phylogenetic conservatism among the genera investigated. Our results revalue the role of anatomical traits for the systematics of Cactaceae.

Published

2021

5. Leaf structure and ultrastructure changes induced by heat stress and drought during seed filling in field-grown soybean and their relationship with grain yield.

Author

Carrera CS, Solís SM, Ferrucci MS, Vega CCR, Galati BG, Ergo V, Andrade FH, and Lascano RH

Subjects

Chlorophyll, Heat-Shock Response, Photosynthesis, Plant Leaves, Seeds, Water, Droughts, Glycine max

Abstract

Studies focusing on terminal drought combined with heat impacts on plants of agronomic value remain scarce, and even less under field conditions. The objective of this study was to investigate leaf structural and ultrastructural changes induced by heat stress (HS) and drought stress (DS) during seed filling and their relationship with physiological variables and yield determination. Two soybean cultivars were grown in field conditions. During seed filling four treatments were applied, including a control (without manipulation, at ambient temperature and field capacity), HS (episodes exceeding 32°C for 6 h d-1) during 21-d, DS (20% of field capacity soil water content) during 35-d, and HS×DS. Drought principally reduced leaf area, whereas heat decreased leaf thickness, possible as acclimation strategies, but also irreversible reducing CO2 assimilation sites. Both stresses damaged the outer and inner membranes of chloroplasts, causing swollen chloroplasts and accumulation of plastoglobules, loss of chlorophyll content, and negatively affecting chlorophyll fluorescence. Thus, the performance and integrity of the photosynthetic machinery were reduced. Through a morpho-functional perspective and a holistic multiscale approach, our results provide evidence of photosynthesis impairment and yield drops under stressful conditions which were associated with structural and ultrastructural (particularly at the level of chloroplasts) modifications of leaves.

Published

2021

6. Pollen and microsporangium development in Ziziphus jujuba, Z. mucronata, Paliurus spina-christi and Gouania ulmifolia (Rhamnaceae).

Author

Gotelli MM, Lattar EC, Zarvlasky G, and Galati BG

Subjects

Microscopy, Electron, Transmission, Phylogeny, Pollen, Rhamnaceae, Ziziphus

Abstract

The aim of this paper is to investigate the ultrastructural events that occur during pollen grains development, with emphasis in pollen grain wall and tapetum ontogeny in Ziziphus jujuba, Z. mucronata, Paliurus spina-christi (Paliureae) and Gouania ulmifolia (Gouanieae). Anthers at different developmental stages were processed according to classic techniques for transmission electron microscopy. Differences in the number of endothecium layers and in the number of tapetal cell nuclei were found. Tapetal cells present an anastomosing tubular network and large vesicles with fibrillar content in the cytoplasm. Pollen grain development and ontogeny of pollen grain wall are similar in the four species. The number of endothecium layers, the number of nuclei of the tapetal cells and tapetal cells ultrastructure of the four species support the phylogenetic relationships previously published for the Rhamnaceae family. Tapetal vesicles with fibrillar or polysaccharide content seem to be an exclusive characteristic of the tribes Paliureae and Gouanieae. Some ultrastructural characters of the pollen grain wall development are common to other species of Rhamnaceae, such as the primexine matrix present at the microspore mother cell stage, the aperture entirely built up during the tetrad stage, the thick and fibrillar intine, and the granular infractectum.

Published

2020

7. Development and differentiation of the extrafloral nectaries from flower buds in Vigna luteola (Leguminosae, Phaseolinae).

Author

Ojeda FS, Galati BG, and GarcÍa MTA

Subjects

Cell Differentiation, Flowers, Plant Nectar, Fabaceae, Vigna

Abstract

To study the ontogeny of the extrafloral nectaries present in the inflorescences of Vigna luteola (Jacq.) Benth (Leguminosae, Phaseolinae), the location, morphology, anatomy of the earliest stages, histology of the definitive structures and ultrastructure of the secretory stage were analyzed. The extrafloral nectaries at different developmental stages were examined with light microscopy and scanning electron microscopy. The secretory stage was also examined with transmission electron microscopy. The racemose inflorescence of V. luteola has six nodes. At each node, a short globose secondary axis bears two flowers and one to three extrafloral nectaries. Each extrafloral nectary originates from the abscission of a flower bud and is formed by two differentiated zones: a ring of epidermal cells surrounding a group of longitudinally enlarged papillose central cells, both with underlying secretory parenchyma. The primary secretory tissue consists of the central cells, while the ring contributes to secretion to a lesser degree. Secretion is granulocrine, by means of exocytotic vesicles and plasmalemma invaginations. Four developmental stages succeed; the third one being the secretory. The extrafloral nectaries activity period starts when the flowers of the same secondary axis open and ceases before fruit development.

Published

2020

8. Ontogeny of the extrafloral nectaries of Vigna adenantha (Leguminosae, Phaseolae) and its relation with floral development.

Author

Ojeda FS, Hoc PS, Galati BG, and García MTA

Abstract

Background: The inflorescences of the genus Vigna Savi have extrafloral nectaries (EFNs) among the flowers whose origin is still unknown. The disposition, anatomy and morphology, as well as the ontogeny of the extrafloral nectaries (EFNs) associated with the inflorescences of Vigna adenantha (G.F.W. Meyer) Maréchal, Mascherpa & Stainier (Leguminosae, Papilionoideae, Phaseolae) were studied. Besides, the ultrastructure of the secretory stage was described., Results: The inflorescence, a raceme, bears a brief globose secondary axis in each node with 2 flowers and 5-7 EFNs, which develop in acropetal direction. Each EFN originates from the abscission of a flower bud that interrupts its development, resulting in an elevated EFN. This secretory structure is formed by a ring of epidermal and parenchymatic cells surrounding a group of elongated central cells. The nectary is irrigated by phloem and xylem. Four developmental stages proceed; each one relates to a different embryological stage of the flowers in each secondary axis., Conclusions: The first functional EFN of each secondary axis of the inflorescence reaches its maturity when both the pollen grains and the embryo sacs are completely developed and the flowers begin to open. The secretion is granulocrine. The following EFNs develop in the same way.

Published

2014

9. Structure of the stigma and style in sunflower (Helianthus annuus L.).

Author

Gotelli MM, Galati BG, and Medan D

Subjects

Helianthus embryology, Microscopy, Electron, Transmission, Seeds cytology, Flowers ultrastructure, Helianthus cytology

Abstract

This is the first report of the ultrastructure of the stigma and style during and after anthesis in Helianthus annuus L. using light and transmission electron microscopy. The stigma is bifid with unicellular papillae. There is no secretion of lipids, carbohydrates or proteins at anthesis. The style is semisolid in the upper portion, closer to the stigma, and becomes solid below. Ultrastructural changes on cells of the stigma and the style are described. The transmitting tissue of the ovule is first evident 40 minutes after pollination and persists during the first stages of embryogenesis. Only one pollen tube per micropyle was observed growing through this tissue.

Published

2010

10. Elaiophores in Gomesa bifolia (Sims) M.W. Chase & N.H. Williams (Oncidiinae: Cymbidieae: Orchidaceae): structure and oil secretion.

Author

Aliscioni SS, Torretta JP, Bello ME, and Galati BG

Subjects

Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Orchidaceae cytology, Orchidaceae ultrastructure, Plant Structures cytology, Plant Structures ultrastructure, Orchidaceae anatomy & histology, Orchidaceae metabolism, Plant Oils metabolism, Plant Structures anatomy & histology

Abstract

Background and Aims: Oils are an unusual floral reward in Orchidaceae, being produced by specialized glands called elaiophores. Such glands have been described in subtribe Oncidiinae for a few species. The aims of the present study were to identify the presence of elaiophores in Gomesa bifolia, to study their structure and to understand how the oil is secreted. Additionally, elaiophores of G. bifolia were compared with those of related taxa within the Oncidiinae., Methods: Elaiophores were identified using Sudan III. Their structure was examined by using light, scanning electron and transmission electron microscopy., Key Results: Secretion of oils was from the tips of callus protrusions. The secretory cells each had a large, centrally located nucleus, highly dense cytoplasm, abundant plastids containing lipid globules associated with starch grains, numerous mitochondria, an extensive system of rough and smooth endoplasmatic reticulum, and electron-dense dictyosomes. The outer tangential walls were thick, with a loose cellulose matrix and a few, sparsely distributed inconspicuous cavities. Electron-dense structures were observed in the cell wall and formed a lipid layer that covered the cuticle of the epidermal cells. The cuticle as viewed under the scanning electron microscope was irregularly rugose., Conclusions: The elaiophores of G. bifolia are of the epithelial type. The general structure of the secretory cells resembles that described for other species of Oncidiinae, but some unique features were encountered for this species. The oil appears to pass through the outer tangential wall and the cuticle, covering the latter without forming cuticular blisters.

Published

2009

11. Orbicules diversity in Oxalis species from the province of Buenos Aires (Argentina).

Author

Rosenfeldt S and Galati BG

Subjects

Argentina, Magnoliopsida anatomy & histology, Magnoliopsida classification, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Species Specificity, Magnoliopsida ultrastructure

Abstract

Eleven Oxalis L. species from the province of Buenos Aires (Argentina) were investigated with scanning and transmission electron microscopes. We identified four different types and two subtypes of orbicules. We conclude that the close morphological similarity between these species is also reflected in their orbicules, and we suggest that the orbicules morphology may be a useful character in systematic studies.

Published

2008

12. Pollen, tapetum and orbicule development in Modiolastrum malvifolium (Malvaceae).

Author

Galati BG, Monacci F, Gotelli MM, and Rosenfeldt S

Subjects

Malvaceae anatomy & histology, Microscopy, Electron, Transmission, Pollen anatomy & histology, Pollen ultrastructure, Malvaceae growth & development, Malvaceae ultrastructure, Pollen growth & development

Abstract

Background and Aims: Although orbicular functions are still a matter of debate, they are considered by most authors to be exclusively formed by a secretory tapetum. However, the presence of orbicules on a peritapetal membrane associated with a plasmodial tapetum has been described for Abutilon pictum (Malvaceae) in a previous study. Thus, studies on other species of Malvaceae are necessary to corroborate the presence of such bodies in other members of the family. Pollen and microsporangium development of Modiolastrum malvifolium has been studied in this work., Methods: Anthers at different stages of development were processed for transmission electron microscopy and light microscopy. Membranes and pollen walls resistant to acetolysis were isolated from whole anthers., Key Results: Microspore tetrads have a tetrahedral arrangement. Pollen grains are shed at the bicellular stage. The tapetum is invasive, non-syncytial and a peritapetal membrane with orbicules is formed., Conclusions: This is the first report of the presence of orbicules on a peritapetal membrane in a species with a tapetum of an invasive, non-syncytial type. Taking into consideration all the information on the subject, it can be concluded that the presence of orbicules is not a stable criterion to differentiate between a secretory or plasmodial, or intermediate invasive, non-syncytial tapetum.

Published

2007

13. Pollen morphology of Oxalis species from Buenos Aires province (Argentina).

Author

Rosenfeldt S and Galati BG

Subjects

Argentina, Magnoliopsida classification, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Pollen classification, Pollen cytology, Magnoliopsida ultrastructure, Pollen ultrastructure

Abstract

Pollen morphology and the degree of pollen variability within nine species and two varieties of Oxalis species from Buenos Aires Province (Argentina) were studied using light microscopy (LM), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Oxalis pollen grain is generally 3-colpate and the shape is prolate spheroidal, oblate spheroidal or spheroidal. The exine is microreticulate. The brochi are circular to polygonal; brochi sizes decrease near the colpi. The colpus membrane observed in unacetolysed material, is crustate or granular. The colpus length varies within a species; the largest grains are produced in stamens with long filaments and the smallest ones in stamens with short filaments. Four pollen types are distinguished by means of LM, SEM and TEM. They are recognized mostly on the basis of their colpus membrane structure. In conclusion, the morphological similarity among Oxalis species is also reflected in their pollen morphology.

Published

2007

14. Ubisch bodies and pollen ontogeny in Oxalis articulata Savigny.

Author

Rosenfeldt S and Galati BG

Subjects

Endoplasmic Reticulum, Rough ultrastructure, Microscopy, Electron, Transmission, Pollen ultrastructure, Magnoliopsida growth & development, Magnoliopsida ultrastructure, Pollen growth & development, Pollen metabolism

Abstract

The correlation between the ontogeny of Ubisch bodies and pollen development in Oxalis articulata was studied with Transmission Electron Microscopy (TEM). The ultrastructural changes observed during the different stages of development in the tapetal cells are related to Ubisch bodies, sporopollenin and pollen-kitt formation. The pro-orbicules have the appearance of lipid globuli and their formation is related to the endoplasmic reticulum of rough type (ERr). The lipid globules or pro-orbicules disappear in the mature Ubisch bodies, and the places that they occupied remain free of contents or with pollen-kitt.

Published

2005