137 resultados para Persea pyrifolia
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[ES] Basándose en estudios etnobotánicos, un grupo de científicos de la Facultad Danesa de Farmacia, Universidad de Copenhagen, Dinamarca, ha realizado estudios etnofarmacológicos "In vitro" e "In vivo" de las plantas medicinales usadas tradicionalmente por los Huilliches. Los resultados como antioxidantes, antidiabéticos, antihipertensión y antimicrobiales son promisorios. Sus principales componentes con actividad biológica han sido identificados. Extracto y aislado componente de Lomatia hirsuta muestra total inhibición de Candida albicans. Extractos y componentes de especies como Drimys winteri, Crinodendron hookerianum, Persea lingue, Coriaria ruscifolia y otras inhiben varias bacterias resistentes a los antibioticos.
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Self-incompatibility (SI) systems have evolved in many flowering plants to prevent self-fertilization and thus promote outbreeding. Pear and apple, as many of the species belonging to the Rosaceae, exhibit RNase-mediated gametophytic self-incompatibility, a widespread system carried also by the Solanaceae and Plantaginaceae. Pear orchards must for this reason contain at least two different cultivars that pollenize each other; to guarantee an efficient cross-pollination, they should have overlapping flowering periods and must be genetically compatible. This compatibility is determined by the S-locus, containing at least two genes encoding for a female (pistil) and a male (pollen) determinant. The female determinant in the Rosaceae, Solanaceae and Plantaginaceae system is a stylar glycoprotein with ribonuclease activity (S-RNase), that acts as a specific cytotoxin in incompatible pollen tubes degrading cellular RNAs. Since its identification, the S-RNase gene has been intensively studied and the sequences of a large number of alleles are available in online databases. On the contrary, the male determinant has been only recently identified as a pollen-expressed protein containing a F-box motif, called S-Locus F-box (abbreviated SLF or SFB). Since F-box proteins are best known for their participation to the SCF (Skp1 - Cullin - F-box) E3 ubiquitine ligase enzymatic complex, that is involved in protein degradation through the 26S proteasome pathway, the male determinant is supposed to act mediating the ubiquitination of the S-RNases, targeting them for the degradation in compatible pollen tubes. Attempts to clone SLF/SFB genes in the Pyrinae produced no results until very recently; in apple, the use of genomic libraries allowed the detection of two F-box genes linked to each S haplotype, called SFBB (S-locus F-Box Brothers). In Japanese pear, three SFBB genes linked to each haplotype were cloned from pollen cDNA. The SFBB genes exhibit S haplotype-specific sequence divergence and pollen-specific expression; their multiplicity is a feature whose interpretation is unclear: it has been hypothesized that all of them participate in the S-specific interaction with the RNase, but it is also possible that only one of them is involved in this function. Moreover, even if the S locus male and female determinants are the only responsible for the specificity of the pollen-pistil recognition, many other factors are supposed to play a role in GSI; these are not linked to the S locus and act in a S-haplotype independent manner. They can have a function in regulating the expression of S determinants (group 1 factors), modulating their activity (group 2) or acting downstream, in the accomplishment of the reaction of acceptance or rejection of the pollen tube (group 3). This study was aimed to the elucidation of the molecular mechanism of GSI in European pear (Pyrus communis) as well as in the other Pyrinae; it was divided in two parts, the first focusing on the characterization of male determinants, and the second on factors external to the S locus. The research of S locus F-box genes was primarily aimed to the identification of such genes in European pear, for which sequence data are still not available; moreover, it allowed also to investigate about the S locus structure in the Pyrinae. The analysis was carried out on a pool of varieties of the three species Pyrus communis (European pear), Pyrus pyrifolia (Japanese pear), and Malus × domestica (apple); varieties carrying S haplotypes whose RNases are highly similar were chosen, in order to check whether or not the same level of similarity is maintained also between the male determinants. A total of 82 sequences was obtained, 47 of which represent the first S-locus F-box genes sequenced from European pear. The sequence data strongly support the hypothesis that the S locus structure is conserved among the three species, and presumably among all the Pyrinae; at least five genes have homologs in the analysed S haplotypes, but the number of F-box genes surrounding the S-RNase could be even greater. The high level of sequence divergence and the similarity between alleles linked to highly conserved RNases, suggest a shared ancestral polymorphism also for the F-box genes. The F-box genes identified in European pear were mapped on a segregating population of 91 individuals from the cross 'Abbé Fétel' × 'Max Red Bartlett'. All the genes were placed on the linkage group 17, where the S locus has been placed both in pear and apple maps, and resulted strongly associated to the S-RNase gene. The linkage with the RNase was perfect for some of the F-box genes, while for others very rare single recombination events were identified. The second part of this study was focused on the research of other genes involved in the SI response in pear; it was aimed on one side to the identification of genes differentially expressed in compatible and incompatible crosses, and on the other to the cloning and characterization of the transglutaminase (TGase) gene, whose role may be crucial in pollen rejection. For the identification of differentially expressed genes, controlled pollinations were carried out in four combinations (self pollination, incompatible, half-compatible and fully compatible cross-pollination); expression profiles were compared through cDNA-AFLP. 28 fragments displaying an expression pattern related to compatibility or incompatibility were identified, cloned and sequenced; the sequence analysis allowed to assign a putative annotation to a part of them. The identified genes are involved in very different cellular processes or in defense mechanisms, suggesting a very complex change in gene expression following the pollen/pistil recognition. The pool of genes identified with this technique offers a good basis for further study toward a better understanding of how the SI response is carried out. Among the factors involved in SI response, moreover, an important role may be played by transglutaminase (TGase), an enzyme involved both in post-translational protein modification and in protein cross-linking. The TGase activity detected in pear styles was significantly higher when pollinated in incompatible combinations than in compatible ones, suggesting a role of this enzyme in the abnormal cytoskeletal reorganization observed during pollen rejection reaction. The aim of this part of the work was thus to identify and clone the pear TGase gene; the PCR amplification of fragments of this gene was achieved using primers realized on the alignment between the Arabidopsis TGase gene sequence and several apple EST fragments; the full-length coding sequence of the pear TGase gene was then cloned from cDNA, and provided a precious tool for further study of the in vitro and in vivo action of this enzyme.
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We present a detailed palaeoclimate analysis of the Middle Miocene (uppermost Badenian-lowermost Sarmatian) Schrotzburg locality in S Germany, based on the fossil macro- and micro-flora, using four different methods for the estimation of palaeoclimate parameters: the coexistence approach (CA), leaf margin analysis (LMA), the Climate-Leaf Analysis Multivariate Program (CLAMP), as well as a recently developed multivariate leaf physiognomic approach based on an European calibration dataset (ELPA). Considering results of all methods used, the following palaeoclimate estimates seem to be most likely: mean annual temperature ~15-16°C (MAT), coldest month mean temperature ~7°C (CMMT), warmest month mean temperature between 25 and 26°C, and mean annual precipiation ~1,300 mm, although CMMT values may have been colder as indicated by the disappearance of the crocodile Diplocynodon and the temperature thresholds derived from modern alligators. For most palaeoclimatic parameters, estimates derived by CLAMP significantly differ from those derived by most other methods. With respect to the consistency of the results obtained by CA, LMA and ELPA, it is suggested that for the Schrotzburg locality CLAMP is probably less reliable than most other methods. A possible explanation may be attributed to the correlation between leaf physiognomy and climate as represented by the CLAMP calibration data set which is largely based on extant floras from N America and E Asia and which may be not suitable for application to the European Neogene. All physiognomic methods used here were affected by taphonomic biasses. Especially the number of taxa had a great influence on the reliability of the palaeoclimate estimates. Both multivariate leaf physiognomic approaches are less influenced by such biasses than the univariate LMA. In combination with previously published results from the European and Asian Neogene, our data suggest that during the Neogene in Eurasia CLAMP may produce temperature estimates, which are systematically too cold as compared to other evidence. This pattern, however, has to be further investigated using additional palaeofloras.
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Valley of the Kings (burial site), Egypt; 1 ft. 3 3/4 in.x 6 11/16 in.; papyrus,olive & persea leaves, cornflowers,blue lotus petals Picris flowers, nightshade berries, faience & linen
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Previous investigations with 1-methylcyclopropene (1-MCP) on avocado (Persea americana Mill.) fruit have focussed mainly on improving storage life by reducing the severity of disorders causing discolouration of the flesh. Development of 1-MCP and ethylene treatments, which also help control the time to reach the eating ripe stage, may confer additional practical benefits. In this context, the current study investigated the potential of 1-MCP to accurately manipulate ripening of non-stored 'Hass' avocado fruit by treatment before or after ethylene and at different times during ripening. To investigate this, 500 nL L-1 1-MCP was applied within 1 day after harvest, followed by ethylene 0-14 days after 1-MCP. In addition, fruit were treated with ethylene, then 1-MCP 0-8 days after ethylene. Treatment of fruit with 500 nL L-1 1-MCP for 18 h at 20 degreesC provided the maximum effect by increasing the days from harvest to ripe (DTR) from 8 (with no 1-MCP) to 20. Fruit treated with 500 nL L-1 1-MCP for 18 h at 20 degreesC remained insensitive to 100 muL L-1 ethylene applied between 0 and 14 days after 1-MCP for 24 h at 20 degreesC. Ripening of fruit exposed to 100 muL L-1 ethylene for 24 h at 20 degreesC could be delayed by up to 3.3 days by applying 500 nL L-1 1-MCP for 18 h at 20 degreesC up to 2 days after ethylene treatment. However, once the fruit started to soften (sprung) there was little effect of 1-MCP on DTR, compared with no 1-MCP. 1-MCP treatment was associated with increased severity of body rots (caused mainly by Colletotrichum spp.) and stem-end rots (caused mainly by Dothiorella spp.), which was likely due to the increased DTR in these treatments. Significant differences in disease severity were found between orchards (replications), with replicates with low disease severity being less affected by 1-MCP treatment. These results indicate that 1-MCP can delay ripening, but careful sourcing of fruit is required to reduce the risk of diseases in ripe fruit. There is some capacity to delay ripening using 1-MCP after ethylene. There is little potential to control ripening using ethylene after treatment with 500 nL L-1 1-1-MCP, but lower concentrations may be more effective. (C) 2004 Elsevier B.V. All rights reserved.
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The improvement of tropical tree crops using conventional breeding methods faces challenges due to the length of time involved. Thus, like most crops, there is an effort to utilize molecular genetic markers in breeding programs to select for desirable agronomic traits. Known as marker assisted breeding or marker assisted selection, genetic markers associated with a phenotype of interest are used to screen and select material reducing the time necessary to evaluate candidates. As the focus of this research was improving disease resistance in tropical trees, the usefulness of the WRKY gene superfamily was investigated as candidates for generating useful molecular genetic markers. WRKY genes encode plant-specific transcriptional factors associated with regulating plants' responses to both biotic and abiotic stress. ^ One pair of degenerate primers amplified 48 WRKY gene fragments from three taxonomically distinct, economically important, tropical tree crop species: 18 from Theobroma cacao L., 21 from Cocos nucifera L. and 9 from Persea americana Mill. Several loci from each species were polymorphic because of single nucleotide substitutions present within a putative non-coding region of the loci. Capillary array electrophoresis-single strand conformational polymorphism (CAE-SSCP) mapped four WRKY loci onto a genetic linkage map of a T. cacao F2 population segregating for resistance to witches' broom disease. Additionally, PCR primers specific for four T. cacao loci successfully amplified WRKY loci from 15 members of the Byttneriae tribe. A method was devised to allow the reliable discrimination of alleles by CAE-SSCP using only the mobility assigned to the sample peaks. Once this method was validated, the diversity of three WRKY loci was evaluated in a germplasm collection of T. cacao . One locus displayed high diversity in the collection, with at least 18 alleles detected from mobility differences of the product peaks. The number of WRKY loci available within the genome, ease of isolation by degenerate PCR, codominant segregation demonstrated in the F2 population, and usefulness for screening germplasm collections and closely related wild species demonstrates that the WRKY superfamily of genes are excellent candidates for developing a number of genetic molecular markers for breeding purposes in tropical trees. ^
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El presente estudio se llevó a cabo en el Centro Experimental ICIDRI Masatepe para realizar un Diseño de un circuito Agroecoturístico con base en los potenciales naturales y productivos del Centro Experimental ICIDRI Masatepe en un área de 10.2 manzanas. Se contemplaron 3 etapas: (I) La de planeación y organización que facilitó a través de una visita previa, los tiempos y formas de recabar la información requerida; (II) Trabajo de campo en la cual se levantó la información en dos visitas al sitio para la delimitación del área, realizar un inventario florístico y de fauna, y de la propuesta de estaciones interpretativas; y en la Etapa III, se logró el análisis e interpretación de toda la información recabada y en conjunto con el equipo de docentes UNA y de ICIDRI de la UPOLI, reviso la propuesta y fue aceptada. El Centro, cuenta con un potencial natural que incluye diversidad de especies arbóreas y fauna, que dan lugar al disfrute de variados paisajes y de clima; con potenciales productivos que brindan la oportunidad a productores la adopción de nuevas prácticas. A partir de estos escenarios, se propuso un circuito Agroecoturístico cerrado con 11 estaciones interpretativas en un tiempo no mayor de 3 horas. Del inventario florístico resultaron 1,284 especies, siendo las más representativas Aguacate (Persea americana Mill.), Cedro Real (Cedrela odorata L.), Laurel (Cordia alliodora (Ruiz & Pav.) Oken.) y Aceituno (Simarouba amara Aubl.). Entre la fauna silvestre se encontró Ardilla (Sciurus variegatoides), Ameiva undulata, (Holcosus undulatus) traga venado (Boa Constrictor), Guarda Barranco (Eumomota superciliosa) y Salta piñuela (Anthracothorax prevostii). Las condiciones de cercanía, topografía, capacidades locales, distancia de recorrido, escenarios, temáticas abordadas en las estaciones e infraestructura básica, hacen del centro una oportunidad para la implementación del circuito. Sin embargo, se debe divulgar su quehacer, rotular los caminos, ubicación de cestos de basura y brindar capacitación al personal para guiar a los diferentes usuarios que lo visiten.
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En el cultivo de aguacate (Persea americana Mill.) se presentan problemas fitosanitarios importantes dentro de los cuales sobresalen por su relevancia las enfermedades de la raíz. Un fitopatógeno limitante de este cultivo es el oomicete Phytophthora cinnamomi Rands, que puede causar pérdidas hasta del 90%. Por tal razón el principal objetivo del estudio fue generar información acerca de la etiología del agente causal de la pudrición radicular del aguacate utilizando marcadores morfológicos y moleculares, además de proponer alternativas de manejo de carácter biológico que estén enmarcadas dentro de un programa de manejo integrado de la enfermedad. Se realizaron colectas de muestras de suelo en cuatro localidades del departamento de Masaya. La identificación morfológica del patógeno se realizó mediante claves taxonómicas y se confirmó a través de la técnica PCR-RFLP. Se identificó a P. cinnamomi como el principal agente causal de la pudrición radicular del aguacate. Los aislados de P. cinnamomi fueron enfrentados con Trichoderma sp por el método de cultivo dual en cajas Petri con medio PDA. Se determinó el porcentaje de inhibición de crecimiento radial (PICR) a las 72 horas, así como el grado de antagonismo de cada una de las cepas de Trichoderma sp utilizadas en el estudio. Las cepas de Trichoderma al enfrentarlas a aislados del patógeno P. cinnamomi se ubicaron en las Clases 1 y 2 de la escala de evaluación, por lo tanto se consideraron altamente antagonistas. Existe la posibilidad de manejo biológico de las poblaciones de P. cinnamomi con microorganismos antagonistas del género Trichoderma no solamente en agroecosistemas de aguacate, sino también en otros sistemas agrícolas y forestales donde el patógeno esté presente.