Sequenciamento, identificação e análise de proteínas do caule de mudas de Eucalyptus grandis / Sequencing, identification and analysis of juvenile Eucalyptus grandis xylem proteins

Alexander de Andrade

05 May 2006

Apesar da importância econômica e ambiental que a madeira representa como fonte natural e renovável de energia e fibras, pouco é conhecido sobre os processos celulares, moleculares e bioquímicos envolvidos com a sua formação. Usando metodologias proteômicas como 2D-PAGE e espectrometria de massas foi iniciada a análise do proteoma do caule de Eucalyptus grandis em diferentes estádios de desenvolvimento (5 meses, 3 anos e 6 anos). O presente trabalho baseou-se especificamente na idade de cinco meses. As plantas tiveram suas folhas, raízes e cascas removidas e seus caules foram macerados em almofariz com nitrogênio líquido e as proteínas extraídas pelo método de extração fenólica. As proteínas foram separadas por eletroforese bidimensional em fitas IPG com gradiente de pH imobilizado linear de 4-7 na primeira dimensão e gel de poliacrilamida (12,5%) na segunda dimensão. A coloração dos géis foi realizada com coomassie G250. Foram detectados 438 spots e um total de 168 spots foram retirados do gel, digeridos com tripsina e submetidos ao sequenciamento por espectrometria de massas através do sistema LCMS/ MS. O sequenciamento por MS apresentou uma eficiência de 72,02% possibilitando a identificação de 121 spots, enquanto que 35 (20,83%) não apresentaram homologia com nenhuma base de dados. Entre as proteínas identificadas 22 foram representadas por mais de um spot, podendo indicar a ocorrência e eventos provenientes do splicing alternativo, modificações pós-traducional, variações alélicas de uma mesma proteína ou degradação da amostra. Entre os spots analisados, 22,02% estão relacionados com a produção de energia, (17,86%) metabolismo, (13,69%) processes celulares, (0,60%) transporte, (8,33%) componentes estruturais, (5,36%) metabolismo macromolecular, (4,17%) proteínas putativas, (20,83%) não apresentaram homologia com nenhuma base de dados e (7,14%) não demonstraram resultado. A comparação realizada entre o volume de 59 proteínas e os seus respectivos transcritos demonstrou que não existe correlação entre mRNA e as proteínas do caule. O método possibilitou uma rápida e precisa separação e identificação das proteínas do caule de Eucalyptus grandis que são diferencialmente expressas durante a fase de crescimento de cinco meses. / The process of wood formation is an important economical factor for the forestry industry and it is also of ecological importance, although little is known about the proteins involved in wood formation. The sequencing, identification and analysis of proteins provides such information of wood formation. Using proteomics techniques such as two-dimensional gel electrophoresis and mass spectrometry we have started a proteomic analysis of wood formation in Eucalyptus grandis at different stages of development (5 months, 3 and 6 years old). This work presents data related to the stage of 5 months. Using high resolution 2DE with linear pH gradient ranging from 4 to 7, a total of 438 spots were detected. However, only 168 spots were analyzed by LC ESIMS/ MS and 121 were identified (72.02%) while 35 (20.83%) presented no homology in the database used. Overall, 22 proteins appeared as multiple spots and accounted for most of the proteins found in the group. This observation may reflect post-translation modification, alternative splicing events, isozyme variation, allelic variation of the same protein, but also protein degradation. Over the 168 spots analysed, (22.02%) play a role in energy, (17.86%) metabolism, (13.69%) cellular processes, (0.60%) transport, (8.33%) structural components, (5.36%) macromolecular metabolism, (4.17%) putative protein, (20.83%) no homology and (7.14%) no result. For 59 proteins, the spot volume was compared with their respective transcript with mRNAs extracted from wood forming tissue. The method provided a faster and accurate tool for separation and identify of protein which are differentially expressed under different stages of development in Eucalyptus grandis.

caule

eletroforese

espectrometria de massas

eucalipto

madeira

proteínas

eucalyptus grandis

mass spectrometry

two dimensional electrophoresis

wood

xylogenesis

Functional genomics of wood degradation and biosynthesis

Rajangam, Alex S.

January 2005

Forest biotechnology is a fast emerging field of research. The application of biotechnological tools will enhance the quality of the forest products. The resultant value added and environmentally sustainable products are an absolute necessity in the future. The study of wood biosynthesis and degradation will result in enormous knowledge resources, which can be used for exploiting wood properties. This thesis addresses questions representing both wood degradation and biosynthesis. The wood degrading fungus Phanerochaete chrysosporium is expression profiled with the microarray technology. The objective is to understand the expression pattern of the extracellular carbohydrate active enzymes (CAZymes) secreted by the organism. The data obtained increases our understanding of gene expression upon growth on cellulose. Wood biosynthesis is studied with the model wood forming tree species, Populus. The plentiful data resources from the expression profiling during wood formation in Populus are used as the platform of this work. One of the wood specific genes, PttMAP20, previously with an unknown function is studied in this thesis. The immunolocalisation of PttMAP20 with specific antibodies is demonstrated. The putative microtubule-targeting domain of the protein is demonstrated microscopically and by using a biochemical binding assay. / QC 20101217

populus

xylogenesis

secondary cell wall

cellulose

hemicellulose

microarrays

transcript profiling

Other Biological Topics

Annan biologi

FENOLOGIE DŘEVA STROMŮ A KEŘŮ NA HORNÍ HRANICI LESA V ZÁVISLOSTI NA MIKROKLIMATICKÝCH PODMÍNKÁCH / MICROCLIMATIC INFLUENCES ON WOOD PHENOLOGY OF TREES AND SHRUBS IN TREELINE ECOTONE

Hejda, Tomáš

January 2019

This thesis deals with the influence of microclimatic conditions (air temperature near tree/shrub top, temperature of the stem and root zone) on the wood phenology of trees (Picea abies) and shrubs (Pinus mugo) growing on the same site in the alpine tree line (ATL) ecotone. Phenological and microclimatic research was carried out in the Giant Mountains at 1,370 m a. s. l. in the 2017 vegetation period, with the aim to compare the course of wood formation depending on the microclimate, to determine the temperature thresholds of wood growth and differences in the morphology of trees and shrubs. Based on the microclimate analysis of trees and shrubs, individual variables were determined (average, average minimum, average maximum, daily amplitude of air, stem and root zone temperatures) characterizing the growing season. The collection of micro-drills of trees and shrubs took place from April to October in an interval of 6 - 11 days, which were subsequently processed and examined in the laboratory. The following phenophases of wood development were distinguished: cambial, enlarging, wall-thickening, mature cells and cells of the previous ring. Subsequently, differences in the number of cells of individual phenophases were identified between trees and shrubs. Furthermore, the temperature thresholds for...

Dynamique intra-annuelle de la formation du bois de trois espèces de conifères (sapin pectiné, épicéa commun et pin sylvestre) dans les Vosges : De la description des patrons saisonniers de la croissance à l'étude de l'influence de l'environnement sur la cinétique du développement cellulaire et les caractéristiques anatomiques du xylène / Intra-annual wood formation dynamics of three conifer species (silver fir, Norway spruce, and Scots pine) in northeast France : From the description of the growth seasonal patterns to the study of the environmental influence on the kinetics of cell development and the anatomical features of the xylem

Cuny, Henri

28 May 2013

La formation du bois (xylogénèse) produit une large partie de la biomasse de la planète et une ressource essentielle pour l'Homme. Les cellules du bois sont produites par division dans le cambium puis s'élargissent, forment une paroi épaisse lignifiée et meurent. Pendant l'année, ces processus sont définis par des dates, durées et vitesses qui caractérisent la dynamique intra-annuelle de la xylogénèse. Cette dynamique reste peu explorée alors que c'est un aspect clé, car c'est elle qui détermine la quantité et la qualité du bois produit et c'est sur elle que les facteurs de régulation agissent. Ce travail vise à améliorer nos connaissances sur la dynamique intra-annuelle de la xylogénèse. Pendant trois ans (2007-2009), la xylogénèse a été suivie pour 45 arbres de trois espèces de conifères (sapin pectiné, épicéa commun et pin sylvestre) dans les Vosges. Pour ça, des petits échantillons de bois ont été prélevés chaque semaine sur le tronc des arbres sélectionnés. Les échantillons ont été préparés au laboratoire, puis des sections anatomiques ont été réalisées pour observer la xylogénèse au microscope. Cette thèse a permis d'améliorer notre connaissance du fonctionnement de la xylogénèse, un système biologique d'une fascinante complexité. Nous avons caractérisé - grâce à l'innovation d'une méthode statistique performante - les aspects méconnus de la dynamique de différenciation des cellules du bois. Nous avons alors pu dévoiler les mécanismes par lesquels la dynamique de la xylogénèse donne forme à la structure du cerne, établir la dynamique intra-annuelle de l'accumulation du carbone dans le bois et évaluer les mécanismes de l'influence du climat sur la xylogénèse / Wood formation (xylogenesis) produces a large part of the biomass of this planet and provides a crucial resource to Mankind. Wood cells are produced by division in the cambium, after what they enlarge, build a lignified thick wall and die. During a year, these processes take place at certain dates, last for certain durations and go at certain rates. These dates, durations and rates characterize the intra-annual dynamics of xylogenesis. This dynamics remains poorly explored whereas it is a key aspect as it determines the quantity and quality of the produced wood and conveys the influence of intrinsic (gene, hormone) and extrinsic (environment) regulatory factors. This work aims to improve our knowledge on the intra-annual dynamics of xylogenesis. During three years (2007-2009), xylogenesis was monitored for 45 trees of three conifer species (silver fir, Norway spruce, and Scots pine) in northeast France. For that, small wood samples were collected weekly on tree stem. Samples were prepared at the laboratory, and anatomical sections were cut to observe xylogenesis under a light microscope. This thesis has improved our knowledge on the functioning of xylogenesis, a biological system of a fascinating complexity. We characterized - thanks to the development of an efficient statistical method - the little known aspects of wood cell differentiation dynamics. Based on this characterization, we eluded the mechanisms by which xylogenesis dynamics shapes tree ring structure, we established the intra-annual dynamics of carbon accumulation in wood and we evaluated the mechanisms of the climate influence on xylogenesis

Activité cambiale

Cerne de croissance

Climat

Conifères

Croissance de l'arbre

Forêt tempérée

Formation du bois

Xylogénèse

Cambial activity

Tree ring

Climate

Conifers

Tree growth

Temperate forests

Wood formation

Xylogenesis

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