A study on variation in spatial voltage distribution pattern across tissue layers between non-excitable plant and excitable plant

Understanding the mechanism of information processing in plants remains a challenging task even in the era of machine learning and artificial neural networks. Sir J.C. Bose had demonstrated through his experiments that the various modes of stimulation which effectively initiated nervous impulse in animals led to impulse generation in the excitable plant Mimosa pudica as well. In order to localize the tissue responsible for conduction of excitation in the petiole of Mimosa, Bose had constructed a specialized ‘Electric Probe’ (glass tip electrode). From this experiment, Bose found that there were different intensities of transmitted excitation in different tissue layers of the petiole. In this backdrop, an experimental research has been conducted to comparatively study the pattern of spatial voltage distribution across different tissue layers in both, a non-excitable plant Alternanthera philoxeroides (in stem) and an excitable plant Mimosa pudica (in petiole), by following experimental principles similar to that of Sir J. C. Bose. For the present experimental study, the electrical probes (glass tip electrode), similar to the one designed by J.C. Bose and the whole experimental setup has been constructed and developed completely in the laboratory. The results indicated a striking difference in the spatial voltage distribution pattern between the non-excitable and the excitable plant. Since Mimosa is an excitable plant having specialized mechanoreceptor cells, the change in spatial voltage distribution in the different layers of petiole, following excitation (uniform electrical stimuli) of a sub-petiole has been also studied, as an additional segment of the present research. In the present study a notable difference in the intensities of the transmitted excitation was also found upon electrical stimulation of one of the sub-petioles of the excitable plant M. pudica.

Insight into strigolactone hormone functions in plant parasitic weeds: a regulatory perspective

The strigolactones (SLs) are plants hormones that have multiple functions in architecture and development. The roles of SLs in shoot branching and stem secondary growth of autotrophic plants are established. SL is also involved in the interaction between root parasitic plants and their host plants. SLs are exudates by the root of the host plant in search of a fungal partner for symbiotic association, while parasitic plants utilize this facility to detect the host root. The first formed tubercle of Philapanhche, whose germinations are driven by host-derived SLs, exudates parasitic derived SLs (PSLs) and could encourages germination of the adjacent parasitic seeds, resulting in parasite cluster formation. The existence of aboveground spikes in clusters suggests an intriguing approach for increasing parasite population by amplifying PSLs, which result in massive parasitic seed germination. PSLs probably have a role in the increased branching of Broomrapes opposing the host plant, resulting in the parasites' clustered appearance aboveground. This review highlights the distinct roles of SLs and PSLs, and their potential role in host-parasitic interaction.

The retranslocation of boron is influenced by the nutritional status of cherry tomato plants / A retranslocação do boro é influenciada pelo estado nutricional do tomateiro cereja

Boron (B) retranslocation may confer greater tolerance to B deficiency or toxicity, resulting in plants and fruits with better nutritional quality. Most plants do not demonstrate phloem mobility for B; however, some plants have natural mobility and others express it under stress conditions, such as nutritional stress. Therefore, we investigated the phloem mobility of B in cherry tomato plants with different nutritional status. The plants were cultivated in nutrient solution with adequate and insufficient doses of Potassium (K) and B. Furthermore, the plants received foliar fertilization with B in a mature leaf (F) in a localized form. The B content and amount in leaves near F were compared with leaves of the same age and position on control plants. The experiment was carried out in a protected environment and conducted in a randomized complete block design in a subdivided plot scheme with four replicates. Re-translocation of B between neighboring leaves was observed when the plant was without K deficiency and with B deficiency. In this nutritional status, leaves next to fertilized leaf with B (F) showed higher B amount when compared to leaves of the same position of control plants. Evidence suggests that retranslocation of B over relatively short distances (between leaves) can be influenced by the nutritional status the cherry tomato plants.

A retranslocação de Boro (B) pode conferir maior tolerância à deficiência ou toxidez de B, resultando em plantas e frutos com melhor qualidade nutricional. A maioria das plantas não demonstra mobilidade floemática para o B, contudo, algumas plantas possuem mobilidade natural e outras a expressam sob condições de estresse, como o estresse nutricional. Nesse sentido, foi investigada a mobilidade floemática do B em plantas de tomate cereja com diferentes status nutricionais. As plantas foram cultivadas em solução nutritiva com doses adequada e insuficiente de Potássio (K) e B. Adicionalmente, as plantas receberam, de forma localizada, fertilização foliar com B em uma folha madura (F). Os teores e os conteúdos de B nas folhas vizinhas a F foram comparados com folhas de mesma idade e posição de plantas controle. O experimento foi realizado em ambiente protegido e conduzido no delineamento de blocos casualizados em esquema de parcelas subdivididas com quatro repetições. Evidenciou-se retranslocação de B entre folhas vizinhas quando a planta estava sem deficiência de K e com deficiência de B. Neste status nutricional, as folhas vizinhas à folha aplicada (F) apresentaram maiores teores e conteúdos de B quando comparadas às folhas de mesma posição das plantas controle. As evidências sugerem que a retranslocação de B em distâncias relativamente curtas (entre folhas) pode ser influenciada pelo status nutricional de plantas de tomate cereja.

Leaf and Stem Anatomy of Cherry Tomato Under Calcium and Magnesium Deficiencies

Abstract Studies evaluating the influence of nutrients on plant anatomy are very important because nutritional deficiencies can alter the thickness and shape of certain tissues, compromising their functionality what can explain the reduction of productivity. The aim of this study was to characterize the anatomical changes in cherry tomato plants subjected to calcium (Ca) and magnesium (Mg) deficiencies. The experiment was conducted in nutrient solution and the plants subjected to three treatments: complete solution (Control), Ca restriction (1 mmol L-1 of Ca) and Mg omission (without Mg). The experimental design was completely randomized, with three repetitions. Sixty days after seedling transplanting leaves and stem were collected and submitted to anatomical evaluations. Ca or Mg deficiency promotes most evident anatomical changes in chlorophyllous and vascular tissues of the leaves, rather than in the stems. Leaves of 'Sindy' tomato plants with a concentration of 1.7 g kg-1 of Mg and visual symptoms of Mg deficiency present hyperplasia of both tissues, phloem and xylem. This deficiency also promotes increases in the thickness of mesophyll, spongy parenchyma and palisade parenchyma, and consequently of leaf thickness. The midrib of the leaves with a concentration of 10 g kg-1 of Ca, without visual symptoms of deficiency presented phloem hypertrophy and hyperplasia.

Morpho-anatomy of the leaf and stem of Eugenia pyriformis

Eugenia pyriformis Cambess., known as uvaia, is a species of Myrtaceae native to Brazil. Its leaves are used in folk medicine to treat gout because they possess the property of inhibiting xanthine oxidase, an enzyme involved in the conversion of xanthine into uric acid. The objective of this work was to study the leaf and stem morpho-anatomy of E. pyriformis, in order to contribute to what is known about the Brazilian flora, and this medicinal plant and potential vegetal drug. Samples of mature leaves and young stems were fixed and sectioned by freehand, or embedded in glycol methacrylate and sectioned with a microtome, and then stained. In addition, microchemical tests and scanning electron microscopy were performed. The leaf is simple, symmetric, elliptic-lanceolate, with an acute apex and base, and an entire margin. The epidermis is uniseriate and coated with a moderately thick cuticle. The stomata are anomocytic and inserted at the same level as the adjacent cells. Unicellular non-glandular trichomes are abundant on the abaxial surface. The mesophyll is dorsiventral. In transverse section, the midrib is plano-convex and the petiole is circular, and both of these structures have a single bicollateral vascular bundle. In the stem, the vascular cylinder consists of external phloem, xylem and internal phloem, traversed by narrow rays. Phenolic compounds, druses and prismatic crystals of calcium oxalate are also present in the leaf and stem.

Plant defence proteins during aphid infestation.

Parasitism by phloem-feeding insects, such as aphids and whiteflies, are widespread and often serious constraint on plant growth. Aphids successfully exploit a broad range of vascular plants. Despite the ubiquity of phloem feeding insects, in depth knowledge of plant defence and plantmicrobe interactions is still lagging. This review summarizes the current knowledge about the phloem sap proteins that are involved in defence reactions with probable functions in wound and defence reactions.

Himatanthus lancifolius (Müll. Arg.) Woodson, Apocynaceae: estudo farmacobotânico de uma planta medicinal da Farmacopeia brasileira 1ª edição / Himatanthus lancifolius (Müll. Arg.) Woodson, Apocynaceae: morpho-anatomical study of a medicinal plant described in the Brazilian Pharmacopoeia 1st edition

Himatanthus lancifolius (Müll. Arg.) Woodson é um arbusto nativo do Brasil, latescente, popularmente conhecido como agoniada e utilizado principalmente para distúrbios menstruais. O presente trabalho teve como objetivo caracterizar morfoanatomicamente a folha, o caule e a casca caulinar dessa planta medicinal, a fim de contribuir para o controle de qualidade e a autenticidade dessa espécie. O material vegetal foi fixado e submetido às microtécnicas usuais. A folha é simples, glabra e obovado-lanceolada. A epiderme é uniestratificada, revestida por cutícula estriada e possui estômatos anisocíticos na face abaxial. O mesofilo é dorsiventral. A nervura central é biconvexa e o pecíolo é circular, ambos apresentando feixes vasculares bicolaterais. Laticíferos, amiloplastos e idioblastos fenólicos estão presentes no parênquima fundamental da nervura central e do pecíolo. O sistema vascular do caule é tipicamente bicolateral. Laticíferos e idioblastos fenólicos ocorrem no córtex, no floema e na medula. Esses caracteres morfoanatômicos, em conjunto, podem ser utilizados como parâmetros para o controle de qualidade dessa espécie.

Himatanthus lancifolius (Müll. Arg.) Woodson is a Brazilian native shrub, laticiferous, popularly known as "agoniada" and it is mainly used for uterine disorders. The present work aimed to study the leaf, stem and stem bark morpho-anatomy of this medicinal plant, in order to contribute to its quality control and identification. The plant material was fixed and submitted to standard microtechniques. The leaf is simple, glabrous and obovate-lanceolate. The epidermis is uniseriate, coated with striated cuticle and it has anysocitic stomata on the abaxial surface. The mesophyll is dorsiventral. The midrib is biconvex and the petiole is circular, both presenting bicollateral vascular bundles. Laticiferous ducts, amyloplasts and phenolic idioblasts are found in ground parenchyma of the midrib and petiole. The vascular system of the stem is tipically bicollateral. Laticiferous ducts and phenolic idioblasts are present in the cortex, phloem and pith. These morpho-anatomical characters, all together, can be used as quality control parameters of this species.

Pharmacobotanic characterization of young stems and stem barks of Rauvolfia sellowii Müll. Arg., Apocynaceae / Caracterização farmacobotânica de novos talos e cascas do caule de Rauvolfia sellowii Müll. Arg., Apocynaceae

Rauvolfia sellowii Müll. Arg. (Apocynaceae), a Brazilian native tree rich in indole alkaloids, is known as "pau-pra-tudo" and popularly used as hypocholesterolemic, hypoglycemic and antihypertensive. The aim of this work was to study the anatomy of the young stems and stem barks of this medicinal plant, in order to contribute to the identification of the species as a drug. The plant material was fixed and prepared according to standard microtechniques. The young stems have remaining epidermis, but a suberified peridermis is evident. The phellogen is located in the cortical region, forming suber externally. Underneath the phellogen, lies the phelloderm and collenchymatic region. In the cortex, there are numerous laticifers and some fibers. There is an incomplete sclerenchymatic sheath, consisting of several groups of fibers and stone cells. The stem has internal phloem ordered as isolated groups side by side. Numerous laticifers, calcium oxalate crystals, idioblasts and amyloplasts are found in the cortex, phloem, xylem and pith. The stem bark has many layers of suber and cortical parenchyma, a sheath composed of fibers and stone cells totally lignified, and external phloem. These anatomical characteristic, taken together, can be used as quality control parameters for this species.

Rauvolfia sellowii Müll. Arg. (Apocynaceae), uma árvore nativa brasileira rica em alcaloides indólicos, é conhecida como "pau-pra-tudo" e utilizada popularmente como hipocolesterolêmica, hipoglicêmica e anti-hipertensiva. O presente trabalho teve como objetivo caracterizar anatomicamente o caule jovem e a casca caulinar dessa planta medicinal, a fim de contribuir para a identificação e autenticidade da droga. O material vegetal foi fixado e submetido às microtécnicas usuais. O caule jovem possui epiderme remanescente, porém uma periderme suberificada é observada. O felogênio instala-se na região cortical, formando súber externamente. Subjacentes ao felogênio são observadas a feloderme e uma região colenquimática. No córtex, há numerosos laticíferos e algumas fibras. Há uma bainha esclerenquimática incompleta, constituída de vários grupos de fibras e células pétreas. O caule mostra floema interno organizado em grupos isolados lado a lado. Numerosos laticíferos, cristais de oxalato de cálcio, idioblastos e amiloplastos são encontrados no córtex, no floema, no xilema e na medula. A casca do caule possui várias camadas de súber e parênquima cortical, uma bainha composta de fibras e células pétreas totalmente lignificadas, e floema externo. Estes caracteres anatômicos, quando analisados em conjunto, podem ser utilizados como parâmetros para controle de qualidade desta espécie.