Spelling suggestions: "subject:"cuticle."" "subject:"culticle.""
61 |
A Phylogenetic Analysis of Species Relationships in Hemlocks, the Genus <em>Tsuga</em> (Pinaceae).Baker, Jordan David 19 August 2009 (has links) (PDF)
The genus Tsuga is comprised of eight extant species found in North America and East Asia and four species represented by fossils from Europe and Japan. This study presents the first phylogenetic analysis based on structural, biochemical, and molecular sequence data. Characters obtained from published and unpublished literature were combined with new morphological characters from seeds, seedlings, and leaf cuticle material. Results from parsimony analyses of these characters differed from the published molecular based phylogeny. The non-molecular based phylogeny resolves two separate clades, a North American and an Asian, but did not group the western North American species, as in the molecular based analysis. Character states were traced on the trees to interpret character evolution. The combined analysis resulted in a phylogeny that differed from the previously published molecular tree by resolving a clade between T. caroliniana and T. diversifolia and placing T. dumosa outside of the Asian clade.
|
62 |
The molecular basis of Pasteuria-nematode interactions using closely related Bacillus sppSrivastava, Arohi January 2017 (has links)
Phytonematodes are known to cause substantial losses in crop yields across the world. Since the middle of the last century, these pests have been adequately controlled by chemical nematicides. However, due to increasing public health concern, strict regulations in the EU and elsewhere have significantly reduced the usage of these environmentally not-so-safe chemicals. This has led us to look for reliable biological alternatives. The Pasteuria group of Gram-positive endospore-forming bacteria (phylum: Firmicutes) often associated with nematode-suppressive soils are potentially reliable nematode biocontrol agents. However, the highly specific interaction of Pasteuria to their nematode hosts poses a challenge to the management of heterogeneous populations of nematodes in the field; the mechanism behind this specificity remains unclear. One of the fundamental basis of host specificity is the attachment of Pasteuria endospores to the cuticle of their host nematodes which is the first and essential step in the infection process. Thus, understanding the molecular mechanisms that govern the attachment process is important in identifying suitable populations of Pasteuria for effective broad-range management of plant parasitic nematodes in soil. Previous studies suggest the presence of immunogenic collagen-like fibres and carbohydrates on the endospore coat of Pasteuria that may have a role in the initial interaction of the endospores with their nematode hosts. Published work on phylogeny relates Pasteuria to Bacillus spp. most of which have well annotated and characterized genomes while the genome of Pasteuria remains to be sequenced completely. In this thesis, I attempt to explore the endospore biology of obligate and fastidious Pasteuria spp. using the wide knowledgebase of well studied Bacillus endospores. The primary aim was to characterize the immunogeneic determinants that are possibly responsible for the attachment of Pasteuria endospores to the host nematode cuticle by a combination of computational and lab-based approaches. To approve the suggested phylogenetic closeness of Pasteuria to Bacillus, the first part of the study focused on phylogeny reconstruction of Pasteuria spp. amongst Bacillus spp. and other members of the phylum Firmicutes. This was followed by in silico studies to identify candidate collagen-like genes in P. penetrans; the putative functional proteins encoded by these candidate genes were then comparatively characterized with collagens from other organisms including the members of the genus Bacillus. The surface associated collagen-like proteins and other possible immunogens on the endospores of Pasteuria were characterized by protein immunoblotting, lectin blotting and immunofluorescence microscopy and comparisons were made with B. thuringiensis endospores. Lastly, endospore attachment assays were done to test the hypothesis that collagens and carbohydrates play a role in Pasteuria endospore attachment. The results of the computational analyses suggest a family of collagen coding putative genes in the Pasteuria genome, all of which are predicted to have varied biochemical properties and are seemingly of diverse evolutionary origin. The Western blot and microscopic analyses show that the endospores of P. penetrans and B. thuringiensis share some common immunodominant surface epitopes. The attachment assays confirm the involvement of collagens and at least one carbohydrate (N-acetylglucosamine) in the endospore attachment. However, the results also indicate possible involvement of other adhesins in the process; to support this, at the end of the thesis, I propose a new 'Multitype Adhesin Model' for initial interaction of Pasteuria endospores with the cuticle of their host nematodes. The outcomes of this project will help in identifying the molecular basis of the complex Pasteuria-nematode interaction. This will provide a basis to develop environmentally benign nematode bio-management strategies.
|
63 |
Abordagem comparativa da maturação cuticular em abelhas sociais e solitárias utilizando-se RNA-seq, quantificação de hidrocarbonetos e microscopia eletrônica / A comparative approach of cuticular maturation in social and solitary bees using RNAseq, hydrocarbons\' quantification, and electron microscopyLopes, Tiago Falcón 01 November 2016 (has links)
Diferenças no timing da melanização e esclerotização do exoesqueleto são evidentes quando se compara a morfologia externa de abelhas de hábitos sociais e as solitárias. A esta diferença convencionamos chamar de heterocronia da maturação cuticular, o termo heterocronia significando variações no tempo relativo, ou ritmo, de um evento ontogenético em relação ao ancestral ou entre taxons. Propusemos que as abelhas sociais, que após a ecdise permanecem na colônia por vários dias, alcançariam a maturidade de alguns sistemas orgânicos, entre eles o tegumento, muito mais tarde que as espécies de abelhas solitárias que ao emergir partem imediatamente para atividades extra-nidais. Neste contexto, o objetivo deste trabalho consistiu em testar esta hipótese utilizando o tegumento em maturação das espécies de abelhas sociais, Apis mellifera e Frieseomelitta varia, e da espécie solitária Centris analis, em estudos comparativos de expressão gênica, ultraestrutura e quantificação de hidrocarbonetos cuticulares (CHCs). Para isto utilizamos sequenciamento de mRNA (RNA-seq), microscopia eletrônica de transmissão (MET) e cromatografia de gás e espectrometria de massas (CG/MS). Os perfis de expressão de genes da via de melanização/esclerotização cuticular (ebony e tan) diferenciaram as espécies sociais da solitária, assim como a expressão de genes com função na via de metabolismo de quitina (Cda5, Idgf4 e chitooligosacchariodolytic-domain-like) e de genes codificadores de proteínas estruturais da cutícula (CPR14, CPR17, CPR18, CPR25, CPR23, CPR26, Apd-3 e Apd-like). Genes com função na regulação da maturação cuticular (FTZ-F1, E74, Hr46 e Hr4) se mostraram co-expressos nas espécies sociais e os perfis de expressão destes genes, exceto Hr46, e de outros reguladores (Ethr, Hr38, Rickets e Ptx-1) também diferenciaram as espécies sociais da solitária. Ressaltamos em nossas análises os genes do ciclo circadiano, cuja expressão tem relação com a deposição de quitina cuticular, além de genes de vias de pigmentação não melanínicas. As análises de MET, abrangendo outras três espécies de abelhas (Bombus brasilienses: primitivamente eussocial; Euglossa cordata: facultativamente social; Tetrapedia diversipes: solitária), mostraram diferenças consistentes entre a ultraestrutura e espessura das cutículas das espécies sociais e solitárias, o que reforçou nossos resultados de RNA-seq. A quantificação absoluta dos CHCs diferenciou as abelhas sociais da solitária, consistente com a hipótese de heterocronia da maturação cuticular e com os perfis de expressão de genes envolvidos na biossíntese de CHCs. Assim, além de desvendar transcriptomas de tegumento de três espécies de abelhas, a comparação da expressão gênica aliada à análise de ultraestrutura da cutícula e quantificação de CHCs levaram à caracterização de diferenças no processo de maturação cuticular entre as espécies sociais e solitárias / Differences in the timing of exoskeleton melanization and sclerotization processes are evident when comparing the external morphology of social and solitary bee species. Such differences may constitute a relevant example of cuticular maturation heterochrony, this term referring to a genetic change in timing of an ontogenetic process relative to an ancestor or between taxons. We proposed that social bees, which remain protected inside the colony for many days before initiating outside nest activities, would reach the maturity of some organic systems, such as the integument (epidermis and cuticle), later than solitary bees, which start such activities immediately after ecdysis. We tested this hypothesis in a comparative study of the developing integument of eusocial bees, Apis mellifera and Frieseomelitta varia, and the solitary bee Centris analis. Using RNA-seq, we verified that the expression profiles of genes involved in cuticular melanization and sclerotization (ebony and tan), chitin deposition and organization (Cda5, Idgf4, chitooligosacchariodolytic-domain-like), and cuticle formation (CPR14, CPR17, CPR18, CPR25, CPR23, CPE26, Apd-3, Apd-like) were positively, correlated between the two eusocial species, but not between the eusocial and the solitary species. Some of the genes with roles in regulating exoskeleton maturation (FTZ-F1, E74, Hr46, Hr4) were co-expressed only in the eusocial species. The expression profiles of these genes (except Hr46) and other regulatory genes (Ethr, Hr38, Rickets, Ptx-1) were also positively correlated exclusively in the eusocial bees. We also highlighted the expression of genes involved in non-melanin pigment production and the expression of circadian rhythm genes that could be related to chitin layers deposition. Transmission electron microscopy analysis of the integument of the two eusocial and the solitary bee species, in addition to other three bee species (the primitively eusocial Bombus brasilienses; the facultatively social Euglossa cordata; the solitary bee Tetrapedia diversipes), showed differences in cuticle ultrastructure and thickness, thus supporting the RNA-seq data. In agreement with our hypothesis, CHC quantifications were consistent with the expression levels of genes involved in CHC biosynthesis, thus differentiating the superficial cuticle layer of the eusocial and solitary species. Together, the integument transcriptomes, ultrastructure, and CHC quantification allowed us to characterize differences in the timing of cuticle maturation in social and solitary bees
|
64 |
The cuticle micromorphology of extant and fossil plants as indicator of environmental conditions : A pioneer study on the influence of volcanic gases on the cuticle structure in extant plantsBartiromo, Antonello 14 February 2012 (has links) (PDF)
Macroscopical and microscopical observations on extant and fossil plants have been made. Observations on extant plants led to study the effects of volcanic gases on the cuticle ultrastructure of Pinus halepensis and Erica arborea sampled in the volcanic area of Phlegrean Italy. TEM observations on P. halepensis cuticles fumigated or not by volcanic gases revealed: 1) insignificant thickness variations of the cell wall plus cuticle among current- and first-year-old needles of both fumigated and not fumigated trees; 2) a calcium oxalate accumulation in fumigated leaves; 3) moreover, in respect to the cell surface, fibrils are disposed parallel to the surface of the cuticle. In specimens of E. arborea fumigated or not by volcanic gases, 1) the total thickness of cuticles varies significantly; 2) in plants experiencing chronic fumigation the A2 layer increases its thickness. As for fossil plants, the cuticles of Cretaceous Fossil-Lagertätten of Cusano Mutri and Pietraroja have been studied. In the former: 1) numerous taxa belonging to conifers have been identified; 2) the new species Frenelopsis cusanensis has been described; 3) Montsechia vidalii has been found outside of Spain. Taxonomical studies allowed the description of typical Euro-Sinian fossil plants. Sedimentological and taxonomical studies suggest semi-arid or arid conditions in a subtropical or tropical climate. It is worth noting as for Cusano Mutri locality, evidence of wildfire (fusain) suggests a periodic combination of arid periods, high temperatures and lightning strikes.
|
65 |
Transport oxidu uhličitého listem hypostomatických rostlin / Carbon dioxide transport through the hypostomatous plant leafNEUWIRTHOVÁ, Jitka January 2015 (has links)
Mesophyll conductance is (together with stomatal conductance) a crucial component of diffusion limitations of photosynthesis and it is important to understand the mechanisms of CO2 fluxes through the leaves. Here I tested a new technique for estimation of drawdown in CO2 concentration across hypostomatous leaves based on carbon isotope composition (13C) of leaf cuticle and cuticular waxes isolated from opposite leaf sides.
|
66 |
Efeito de adjuvantes sobre absorção de zinco e manganês na adubação foliar / Effect of adjuvants on the absorption of zinc and manganese in foliaMARTINS, Rosmany Aires Cunha 23 July 2009 (has links)
Made available in DSpace on 2014-07-29T14:42:44Z (GMT). No. of bitstreams: 1
Rosmary Aires Cunha.pdf: 811607 bytes, checksum: 37675c904b954048b34612362bb4c3d2 (MD5)
Previous issue date: 2009-07-23 / The objective of the present work was to evaluate the effect of lecithin,
starch and silicon may have in the efficiency of foliar feeding, that is: Can these products
really contribute to the absorption and translocation of minor nutrients? Can the source of
nutrient, sulfate and chelate, influence the result? The experiment was carried out under
greenhouse condition at Univerdidade Federal de Goiás (Jataí unit)/GO, set in a completely
randomized design, with six replications, four factors in study and two levels each, making a
2x2x2x2 factorial arrangement , totalizing 16 treatments. Moreover, it was added a control
as an additional treatment, totalizing then, 102 experimental units. Each experimental unit
was constituted by a vase of collard green plant. The treatments consisted of 2 minor nutrient
sources (sulfate and chalate) and of absence and presence of three substance added to the
spray solution: lecithin dewaxed (L), a commercial silicon surfactant (S), and stanch (A).
After analyses of the leaves, 30 days after de pulverization, it was clear that the amount of
zinc and manganese was influenced by the adjutants and kind of fertilizer. The use of lecithin
increased the absorption of zinc sulfate whereas the use of silicon increased only the
absorption of zinc chalate. Both chelate and sulfate increased the absorption of manganese.
The starch drove to a reducing absorption of zinc chelate. / O presente trabalho teve por objetivo avaliar os efeitos da lecitina, amido e
silicone sobre a eficiência da adubação foliar, utilizando-se sais e quelatos como fonte de
micronutrientes. Para isso foi realizado um experimento onde se avaliou os efeitos da adição
de diferentes adjuvantes em relação à absorção e translocação de zinco e manganês na
forma de sais e quelatos. O delineamento utilizado foi o inteiramente casualizado, com seis
repetições, com quatro fatores em estudo e dois níveis cada, perfazendo um fatorial 2x2x2x2,
totalizando dezesseis tratamentos. Além dos tratamentos, foi adicionado testemunha como
tratamento adicional, perfazendo, assim, um total de 102 parcelas. Cada parcela foi
constituída por um vaso contendo uma planta de couve manteiga. Os tratamentos constaram
de combinações entre 2 fontes (sulfato e quelato) e de presença ou ausência de três
substâncias na calda de pulverização: lecitina de soja desengordurada (L), um siliconado
comercial (S) e gel de amido de mandioca (A). A determinação dos efeitos constituiu-se na
análise do teor de zinco e manganês nas folhas novas 30 dias após a pulverização. A adição
de lecitina aumentou a absorção do zinco aplicado na forma de sulfato ao passo que o
produto siliconado aumentou a absorção apenas do zinco quelatizado. Tanto a lecitina
quanto o produto siliconado, quando adicionados a calda de pulverização, aumentaram o
teor de manganês. O gel de amido não aumentou a absorção de nenhum micronutriente,
levando até mesmo a uma redução do da absorção do quelato de zinco.
|
67 |
Abordagem comparativa da maturação cuticular em abelhas sociais e solitárias utilizando-se RNA-seq, quantificação de hidrocarbonetos e microscopia eletrônica / A comparative approach of cuticular maturation in social and solitary bees using RNAseq, hydrocarbons\' quantification, and electron microscopyTiago Falcón Lopes 01 November 2016 (has links)
Diferenças no timing da melanização e esclerotização do exoesqueleto são evidentes quando se compara a morfologia externa de abelhas de hábitos sociais e as solitárias. A esta diferença convencionamos chamar de heterocronia da maturação cuticular, o termo heterocronia significando variações no tempo relativo, ou ritmo, de um evento ontogenético em relação ao ancestral ou entre taxons. Propusemos que as abelhas sociais, que após a ecdise permanecem na colônia por vários dias, alcançariam a maturidade de alguns sistemas orgânicos, entre eles o tegumento, muito mais tarde que as espécies de abelhas solitárias que ao emergir partem imediatamente para atividades extra-nidais. Neste contexto, o objetivo deste trabalho consistiu em testar esta hipótese utilizando o tegumento em maturação das espécies de abelhas sociais, Apis mellifera e Frieseomelitta varia, e da espécie solitária Centris analis, em estudos comparativos de expressão gênica, ultraestrutura e quantificação de hidrocarbonetos cuticulares (CHCs). Para isto utilizamos sequenciamento de mRNA (RNA-seq), microscopia eletrônica de transmissão (MET) e cromatografia de gás e espectrometria de massas (CG/MS). Os perfis de expressão de genes da via de melanização/esclerotização cuticular (ebony e tan) diferenciaram as espécies sociais da solitária, assim como a expressão de genes com função na via de metabolismo de quitina (Cda5, Idgf4 e chitooligosacchariodolytic-domain-like) e de genes codificadores de proteínas estruturais da cutícula (CPR14, CPR17, CPR18, CPR25, CPR23, CPR26, Apd-3 e Apd-like). Genes com função na regulação da maturação cuticular (FTZ-F1, E74, Hr46 e Hr4) se mostraram co-expressos nas espécies sociais e os perfis de expressão destes genes, exceto Hr46, e de outros reguladores (Ethr, Hr38, Rickets e Ptx-1) também diferenciaram as espécies sociais da solitária. Ressaltamos em nossas análises os genes do ciclo circadiano, cuja expressão tem relação com a deposição de quitina cuticular, além de genes de vias de pigmentação não melanínicas. As análises de MET, abrangendo outras três espécies de abelhas (Bombus brasilienses: primitivamente eussocial; Euglossa cordata: facultativamente social; Tetrapedia diversipes: solitária), mostraram diferenças consistentes entre a ultraestrutura e espessura das cutículas das espécies sociais e solitárias, o que reforçou nossos resultados de RNA-seq. A quantificação absoluta dos CHCs diferenciou as abelhas sociais da solitária, consistente com a hipótese de heterocronia da maturação cuticular e com os perfis de expressão de genes envolvidos na biossíntese de CHCs. Assim, além de desvendar transcriptomas de tegumento de três espécies de abelhas, a comparação da expressão gênica aliada à análise de ultraestrutura da cutícula e quantificação de CHCs levaram à caracterização de diferenças no processo de maturação cuticular entre as espécies sociais e solitárias / Differences in the timing of exoskeleton melanization and sclerotization processes are evident when comparing the external morphology of social and solitary bee species. Such differences may constitute a relevant example of cuticular maturation heterochrony, this term referring to a genetic change in timing of an ontogenetic process relative to an ancestor or between taxons. We proposed that social bees, which remain protected inside the colony for many days before initiating outside nest activities, would reach the maturity of some organic systems, such as the integument (epidermis and cuticle), later than solitary bees, which start such activities immediately after ecdysis. We tested this hypothesis in a comparative study of the developing integument of eusocial bees, Apis mellifera and Frieseomelitta varia, and the solitary bee Centris analis. Using RNA-seq, we verified that the expression profiles of genes involved in cuticular melanization and sclerotization (ebony and tan), chitin deposition and organization (Cda5, Idgf4, chitooligosacchariodolytic-domain-like), and cuticle formation (CPR14, CPR17, CPR18, CPR25, CPR23, CPE26, Apd-3, Apd-like) were positively, correlated between the two eusocial species, but not between the eusocial and the solitary species. Some of the genes with roles in regulating exoskeleton maturation (FTZ-F1, E74, Hr46, Hr4) were co-expressed only in the eusocial species. The expression profiles of these genes (except Hr46) and other regulatory genes (Ethr, Hr38, Rickets, Ptx-1) were also positively correlated exclusively in the eusocial bees. We also highlighted the expression of genes involved in non-melanin pigment production and the expression of circadian rhythm genes that could be related to chitin layers deposition. Transmission electron microscopy analysis of the integument of the two eusocial and the solitary bee species, in addition to other three bee species (the primitively eusocial Bombus brasilienses; the facultatively social Euglossa cordata; the solitary bee Tetrapedia diversipes), showed differences in cuticle ultrastructure and thickness, thus supporting the RNA-seq data. In agreement with our hypothesis, CHC quantifications were consistent with the expression levels of genes involved in CHC biosynthesis, thus differentiating the superficial cuticle layer of the eusocial and solitary species. Together, the integument transcriptomes, ultrastructure, and CHC quantification allowed us to characterize differences in the timing of cuticle maturation in social and solitary bees
|
68 |
Chymotrypsin-like peptidases in insectsBröhan, Gunnar 18 August 2010 (has links)
Digestion of proteins in the midgut of lepidopteran larvae relies on different types
of peptidases, among the trypsins and chymotrypsins. In this work four chymotrypsinlike
peptidases (MsCTLP1–4) were identified from the larval midgut of M. sexta, which
are distantly related to another chymotrypsin (MsCT), a previously described peptidase
present in the larval midgut of M. sexta. MsCTLP1–4 fit perfectly into a novel subgroup
of insect CTLPs by sequence similarity and by the replacement of GP by SA in the
highly conserved GDSGGP motif. Examination of MsCTLP expression in different
tissues showed that most of the peptidases were predominantly expressed in the anterior
and median midgut, while some were found in the Malpighian tubules. Expression
analysis of MsCTLPs at different physiological states revealed that the mRNA amounts
did not differ considerably in feeding and starving larvae except for MsCTLP2, whose
mRNA dropped significantly upon starvation. During molting, however, the mRNA
amounts of all MsCTLPs dropped significantly. Immunological determination of
MsCTLP1 amounts showed that the mature peptidase was only detectable in the gut
lumen of feeding and re-fed larvae, but not in that of starving or molting larvae,
suggesting that MsCTLP1 secretion is suspended during starvation or molt. Differential
regulation of transcript levels as well as their partial expression in Malpighian tubules
might point to a role, which is distinct from digestion for at least some MsCTLPs. In
line with this assumption, MsCTLP1 was shown to interact with the chitin synthase 2
(MsCHS2), necessary for chitin synthesis in the course of peritrophic matrix formation
in the midgut of M. sexta. The occurrence of this interaction in vivo is supported by colocalization
and co-immunoprecipitation. The data suggest that chitin synthesis is
controlled by an intestinal proteolytic signaling cascade linking chitin synthase activity
to the nutritional state of the larvae. As MsCTLP1 appears to be involved in such
signaling cascades, other midgut peptidases could have other targets and may therefore
regulate different activities.
To gain more insight into the functions of CTLPs, the gene family encoding these
peptidases in the genome of the red flour beetle, T. castaneum, was analyzed. Using an
extended search pattern, 14 TcCTLP genes were identified that encode peptidases with
S1 specificity pocket residues typically found in chymotrypsin-like enzymes. Analysis
of the expression patterns of seven TcCTLP genes at various developmental stages
revealed that some TcCTLP genes were exclusively expressed in feeding larval and
adult stages (TcCTLP-5A/B, TcCTLP-6A). Others were also detected in non-feeding
embryonic (TcCTLP-5C, TcCTLP-6D) and pupal stages (TcCTLP-5C, TcCTLP-
6C/D/E). TcCTLP genes were expressed predominantly in the midgut where they
presumably function in digestion. However, TcCTLP-5C and TcCTLP-6C also showed
considerable expression in the carcass. The latter two genes might therefore encode
peptidases that act as molting fluid enzymes. To test this hypothesis, western blots were
performed using protein extracts from larval exuviae. The extracts reacted with
antibodies to TcCTLP-5C and TcCTLP-6C suggesting that the corresponding
peptidases are secreted into the molting fluid. Finally, systemic RNAi experiments were
performed. While injections of dsRNAs to TcCTLP-5A/B and TcCTLP-6A/D/E into
penultimate larvae did not affect growth or development, injection of dsRNA for TcCTLP-5C and TcCTLP-6C resulted in severe molting defects. Recombinant
expressed TcCTLP-5C2 was moreover activated by trypsin and was able to hydrolyze
AAPF, hence making TcCTLP-5C the first described chymotrypsin-like peptidase ever
to be involved in molting.
|
69 |
Identificação de espécies vegetais por meio de análise de imagens microscópicas de folhas / Identification of vegetal species by analysis of microscope images of leavesSá Junior, Jarbas Joaci de Mesquita 18 April 2008 (has links)
A taxonomia vegetal atualmente exige um grande esforço dos botânicos, desde o processo de aquisição do espécime até a morosa comparação com as amostras já catalogadas em um herbário. Nesse contexto, o projeto TreeVis surge como uma ferramenta para a identificação de vegetais por meio da análise de atributos foliares. Este trabalho é uma ramificação do projeto TreeVis e tem o objetivo de identificar vegetais por meio da análise do corte transversal de uma folha ampliado por um microscópio. Para tanto, foram extraídas assinaturas da cutícula, epiderme superior, parênquima paliçádico e parênquima lacunoso. Cada assinatura foi avaliada isoladamente por uma rede neural pelo método leave-one-out para verificar a sua capacidade de discriminar as amostras. Uma vez selecionados os vetores de características mais importantes, os mesmos foram combinados de duas maneiras. A primeira abordagem foi a simples concatenação dos vetores selecionados; a segunda, mais elaborada, reduziu a dimensionalidade (três atributos apenas) de algumas das assinaturas componentes antes de fazer a concatenação. Os vetores finais obtidos pelas duas abordagens foram testados com rede neural via leave-one-out para medir a taxa de acertos alcançada pelo sinergismo das assinaturas das diferentes partes da folha. Os experimentos consitiram na identificação de oito espécies diferentes e na identificação da espécie Gochnatia polymorpha nos ambientes Cerrado e Mata Ciliar, nas estações Chuvosa e Seca, e sob condições de Sol e Sombra / Currently, taxonomy demands a great effort from the botanists, ranging from the process of acquisition of the sample to the comparison with the species already classified in the herbarium. For this reason, the TreeVis is a project created to identify vegetal species using leaf attributes. This work is a part of the TreeVis project and aims at identifying vegetal species by analysing cross-sections of leaves amplified by a microscope. Signatures were extract from cuticle, adaxial epiderm, palisade parenchyma and sponge parenchyma. Each signature was analysed by a neural network with the leave-one-out method to verify its ability to identify species. Once the most important feature vectors were selected, two different approachs were adopted. The first was a simple concatenation of the selected feature vectors. The second, and more elaborated approach, consisted of reducing the dimensionality (three attributes only) of some component signatures before the feature vector concatenation. The final vectors obtained by these two approaches were tested by a neural network with leave-one-out to measure the correctness rate reached by the synergism of the signatures of different leaf regions. The experiments resulted in the identification of eight different species and the identification of the Gochnatia polymorpha species in Cerradão and Gallery Forest environments, Wet and Dry seasons, and under Sun and Shadow constraints
|
70 |
Le microbiote bactérien cuticulaire des fourmis de Guyane : pouvoir antibiotique et écologie des communautés / Bacterial microbiota of ant's cuticle in French Guiana : antibiotic activities and community ecologyBirer, Caroline 06 April 2017 (has links)
Le microbiote bactérien cuticulaire des fourmis (Hymenoptera : Formicidae) est connu pour avoir un rôle défensif chez ces insectes sociaux, notamment chez les fourmis attines (Formicidae : Attini) grâce l’utilisation de molécules antimicrobiennes produites par des actinobactéries cuticulaires. Dans le cadre de cette thèse, nous avons étudié le microbiote bactérien des fourmis de Guyane en utilisant différentes approches en chimie des produits naturels et en écologie moléculaire. Le premier chapitre décrit l’isolement, l’identification, la culture et l’évaluation biologique de 43 actinobactéries cuticulaires de fourmis de Guyane. Les tests d’antagonismes des souches isolées et l’activité antibiotique des extraits de culture contre des micro-organismes pathogènes humains sont présentés ainsi que l’identification d’un dipeptide cyclique (Cyclo(LPro-LPhe)) antimicrobien qui a été isolé à partir d’une souche proche de Streptomyces thioluteus. Par ailleurs, la mise en œuvre de réseaux moléculaires appliqués à une analyse par UPLC/MS/MS de cocultures d’actinobactéries a permis d’explorer la diversité des métabolites produits dans ces conditions. Le deuxième chapitre présente une étude méthodologique pour comparer quatre méthodes d’extraction d’ADN, en termes de richesse et de composition du microbiote bactérien cuticulaire, par séquençage haut débit à partir des espèces Atta cephalotes et Pseudomyrmex penetrator. Les résultats du métabarcoding ADN mettent en lumière deux méthodes d’extraction et révèlent des différences inter- et intraspécifiques dans la composition des communautés bactériennes cuticulaires. Enfin, le chapitre trois décrit la composition du microbiote bactérien cuticulaire des espèces Camponotus femoratus et Crematogaster levior dans les jardins de fourmis. Les résultats soulignent l’acquisition d’une partie du microbiote dans l’environnement. En parallèle l’analyse métabolomique des cuticules montre à contrario une plus grande spécificité liée à l’espèce de fourmi. Les recherches futures axées sur les stratégies d’analyses statistiques combinant le métabarcoding et la métabolomique sont discutées. / The bacterial microbiota of ants (Hymenoptera: Formicidae) is known to have a defensive role in social insects, particularly for leaf-cutting ants (Formicidae: Attini) due to the use of antimicrobial molecules produced by cuticular actinobacteria. In this thesis, we studied the bacterial microbiota of ants in French Guyana using different approaches based on natural products chemistry and molecular ecology. The first chapter describes the isolation, identification, culture and biological evaluations of 43 cuticular actinobacteria. Antagonism bioassays of isolated strains and antibiotic activities of the culture extracts against human pathogens are presented as well as the identification of an antimicrobial cyclic dipeptide (Cyclo (LPro-LPhe)) isolated from a strain close to Streptomyces thioluteus. Moreover, the implementation of molecular networks applied to UPLC/MS/MS analysis of actinobacterial cocultures allowed us to explore the diversity of metabolites produced under these conditions. The second chapter presents a methodological study to evaluate the capacity of four DNA extraction methods, in terms of richness and composition of the cuticular bacterial microbiota, in high-throughput sequencing from Atta cephalotes and Pseudomyrmex penetrator. The results of metabarcoding highlight two methods of extraction and reveal inter- and intraspecific differences in the composition of cuticular bacterial communities. Finally, chapter three describes the composition of the cuticular bacterial microbiota of Camponotus femoratus and Crematogaster levior in ant garden and the results reveal the acquisition in the environment of a part of the microbiota. In parallel, metabolomic analyses of ant’s cuticle show, on the contrary, a greater specificity related to the ant species. Future researches focusing on statistical analysis strategies combining metabarcoding and metabolomics data are discussed.
|
Page generated in 0.0347 seconds