9 resultados para Myrtales
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Phoracantha longicorn beetles are endemic to Australia, and some species have become significant pests of eucalypts worldwide, yet little is known about their host plant interactions and factors influencing tree susceptibility in Australia. Here, we investigate the host relationships of Phoracantha solida (Blackburn, 1894) on four eucalypt taxa (one pure species and three hybrid families), examining feeding site physical characteristics including phloem thickness, density, and moisture content, and host tree factors such as diameter, height, growth, taper, and survival. We also determine the cardinal and vertical (within-tree) and horizontal (between-tree) spatial distribution of borers. Fewer than 10% of P. solida attacks were recorded from the pure species (Corymbia citriodora subsp. variegate (Hook)), and this taxon also showed the highest survival, phloem thickness, relative growth rate, and bark:wood area. For the two most susceptible taxa, borer severity was negatively correlated with moisture content, and positively related to phloem density. Borers were nonrandomly and nonuniformly distributed within trees, and were statistically aggregated in 32% of plots. More attacks were situated on the northern side of the tree than the other aspects, and most larvae fed within the lower 50 cm of the bole, with attack height positively correlated with severity. Trees with borers had more dead neighbors, and more bored neighbors, than trees without borers, while within plots, borer incidence and severity were positively correlated. Because the more susceptible taxa overlapped with less susceptible taxa for several physical tree factors, the role of primary and secondary chemistries in determining host suitability needs to be investigated. Nevertheless, taxon, moisture content, phloem density, tree size, and mortality of neighboring trees appeared the most important physical characteristics influencing host suitability for P. solida at this site.
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For many years Australian forest pathologists and other scientists have dreaded the arrival of the rust fungus, Puccinia psidii, commonly known as Myrtle Rust, in Australia. This pathogen eventually did arrive in that country and was first detected in New South Wales in 2010 on Willow Myrtle (Agonis flexuosa). It is generally accepted that it entered the country on an ornamental Myrtales* host brought in by a private nursery. Despite efforts to eradicate the invasive rust, it has already spread widely, now occurring along the east coast of Australia, from temperate areas in Victoria and southern North South Wales to tropical areas in north Queensland.
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分子系统发育分析的主要任务包括:(1)帮助建立生命之树(tree of life);(2)追踪基因和基因家族(gene family)的起源和进化, 以获知基因在进化过程中的功能分化和伴随发生的重要分子事件(key molecular events)和形态性状的关键创新(key innovation)。这两个方面在本研究中都有所涉及。对于前者,选用植物线粒体matR基因重建被子植物蔷薇类群的系统发育关系;对于后者,则以SET基因超家族为例,探讨其在真核生物中的进化分类以及与功能多样性的关系。 I 蔷薇类的分子系统学 蔷薇类(rosids)是基于分子数据建立的被子植物的主要分支之一,包含13个目,大约三分之一的被子植物物种。两个主要蔷薇类内部分支是豆类fabids(包含7个目)和锦葵类malvids(包含3个目)。然而,这两个分支内部,以及这两个分支与蔷薇类基部类群,包括牻牛儿苗目(Geraniales)、桃金娘目(Myrtales)和流苏子目(Crossosomatales)之间的关系大多是不清楚的。本研究中,我们选取174个物种来代表72个蔷薇类(rosids)的科,利用两个数据集,即线粒体matR单基因数据集和包括线粒体matR基因、两个质体基因(rbcL、 atpB)和一个核基因(18S rDNA) 的4基因数据集,重建蔷薇类在科以上分类阶元水平的系统发育关系。同时,还对线粒体matR基因的进化特征和用于大尺度系统发育分析的适合度和潜力进行了评价。 线粒体matR单基因数据支持malvids和大多数蔷薇类目的单系性质,然而,豆类(fabids)成员没有形成一个分支,其COM亚支,包括卫矛目(Celastrales)、酢浆草目(Oxalidales)、金虎尾目(Malpighiales)和蒜树科(Huaceae),分辨为锦葵类(malvids)的姐妹群。这个关系在最近根据花结构特征曾被提出过,但从未在之前的分子系统发育分析中得到分辨。4基因数据集支持首先是牻牛儿苗目(Geraniales),接着是桃金娘目(Myrtales)作为蔷薇类(rosids)的最基部的分支;流苏子目(Crossosomatales)是锦葵类(malvids)姐妹群,以及蔷薇类(rosids)的核心部分包括豆类(fabids),锦葵类(malvids)和流苏子目(Crossosomatales)。线粒体matR基因的进化特征分析显示,与两个叶绿体基因(rbcL 和atpB)比较,同义替代速率约是它们的1/4,而非同义替代速率接近于自身的同义替代速率,表明matR 基因具有松弛的选择压力。线粒体matR基因相对慢速的进化使非同源相似(homoplasious)突变减少,提高了系统发育信息的质量,同时,松弛的选择压力使非同义替代数量增加,弥补了慢速进化导致的系统发育信息数量不足的缺陷,这两个方面的结合使线粒体matR基因非常适用于被子植物在科以上水平的系统发育研究。 II SET基因超家族的系统发育基因组学分析 SET基因超家族基因编码含有SET结构域的蛋白,在真核生物中,SET-domain蛋白一般是多结构域(multi-domain)的。SET-domain蛋白具有对组蛋白H3和H4的N末端尾部进行赖氨酸残基甲基化修饰的酶活性;从异染色质形成到基因转录,甲基化的组蛋白广泛影响染色质水平的基因调控。依据SET结构域一级序列的相似性和结构域组织(domain architecture)特征,目前,SET-domain基因超家族被划分为4-7个家族。由于这些划分或者使用动物或者使用植物SET基因,只有少数其它类群的物种加入分析,因此这样的划分可能是不完整的。本研究采用系统发育基 因组学方法(phylogenomic approach),在真核生物范围内广泛取样,期望获得相对完整的SET-domain基因家族的 进化分类方案,在此基础上加深理解SET-domain基因的进化机制和功能多样性。 在提取了17个物种,代表5个真核超群的SET蛋白序列基础上,系统发育分析结合“结构域组织特征”鉴别了9个SET基因家族,其中一个是新的SET基因家族。以前的SET8和Class VI家族,及SMYD和SUV4-20家族分别合并为一个家族。大部分家族在进化过程中发生了2次以上的基因重复事件,通过获得不同的结构域产生具有不同功能的新基因。一个SET基因家族在进化过程中推测发生了从脊椎动物祖先向盘基网柄菌(Dictyostelium discoideum)的水平基因转移。
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(Stigmatic surface, reproductive biology and taxonomy of the Vochysiaceae). The Vochysiaceae are Neotropical trees and shrubs, common in the savanna areas in Central Brazil (Cerrados). The family has been traditionally divided into two tribes: Erismeae, with three genera, and Vochysieae, with five genera. We investigated the stigmatic surface of six Vochysiaceae species, belonging to four genera of Vochysieae: Vochysia, Salvertia, Callisthene and Qualea. Flowers and buds at different developmental stages were collected. Morphological features were observed on fresh material and stigmatic receptivity was inferred based on esterasic activity. Pistils were fixed and embedded in paraplast and sectioned on a rotary microtome; the sections were stained before histological analysis. Stigmas of open flowers were also observed by scanning electron microscopy. Stigmas of all species were wet and showed esterasic activity at pre-anthesis and anthesis stages. Stigmatic surface was continuous with transmitting tissue of glandular nature. Vochysia and Salvertia stigmatic surfaces were formed by multicelular uniseriate hairs, and species of the remaining genera showed papillate surface. The exudate over mature stigmas in all species flowed without rupture of stigmatic Surface and pollen tubes grew down between hairs or papillae. Differences on the stigmatic surface agreed with a phylogenetic reconstruction that separated two clades and indicated that Vochysieae is not monophyletic. Stigmatic features could not be associated with pollination and breeding systems.
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(Structural aspects of the zygotic embryogenesis of Acca sellowiana (O. Berg) Burret (Myrtaceae)). Acca sellowiana has anatropous, bitegmic and crassinucellate ovules. The outer and inner integuments are double-layered except in the micropyle, where they are composed of more layers; the micropyle is zig-zag shaped. The egg apparatus lies at the micropylar pole, and the zynergids present a conspicuous filiform apparatus. The antipodal cells are present in the chalazal region, persisting before the occurrence of double fertilization. The zygote is visible 21 days after pollination; nuclear endosperm is already present. The first mitotic division of the zygote occurs at 24(th) day. The globular, cordiform and torpedo embryo stages can be seen at 30, 45 and 60 days after pollination, respectively. The mature embryo characterized by the presence of a well-developed hypocotyl-radicular axis with two fleshy and folded cotyledons was observed 120 days after pollination. Endosperm is absent in the seeds, and the embryo has spiral form, characteristic of Myrtinae. The zygotic embryology studies of A. sellowiana indicate that this species has embryological characteristics which are in agreement with those reported for Myrtaceae (Myrteae, Myrtinae), and also broaden the knowledge about the sexual reproduction of this native species, whose commercial cultivation has been growing.
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Several leaf anatomical features are potentially systematically informative within both the family Vochysiaceae and the order Myrtales, notably tracheoidal idioblasts, mucilage cells and secretory canals. Tracheoids with spiral wall thickenings are present in the mesophyll of most species of Vochysia, and also occur in several other families of Myrtales. Mucilage cells are common in the leaf epidermis in some Vochysiaceae. Secretory ducts are present in the midrib in Salvertia and Vochysia, which are apparently closely related, although Salvertia also shares some leaf anatomical characters with Qualea and Callisthene. Anatomical data do not support the segregation of Ruizterania from Qualea; leaves of R. albiflora leaves are very similar to those of Q. paraensis in venation pattern, and leaf and stem anatomy. Different venation patterns are characteristic of sections within the genus Qualea, but within the large genus Vochysia, leaf anatomy is variable even within a subsection. Amongst other Myrtales, leaf anatomy of Vochysiaceae most closely resembles that of Combretaceae and Onagraceae. © 2002 The Linnean Society of London.
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Strelitziaceae is a tropical monocot family comprising three genera and seven species: Ravenala Adans and Phenkospermum Endl., which are monotypic, and five species of Strelitzia Aiton. All species produce woody capsular fruits that contain vibrantly colored arillate seeds. Arils of the Strelitzia species are orange, those of Phenakospermum are red, and those of Ravenala are blue. Unlike most plant pigments, which degrade after cell death, aril pigments in the family persist for decades. Chemical properties of the compounds are unusual, and do not match those of known pigment classes (carotenoids, flavonoids, betalains, and the chlorophylls). I isolated the orange pigment from the arils of Strelitzia nicolai, and performed HPLC-ESMS, UV-visible, 1H NMR and 13C NMR analyses to determine its chemical structure. These data indicated the pigment was bilirubin-IX, an orange-yellow tetrapyrrole previously known only in mammals and some other vertebrates as the breakdown product of heme. Although related tetrapyrroles are ubiquitous throughout the plant kingdom and include vital biosynthetic products such as chlorophyll and phytochromobilin, this is the first report of bilirubin in a plant, and evidence of an additional biosynthetic pathway producing orange coloration in flowers and fruits. ^ Given the unexpected presence of bilirubin, Iexamined the fruits and flowers of twelve additional angiosperm species in diverse orders for the presence of bilirubin using HPLC and LC-MS. Bilirubin was present in ten species from the orders Zingiberales, Arecales, and Myrtales, indicating its wide distribution in the plant kingdom. Bilirubin was present in low concentrations in all species except those within Strelitziaceae. It was present in particularly high concentrations in S. nicolai, S. reginae and P. guyannense, and is thus responsible for producing color in these species. ^ No studies have examined the evolutionary relationship among all species in the family. Thus, I also constructed a molecular phylogeny of the family. This information, combined with further studies on the distribution and synthesis of bilirubin in plants, will provide a basis for understanding the evolutionary history of this pigment in the plant kingdom.^
