Aspectos morfo-anatômicos de Paepalanthus hilairei koern. (Eriocaulaceae) da Serra do Cipó-MG

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Produ̧ão de mudas de lamiaceae para o cultivo hidropnico: Qualidade de enraizamento

Apex and basal cuttings of Lamiaceae plants (Mentha crispa L., Mentha piperita L. and Salvia officinalis L.) were submitted to rooting assay. The effects of water, H3BO3, KH2PO4, ZnSO 4 and KNO3 solutions on the formation of adventitious roots were studied in greenhouse conditions. The root morphology parameters were determined after the rooting processes. Salvia officinalis did not produce adventitious roots under the experimental conditions. Apex or basal cuttings showed similar rooting development. The root volume and length were more influencied by KNO3 and H3BO3 solutions than diameter and root surface area.

Effect of storage of cuttings on the rooting of different cultivars of cut chrysanthemums (Dendranthema grandiflora Tzvelev) for two different seasons

Chrysanthemums are commercially propagated through cuttings. Pre-rooting storage of cuttings in the dark is a common practice among growers and companies that work and trade with chrysanthemum cuttings. Therefore, the maximum storage period for cuttings and differences in tolerance among cultivars has been investigated. Adventitious roots of cuttings can originate in almost any tissue, including the epidermis, stem cortex and pericycle, ray parenchyma, immature xylem and phloem cells, and pith. The aims of this work were to determine the effect of time of cold storage of cuttings (0, 1, 2, 3, 4, 5 and 6 weeks) on the rooting of four cut chrysanthemum cultivars (Super White, Sheena, Dark Orange Reagan and Town Talk) for two seasons of the year (summer and winter), and also to determine the origin of root formation in chrysanthemum cuttings. The study was carried out as a randomized complete block design with 5 replications for each storage treatment. Each plot was comprised of three cuttings that were examined 14 days after the cutting procedure. During the winter, the roots were studied by scanning electron microscopy (SEM) at the Electron Microscope Laboratory. The following conclusions were made: in winter, cold storage affected the rooting of cuttings, mainly after two weeks of storage for all cultivars. The rooting percentage was lower in the winter and the cuttings could be preserved for a shorter period. The source and growth of roots in chrysanthemum cuttings was found to be endogenous. After three days, callus formed in the pericycle and the first emergence of adventitious roots occurred by the fourth day of rooting. During the summer, cold storage could be up to 4 weeks without any problems.

Caracterização morfológica do diásporo e da plântula de Archontophoenix cunninghamii (Arecaceae)

The palm Archontophoenix cunninghamii H.Wendl. & Drude, even widely used in landscaping, has been poorly studied. In general, there are few articles on morphology of seeds and seedlings of Arecaceae species. With the aim of filling this gap, the objective of the present work describes the diaspore (seed with adhering endocarp) and the seedling morphology. A. cunninghamii seeds present rounded shape and a ruminated endosperm of hard consistency. The embryo is lateral, peripheral and relatively undifferentiated, approximately 4 mm long, conical, with one of the extremities convex, and in its inside there is a small protuberance while the other extremity is rounded and narrower. The seedling is adjacent ligulated and hypogeal, with the development starting from a mass of undifferentiated cells in the micropillar depression, the differentiation of shoot and root primordium, being the first enveloped by a sheath closed. The root system is fasciculate, with different adventitious roots and several lateral roots with few absorbent hairs. The stem comprises three sheaths surrounding the first young leaf, which are opened in succession, permitting the emergence of the primary bifid leaf, with typical parallel nerves.

Enraizamento de estacas de Khaya senegalensis A.Juss. em diferentes concentrações de ácido indolbutírico

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Pitaya: propagação e crescimento de plantas

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Morphological effects of flooding on Styrax pohlii and the dynamics of physiological responses during flooding and post-flooding conditions

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Secondary metabolites from Spirotropis longifolia (DC) Baill and their antifungal activity against human pathogenic fungi

A phytochemical study of the ethyl acetate extract of the roots and adventitious roots of Spirotropis longifolia, a monodominant tree species of the Guianan rainforest, has allowed the isolation of three compounds: 2- hydroxy-8,9-methylenedioxy-2',2'-dimethylpyrano-[5',6':4,3]-6a-prenyl-[6aS,11aS]-pterocarpan (spirotropin A), 2-hydroxy-8,9-methylenedioxy-2',2'-dimethy1-3',4'-dihydropyrano-[5',6':4,3]-6a-prenyl-(6aS,11aS]-pterocarpan (spirotropin B), and 5,7-dihydroxy-6.8-dipreny1-2 ''''.2 ''''-dimethylpyrano[5 '''',6 '''': 3',4]-isoflavone (spirotropone). In addition, 10 known compounds, trans-oxyresveratrol, trans-resveratrol, piceatannol, daidzein, genistein, isoprunetin, lupeol, latifolol, gnetin D and gnetin E, were also isolated. These compounds were evaluated for their antifungal activity and their cytotoxicity, and their structures were established by 1D and 2D NMR, HRMS, CD and optical rotation measurements. (C) 2011 Elsevier Ltd. All rights reserved.

Pre-procambial cells are niches for pluripotent and totipotent stem-like cells for organogenesis and somatic embryogenesis in the peach palm: a histological study

The direct induction of adventitious buds and somatic embryos from explants is a morphogenetic process that is under the influence of exogenous plant growth regulators and its interactions with endogenous phytohormones. We performed an in vitro histological analysis in peach palm (Bactris gasipaes Kunth) shoot apexes and determined that the positioning of competent cells and their interaction with neighboring cells, under the influence of combinations of exogenously applied growth regulators (NAA/BAP and NAA/TDZ), allows the pre-procambial cells (PPCs) to act in different morphogenic pathways to establish niche competent cells. It is likely that there has been a habituation phenomenon during the regeneration and development of the microplants. This includes promoting the tillering of primary or secondary buds due to culturing in the absence of NAA/BAP or NAA/TDZ after a period in the presence of these growth regulators. Histological analyses determined that the adventitious roots were derived from the dedifferentiation of the parenchymal cells located in the basal region of the adventitious buds, with the establishment of rooting pole, due to an auxin gradient. Furthermore, histological and histochemical analyses allowed us to characterize how the PPCs provide niches for multipotent, pluripotent and totipotent stem-like cells for vascular differentiation, organogenesis and somatic embryogenesis in the peach palm. The histological and histochemical analyses also allowed us to detect the unicellular or multicellular origin of somatic embryogenesis. Therefore, our results indicate that the use of growth regulators in microplants can lead to habituation and to different morphogenic pathways leading to potential niche establishment, depending on the positioning of the competent cells and their interaction with neighboring cells. Key message Our results indicate that the use of growth regulators in microplants can lead to habituation and to different morphogenic pathways leading to potential niche establishment, depending on the positioning of the competent cells and their interaction with neighboring cells.

Vergleichende Untersuchungen zur Wurzelbildung

Die Entwicklungsgänge der untersuchten Wurzeln unterscheiden sich beträchtlich. Eine Unterteilung in Teilprozesse hat sich bewährt. Die Entwicklung beginnt mit der Umstimmung, meist erkennbar an der Rematisierung des primordiogenen Areals. Während der anschließenden primären Morphogenese, der Substratbildung, können Teilungsmuster auftreten, die häufig als Anzeichen der beginnenden Differenzierung gewertet werden, tatsächlich aber nur die Formbildung widerspiegeln. Die Differenzierung als primäre Histogenese beginnt erst, wenn das Primordium eine bestimmte Größe erreicht hat.Die Radikula entwickelt sich ohne Remeristematisierung und ohne erkennbare primäre Morphogenese. Erstes Anzeichen ist die Ausbildung besonderer Zellmuster. Sie entsteht durch die Überprägung vorhandenen Substrats.Bei den Grenzwurzeln, die im Gegensatz zu den anderen sekundären Wurzeln einen festen Platz im Bauplan einnehmen, kann die Rematisierung fehlen.Die Größe des remeristematisierten Areals richtet sich meist nach dem zur Verfügung stehenden Substrat. Mitunter kann ein so großes Gewebeareal remeristematisiert werden, daß die Histogenese ohne dazwischengeschaltetes Volumenwachstum erfolgt. Die Zellteilungen haben dann einzig die Funktion, ein kleinzelliges Meristem zu schaffen. Die Entwicklung der Radikula zeigt viele Gemeinsamkeiten mit der sekundärer Wurzeln: Die Radikula ist also keine Sonderbildung, aber eine Wurzel mit Sonderstatus: Sie hebt sich durch ihre extrem frühe Anlegung, ihre axiale Orientierung und die starke Förderung ganz deutlich von den sekundären Wurzeln ab.

Micropropagación de Cissus tiliacea, planta del sur del estado de México

Se micropropagó Cissus tiliacea, recurso fitogenético con potencial agronómico y farmacológico, en los medios de cultivo Murashige-Skoog (MS) y Lloyd y McCown (WPM). En ambos medios se generaron resultados similares para número de brotes, nudos, hojas y raíces adventicias, sólo existió diferencia significativa (p ≤ 0,05) en la formación de callo. Para la multiplicación in vitro se utilizó WPM adicionado con 0; 0,5; 1,0; 1,5 ó 2,0 mg L-1 de benciladenina (BA) y se emplearon tres tipos de segmentos nodales (basal, medio y apical). Las concentraciones de 0 y 0,5 mg L-1 de BA resultaron en un mayor tamaño y desarrollo del explante, además permitieron la formación de 1,2 a 1,6 raíces por explante. Las concentraciones de 1,5 y 2,0 mg L-1 de BA indujeron la formación de callo. No existió diferencia significativa en las variables evaluadas por efecto del tipo de segmento nodal establecido in vitro. En el enraizamiento, en el medio MS, se evaluaron tres tipos de auxinas: ácido naftalen-1-acético (ANA), ácido indol-3-butírico (AIB) y ácido indol- 3-acético (AIA) a 0,5 mg L-1; el mayor número de raíces secundarias y diámetro de la raíz principal fue inducido por ANA, sin embargo AIB indujo una mayor elongación de la raíz principal. Los resultados del presente trabajo sugieren que el cultivo in vitro de C. tiliacea es una alternativa para su conservación y multiplicación.

Concentración de benciladenina, tipo y dosis de carbohidratos en el medio de cultivo para proliferación de brotes de Agave americana

Para evaluar la proliferación in vitro de brotes de Agave americana var. oaxacensis, piezas de callo con dos a tres brotes adventicios se establecieron en diversos medios de cultivo con pH 5,8 y consistencia de gel, con sales minerales MS, 100 mg L-1 myo-inositol, diversas concentraciones de benciladenina (BA) (0, 2, 4, 6, 8 y 10 mg L-1), tipo de carbohidrato (sacarosa o jarabe fructosado) y concentración de carbohidrato (20, 30, 40 g). Los cultivos se incubaron 60 días bajo luz fluorescente blanca en 16 h luz/8 h oscuridad, temperatura 20- 28°C. El experimento se estableció según un diseño completamente al azar con arreglo factorial 6x2x3. La sacarosa resultó mejor fuente de carbohidrato que el jarabe fructosado. Los explantos en el medio de cultivo sin BA y 20 g L-1 de sacarosa formaron cuatro brotes de 10,8 cm, con raíces adventicias. Al aumentar la concentración de BA y sacarosa los explantos formaron más brotes, pero en el medio con 6 mg L-1 BA y 40 g L-1 sacarosa los explantos formaron hasta 21 brotes de 6,5 cm de tamaño. La citocinina inhibió la formación de raíces.

Improved walnut mass micropropagation through the combined use of phloroglucinol and FeEDDHA

Despite the socioeconomic importance of walnut trees, poor rooting and recalcitrance to in vitro culture have hampered the establishment of high-yield clonal plantations. To improve walnut micropropagation, we introduced several modifications to current methods and evaluated the effects on microshoot performance and acclimatization. Nine selected genotypes (13-year-old trees) of the commercial hybrid Juglans major 209 x J. regia were cultured in vitro on DKW-C medium supplemented with 4.4 µM BA and 50 µM IBA. A protocol was developed that relies on the use of 0.40 mM phloroglucinol during shoot multiplication, 0.20 mM previous root induction, and 6.81 mg/L Fe3+ (FeEDDHA). Moreover, the addition of 83.2 µM glucose during the root expression phase significantly improved plant survival during acclimatization. Phloroglucinol promoted microshoot elongation but inhibited rooting, especially at concentrations above 0.40 mM. Replacing FeEDTA by FeEDDHA diminished chlorotic symptoms and improved rooting, with up to 90% microshoots developing viable roots. Likewise, glucose was more efficient than sucrose or fructose in promoting plant survival. At the proposed working concentrations, neither glucose nor FeEDDHA caused any noticeable deleterious effect on walnut micropropagation. Microscopic analysis revealed the physical continuity between adventitious roots and stem pericycles. Analysis of leaf genomic DNA with eight polymorphic microsatellite markers was supportive of the clonal fidelity and genetic stability of the micropropagated material. Successful clonal plantations (over 5,800 ramets) have been established by applying this protocol.

Horizontal gene transfer and mutation: Ngrol genes in the genome of Nicotiana glauca

Ngrol genes (NgrolB, NgrolC, NgORF13, and NgORF14) that are similar in sequence to genes in the left transferred DNA (TL-DNA) of Agrobacterium rhizogenes have been found in the genome of untransformed plants of Nicotiana glauca. It has been suggested that a bacterial infection resulted in transformation of Ngrol genes early in the evolution of the genus Nicotiana. Although the corresponding four rol genes in TL-DNA provoked hairy-root syndrome in plants, present-day N. glauca and plants transformed with Ngrol genes did not exhibit this phenotype. Sequenced complementation analysis revealed that the NgrolB gene did not induce adventitious roots because it contained two point mutations. Single-base site-directed mutagenesis at these two positions restored the capacity for root induction to the NgrolB gene. When the NgrolB, with these two base substitutions, was positioned under the control of the cauliflower mosaic virus 35S promoter (P35S), transgenic tobacco plants exhibited morphological abnormalities that were not observed in P35s-RirolB plants. In contrast, the activity of the NgrolC gene may have been conserved after an ancient infection by bacteria. Discussed is the effect of the horizontal gene transfer of the Ngrol genes and mutations in the NgrolB gene on the phenotype of ancient plants during the evolution of N. glauca.

Mortal: A Mutant of White Clover Defective in Nodal Root Development

A monogenic dominant mutant of white clover (Trifolium repens L.), designated Mortal, which is defective in the formation of adventitious nodal roots, is described. Mortal plants grown at temperatures ranging from 10 to 25°C do not initiate nodal root primordium development. However, all other aspects of plant development are normal, including the formation of lateral roots and wound-induced adventitious roots. In some genetic backgrounds, the Mortal mutation has a temperature-sensitive conditional phenotype. Mortal plants shifted from growing conditions of 20 to 30°C for 2 to 3 d form nodal root meristems. However, new nodes that develop after plants are returned to 20°C exhibit the mutant phenotype. The capacity to form nodal roots on cuttings placed in water is also influenced by the genetic background of the Mortal mutation. Genetic analysis established that the physiological reversion of Mortal to nodal root formation is controlled by at least two separate dominant genetic loci, one for Nodal water response (Now) and one for Nodal temperature response (Not); the Now locus has a dominant epistatic interaction with the Not locus. The conditional nature of Mortal should provide opportunities for the identification of genetic and physiological mechanisms that influence the development of nodal roots.