SummaryPolyethylene glycol (PEG) is a low-cost and advantageous embedding medium, which maintains the majority of cell contents unaltered during the embedding process. Some hard or complex plant materials are better embedded in PEG than in other usual embedding media. However, the histochemical tests for phenolics and lignins in PEG-embedded plant tissues commonly result in false negatives. We hypothesize that these false negatives should be prevented by the use of distinct fixatives, which should avoid the bonds between PEG and phenols. Novel protocols for phenolics and flavanols detection are efficiently tested, with fixation of the samples in ferrous sulfate and formalin or in caffeine and sodium benzoate, respectively. The differentiation of lignin types is possible in safranin-stained sections observed under fluorescence. The Maule's test faultlessly distinguishes syringyl-rich from guaiacyl-and hydroxyphenyl-rich lignins in PEG-embedded material under light microscopy. Current hypothesis is corroborated, that is, the adequate fixation solves the false-negative results, and the new proposed protocols fill up some gaps on the detection of phenolics and lignins. (J Histochem Cytochem 65:105-116, 2017)
Objetivando auxiliar trabalhos taxonômicos e farmacobotânicos, foram realizados estudos morfoanatômicos dos órgãos vegetativos de Piper crassinervium H.B. & K. (jaborandi). O material foi analisado seguindo-se técnicas usuais de corte e coloração. P. crassinervium é um arbusto de caule ereto, de folhas estipuladas e alternas. Dentre as características anatômicas importantes para a sua identificação destacam-se: parênquima cortical radical com esclereídes; córtex caulinar com faixas descontínuas de colênquima e tecido vascular organizado em dois círculos descontínuos de feixes colaterais, delimitados por endoderme com estrias de Caspary; folha dorsiventral, hipoestomática, com estômatos ciclocíticos e tetracíticos e hipoderme unisseriada, porém, com 1-3 camadas de células na região da nervura principal; parênquima clorofiliano com idioblastos oleíferos; tricomas glandulares na epiderme unisseriada e idioblastos com pequenos cristais aciculares no parênquima em todos os órgãos.
The genera and species of Piperaceae show a considerable structural diversity of leaves and especially stems. This paper presents a comparative morphological and anatomical study of the leaves and stems of three common Brazilian species of this family (Peperomia dahlstedtii C.DC., Ottonia martiana Miq. and Piper diospyrifolium Kunth), the vegetative organs of which have previously been little studied. The collected plant material was fixed in FAA, cut freehand and stained in safranin and astra blue. P. dahlstedtii is an epiphyte and has a herbaceous stem with whorled leaves phyllotaxis and a polystelic structure, a multiseriate adaxial leaf epidermis and calcium oxalate monocrystals in parenchyma and collenchyma petiole cells. O. martiana and P. diospyrifolium showed strong similarities, both being terrestrial plants, with alternate phyllotaxis, stele with medullary bundles and dorsiventral leaves with an epidermis and subepidermic layer. In O. martiana the stomatal complex is staurocytic and presented silica crystal sand in parenchyma petiole and midrib cells. In P. diospyrifolium the stomatal complex is tetracytic and there are calcium oxalate raphide crystals in the parenchyma of the petiole and midrib cells. On the other hand, the three species show some structural likenesses in that all have hypostomatic and dorsiventral leaves, oily cells in petiole and mesophyll, secretory trichomes and an endodermis with Casparian strips.
-(Floral morphology and anatomy of Pilocarpus pennatifolius Lem. (Rutaceae)). Pilocarpus pennatifolius Lem. (Rutaceae) presents actinomorphics, dichlamydeous, nectariferous and monoclinous flowers, disposed in pendulous racemes. The anthesis is basipetal in the inflorescence and it is preferentially nocturne. The flower presents five stamens with tetrasporangiate anthers. The anther wall presents epidermis, endothecium, two middle layers and binucleate tapetum; the connective shows epidermis with stomata. The unipistilate gynoecium and compound by five carpels, which are joined at the base of the ovary and at the style and stigma. The style is short and solid and the stigma presents a papilose epidermis. The hemitropous, bitegmic and crassinucelate ovule presents a hypostasis and an obturator, which arises from funicle. The nectary surrounds completely the ovary base. Each sepal receives three vascular traces and the petals and stamens one trace. Each carpel receives a dorsal vascular bundle and two vascular ventral bundles that maintain their individuality throughout their course.Key words -anatomy, anthesis, flower, Pilocarpus pennatifolius, Rutaceae
RESUMO -(Morfologia e anatomia da flor de Pilocarpus pennatifolius Lem. (Rutaceae)). Pilocarpus pennatifolius Lem.(Rutaceae) apresenta flores actinomorfas, diclamídeas, nectaríferas e monoclinas, reunidas em cacho pendente. Apresenta antese basípeta na inflorescência e preferencialmente noturna. A flor possui cinco estames com anteras tetrasporangiadas, cuja parede é constituída de epiderme, endotécio, duas camadas médias e tapete binucleado; o conectivo mostra epiderme estomatífera. O gineceu é unipistilado e composto por cinco carpelos unidos na região basal do ovário e no estilete e estigma. O estilete é curto e sólido e o estigma tem epiderme papilosa. O rudimento seminal (óvulo) é hemítropo, bitegumentado, crassinucelado e provido de hipóstase e possui obturador de origem funicular. O nectário envolve completamente a base do ovário. Cada sépala recebe três traços vasculares e as pétalas e estames apenas um; cada carpelo recebe um feixe vascular dorsal e dois ventrais, que mantêm individualidade em todo seu curso.
Light intensity and hormones (gibberellins; GAs) alter plant growth and development. A fine regulation triggered by light and GAs induces changes in stem cell walls (CW). Cross-talk between light-stimulated and GAs-induced processes as well as the phenolic compounds metabolism leads to modifications in lignin formation and deposition on cell walls. How these factors (light and GAs) promote changes in lignin content and composition. In addition, structural changes were evaluated in the stem anatomy of tobacco plants. GA3 was sprayed onto the leaves and paclobutrazol (PAC), a GA biosynthesis inhibitor, via soil, at different irradiance levels. Fluorescence microscopy techniques were applied to detect lignin, and electron microscopy (SEM and TEM) was used to obtain details on cell wall structure. Furthermore, determination of total lignin and monomer contents were analyzed. Both light and GAs induces increased lignin content and CW thickening as well as greater number of fiber-like cells but not tracheary elements. The assays demonstrate that light exerts a role in lignification under GA3 supplementation. In addition, the existence of an exclusive response mechanism to light was detected, that GAs are not able to replace.
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