Brenda Martins Cotta Salomé’s research while affiliated with Montes Claros State University and other places

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Publications (1)


Climate data (from Montes Claros, Minas Gerais State, Brazil). National Institute of Meteorology of Brazil – INMET (https://portal.inmet.gov.br/)
Adult individual of Calotropis procera (Apocynaceae): a Panoramic view of a wild population in the Brazilian Cerrado region. b Stem apex. c Basal region of a transversally sectioned stem. c vascular cambium, co cortex, kn leaf node, le leaf, pe petiole, pi pith, sp secondary phloem, su cork, sx secondary xylem, arrow latex. Scale bars: a = 10 cm; b = 1 µm; c = 500 mm
Distribution of laticifer system in the primary structure of the stem of Calotropis procera (Apocynaceae). a–c, e–f Cross-sections. d Longitudinal section. a–e Laticifer present in the cortex and pith and between the external and internal phloem bands, concentrated close to the phloem. ca vascular cambium; co cortex, fi gelatinous fibers; ip inner phloem; op outer phloem; pi medulla; px primary xylem; sx secondary xylem; tr trichomes; vc vascular cylinder; arrow laticifer. Scale bars: a–b, d–f 50 = μm; c = 200 μm
Laticifer development in the stem apex of Calotropis procera (Apocynaceae). Longitudinal sections. a Early development in the promeristem. Well-defined nodes and internodes and colleters devoid of laticifer located in the axils of leaf primordia. b–c Laticifer differentiating from the ground meristem of the cortex and medulla. d Large caliber, longitudinally elongated and branched laticifer. am apical meristem, cl colleter, co cortex, fp leaf primordium, in internode, kn node, pc procambium, pi medulla, arrow laticifers, arrowhead ramifications. Scale bars: a = 10 μm; b, d = 25 µm; c = 50 μm
Latex in laticifer in the primary structure of the stem of Calotropis procera (Apocynaceae). a Longitudinal section. b–d Cross-sections. a–b Elongated and branched laticifer in the regions of the cortex and medulla. c–d Thin cytoplasm, compressed against the cell wall, and latex accumulated in a voluminous central vacuole. co cortex, cy cytoplasm, ep epidermis, fi fibers, pc procambium, pi medulla, vs vascular system, cw cell wall, arrows laticifer, arrowhead latex. Scale bars: a = 50 μm; b = 100 µm; c–d = 10 μm

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Anastomosing laticifer in the primary and secondary structures of Calotropis procera (Aiton) W.T.Aiton (Apocynaceae) stems
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July 2022

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2 Citations

Protoplasma

Brenda Martins Cotta Salomé

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Ariadna Freitas Santos

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An in-depth understanding of the development and distribution of laticifer (latex secretory structure) will be important for the production of both rubber and medicines and will support studies on plant adaptations to their environments. We characterize here and describe the ontogenesis of the laticifer sytem in Calotropis procera (Apocynaceae), an invasive subshrub species in arid landscapes. Anatomical and histochemical evaluations of the primary and secondary structures of the stem were carried out on a monthly basis during a full year, with ultrastructural evaluations of laticifer on the stem apex during the rainy season. In the primary structure, laticifer differentiate early from procambium and ground meristem cells of the cortex and medulla and become concentrated adjacent to the external and internal phloem of the bicollateral bundles. In the secondary structure, laticifer differentiates from fusiform derivative cells of the phloem close to the sieve-tube elements. The laticifer is of the articulated, anastomosing, branched type, and it originates from precursor cells that loose the transversal and longitudinal walls by dissolution. Latex is a mixture of terpenes, alkaloids, flavonoids, mucilage, and proteins. The apical meristem and vascular cambium where the laticifer system begins its development are active throughout the year, including during the dry season. The vascular cambium produces phloem with laticifer precursor cells during the rainy season, with high temperatures and long days. The ability of C. procera to grow under water deficit conditions and produce laticifer throughout the year contribute to its wide distribution in arid environments.

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Citations (1)


... We observed that the laticifers of M. zehntneri originate early in the fundamental meristem and procambium, later arising from fusiform cambial derivatives of the phloem. In the secondary structure, the laticifers of M. zehntneri originate from cambial fusiform phloem derivatives, as has been reported in other species of the family (Nakazawa et al. 2013, Gonçalves et al. 2018Souza et al. 2021;Salomé et al. 2022). The association of laticifers with sieve tube elements may favor the availability of carbohydrates that are necessary to supply the high-energy demands of latex synthesis. ...

Reference:

Laticifer ontogenesis and the chemical constituents of Marsdenia zehntneri (Apocynaceae) latex in a semiarid environment
Anastomosing laticifer in the primary and secondary structures of Calotropis procera (Aiton) W.T.Aiton (Apocynaceae) stems

Protoplasma