ABSTRACT
INTRODUCCIÓN: excoecaria lucida Sw. (Aité), es una especie que crece en Cuba y en la región del Caribe. La misma ha sido poco estudiada por científicos a pesar de que la población la utiliza con fines medicinales, en lo principal como antiasmático, antimicrobiano y para el dolor dental. OBJETIVOS: determinar la composición química de las hojas, así como aislar e identificar estructuralmente metabolitos secundarios. MÉTODOS: las hojas secas y molidas, se maceraron 72 horas con etanol al 95 % y se repitió el procedimiento en 4 ocasiones. Al extracto total se le determinó su composición química cualitativa y posterior se fraccionó con solventes. La fase de mayor rendimiento fue estudiada por Cromatografía Líquida de Alta Resolución y aislada la sustancia mayoritaria, la cual fue caracterizada por espectroscopía infrarroja y de Resonancia Magnética Nuclear 1H y 13C a 500 MHz (HMQC, HMBC, COSY y NOESY). RESULTADOS: se determinó la presencia cualitativa de alcaloides, triterpenos y esteroides, quinonas, flavonoides, cumarinas, lactonas sesquiterpénicas, fenoles y taninos. De la fase de mayor rendimiento (butanólica= 23,48 g) se logró aislar e identificar el compuesto mayoritario perteneciente a un hemiterpenoide. CONCLUSIONES: los metabolitos secundarios detectados coinciden con los reportes para otras especies del género. Se informa por primera vez para el género y la especie el aislamiento e identificación del hemiterpenoide (2E)-2-metil-2-buten-1,4-diol-1-O-ß-D-glucopiranósido.
INTRODUCTION: excoecaria lucida Sw. (Aité), it is a species that grow in Cuba and at the Caribbean region. It has been scientifically quite a little studied, in spite of the fact that the population utilizes it due to their medicinal properties as antiasthmatic, antimicrobial, and for the toothache treatment. OBJECTIVES: to determine the chemical composition of leaves, as well as the isolation and identification of their secondary metabolites. METHODS: dried and milled leaves were macerated 72 hours with ethanol 95 %, repeating the procedure in 4 occasions. Total extract was determined in his chemical qualitative composition and afterwards it was fragmented with solvents. The phase with greater yield was studied by High Performance Liquid Chromatography and isolated the main substance, which was characterized by infrared and Nuclear Magnetic Resonance spectroscopy: uni-dimensional 1H and 13C at 500 MHz and bi-dimensional HMQC, HMBC, COSY and NOESY. RESULTS: the identification of Alkaloids, triterpenes and steroids, quinone, flavonoids, coumarins, sesqiterpenic lactones, tannins and phenols were accomplished. From the greater yield phase (butanol= 23.48 g) was isolated and identified the main compound, a hemiterpenoid. CONCLUSIONS: the identified secondary metabolites are in coincidence with other reports related to the genera. For first time the hemiterpene (2E)-2-methyl-2- buten-1,4-di-hydroxyl-1-O-ß-D-glucopyranoside is informed in this genera and specie.
Subject(s)
Humans , Plants, Medicinal/drug effects , Magnetic Resonance Spectroscopy/methods , Euphorbiaceae/drug effectsABSTRACT
Mangrove forests continue to disappear all over the world due to a number of reasons. This is the study made to screen the anatomical and biochemical changes during the rooting process. Two important mangrove species have been examined based on their salt relationship natures: Avicennia officinalis subsp. australasica (salt excreting plant) and Excoecaria agallocha L (salt accumulating plant). The plants were treated with different root promoting hormones like IBA, IAA and NAA at different concentrations for three minutes each. After 45 days of the growth period root growth and anatomical changes were observed. The roots originated from the deeper zone of the secondary xylem after several anatomical variations in the hormone treated plants. This is the first trial which may help to determine the mass propagation of these commercial and medicinally important mangroves.