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Artigos de revistas sobre o assunto "Skinks Phylogeny Molecular aspects"
Freitas, Elyse S., Aniruddha Datta-Roy, Praveen Karanth, L. Lee Grismer e Cameron D. Siler. "Multilocus phylogeny and a new classification for African, Asian and Indian supple and writhing skinks (Scincidae: Lygosominae)". Zoological Journal of the Linnean Society 186, n.º 4 (5 de abril de 2019): 1067–96. http://dx.doi.org/10.1093/zoolinnean/zlz001.
Texto completo da fonteGARDNER, MICHAEL G., ANDREW F. HUGALL, STEPHEN C. DONNELLAN, MARK N. HUTCHINSON e RALPH FOSTER. "Molecular systematics of social skinks: phylogeny and taxonomy of theEgerniagroup (Reptilia: Scincidae)". Zoological Journal of the Linnean Society 154, n.º 4 (dezembro de 2008): 781–94. http://dx.doi.org/10.1111/j.1096-3642.2008.00422.x.
Texto completo da fonteStuart-Fox, Devi M., Andrew F. Hugall e Craig Moritz. "A molecular phylogeny of rainbow skinks (Scincidae: Carlia): taxonomic and biogeographic implications". Australian Journal of Zoology 50, n.º 1 (2002): 39. http://dx.doi.org/10.1071/zo01051.
Texto completo da fonteSkinner, Adam, Mark N. Hutchinson e Michael S. Y. Lee. "Phylogeny and divergence times of Australian Sphenomorphus group skinks (Scincidae, Squamata)". Molecular Phylogenetics and Evolution 69, n.º 3 (dezembro de 2013): 906–18. http://dx.doi.org/10.1016/j.ympev.2013.06.014.
Texto completo da fonteMirza, Zeeshan A., Andrey M. Bragin, Harshal Bhosale, Gaurang G. Gowande, Harshil Patel e Nikolay A. Poyarkov. "A new ancient lineage of ablepharine skinks (Sauria: Scincidae) from eastern Himalayas with notes on origin and systematics of the group". PeerJ 10 (18 de janeiro de 2022): e12800. http://dx.doi.org/10.7717/peerj.12800.
Texto completo da fonteO'Connor, D., e C. Moritz. "A molecular phylogeny of the Australian skink genera Eulamprus, Gnypetoscincus and Nangura". Australian Journal of Zoology 51, n.º 4 (2003): 317. http://dx.doi.org/10.1071/zo02050.
Texto completo da fonteHonda, Masanao, Hidetoshi Ota, Robert W. Murphy e Tsutomu Hikida. "Phylogeny and biogeography of water skinks of the genus Tropidophorus (Reptilia: Scincidae): a molecular approach". Zoologica Scripta 35, n.º 1 (janeiro de 2006): 85–95. http://dx.doi.org/10.1111/j.1463-6409.2005.00215.x.
Texto completo da fonteMedina, Maria F., Aaron M. Bauer, William R. Branch, Andreas Schmitz, Werner Conradie, Zoltán T. Nagy, Toby J. Hibbitts et al. "Molecular phylogeny of Panaspis and Afroablepharus skinks (Squamata: Scincidae) in the savannas of sub-Saharan Africa". Molecular Phylogenetics and Evolution 100 (julho de 2016): 409–23. http://dx.doi.org/10.1016/j.ympev.2016.04.026.
Texto completo da fonteAustin, Christopher C., Eric N. Rittmeyer, Stephen J. Richards e George R. Zug. "Phylogeny, historical biogeography and body size evolution in Pacific Island Crocodile skinks Tribolonotus (Squamata; Scincidae)". Molecular Phylogenetics and Evolution 57, n.º 1 (outubro de 2010): 227–36. http://dx.doi.org/10.1016/j.ympev.2010.06.005.
Texto completo da fonteRocco, Lucia, Innocenza Liguori, Domenico Costagliola, Maria A. Morescalchi, Fausto Tinti e Vincenzo Stingo. "Molecular and karyological aspects of Batoidea (Chondrichthyes, Elasmobranchi) phylogeny". Gene 389, n.º 1 (março de 2007): 80–86. http://dx.doi.org/10.1016/j.gene.2006.09.024.
Texto completo da fonteTeses / dissertações sobre o assunto "Skinks Phylogeny Molecular aspects"
Rebholz, Wilhelmus Ewald Reinaard. "Molecular phylogenetics and conservation aspects of antelopes". Doctoral thesis, University of Cape Town, 1996. http://hdl.handle.net/11427/26971.
Texto completo da fonteWillows-Munro, Sandi. "The molecular evolution of the spiral-horned antelope (Mammalia: Tragelaphini)". Thesis, Stellenbosch : Stellenbosch University, 2003. http://hdl.handle.net/10019.1/53659.
Texto completo da fonteENGLISH ABSTRACT: The evolutionary history of the African tribe Tragelaphini (spiral-horn antelope) is controversial. Past phylogenetic relationships among species were based on morphology or limited fossil evidence and are in conflict with mitochondrial DNA sequencing studies that have been conducted more recently. Although the group is distinguished from other African ungulates by the presence of spirally-twisted horns, the nine recognized extant species differ considerably in morphology, feeding habits and their habitat preference. The present study aims to resolve the phylogenetic uncertainties of the Tragelaphini using nuclear DNA sequence data derived from four independent DNA loci (MGF, PRKCl, SPTBN and THY). These data were combined with all previously published DNA sequences to produce a molecular supermatrix comprising approximately 6000 characters. Both parsimony and model based phylogenetic analyses of the nuclear DNA support the associations resulting from the analysis of mitochondrial genes. These findings suggest that the morphological characters previously used to delimit species within the group are subject to convergent evolution. The molecular phylogeny presented herein suggests that early members of Tragelaphini diverged from the other bovids during the mid-Miocene approximately 15.7 million years before present (MYBP). The common nyala (Tragelaphus enqest; and lesser kudu (Tragelaphus imberbis) representing the most basal species, separated from the other tragelaphids approximately 7.1 MYBP. This was subsequently followed by the radiation of those species adapted to a more tropical environment and they include the mountain nyala (Tragelaphus buxtom), bongo (Tragelaphus euryceros), sitatunga (Tragelaphus spekel) and bushbuck (Tragelaphus scriptus), and the arid adapted clade comprising the giant eland (Taurotragus derbianus), common eland (Taurotragus oryx) and greater kudu (Tragelaphus strepsiceros). It is thought that this split occurred at the Miocene-Pliocene boundary approximately 5.4 MYBP. The timing of evolutionary events within the tribe suggests climatic oscillations and subsequent biotic shifts as the major driving forces underpinning speciation in the tribe Tragalaphini.
AFRIKAANSE OPSOMMING; Die evolusionêre geskiedenis van die ras Tragelaphini (spiraalhoringwildsbokke) is kontroversieël. Vorige filogenetiese verwantskappe tussen die spesies is gebaseer op morfologie of beperkte fossiel bewyse. Meer onlangse studies, gebaseer op mitochondriale ONS nukleotieddata, is in teenstryding met baie van die evolusionêre hypotese afkomstig van morfologiese studies. Alhoewel die groep van die ander hoefdiere uitgeken kan word deur die aanwesigheid van spiraalvormige horings, verskil die nege hedendaagse spesies grootliks ten opsigte van morfologie, voedingswyse en habitat. Die hoof doelwit van hierdie studie was om die filogenetise verwantskappe tussen die Tragelaphini spesies te ontleed deur gebruik te maak van nukluêre ONS nukleotieddata afkomstig van vier onafhanklike ONS merkers (MGF, PRKCl, SPTBN en THY). Die data verkry is saamgevoeg by vorige gepubliseerde ONS nukleotidedata om 'n "supermatris" van sowat 6000 karakters te produseer. Parsimonie en modelgebaseerde filogenetise analise van die nukluêre ONS nukleotieddata het ooreengestem met die resultate van vorige mitochondriale studies. Hierdie bevindings dui daarop dat die morfologiese karakters wat voorheen gebruik is om die evolusionêre verwantskappe tussen die Tragelaphini spesies te ontleed onderhewig is aan konvergente evolusie. Die molekulêre filogenie wat hierin beskryf word stel voor dat die ras Tragelaphini gedurende die mid- Miocene, omtrent 15.7 miljoen jaar (MJ) gelede van die ander lede van die subfamilie Bovinae geskei het. Tragelaphus angasi en Tragelaphus imberbis, die mees basale spesies in die filogenie, het omtrent 7.1 MJ gelede van die ander lede van die Tragelaphini geskei. Hierdie skeiding is gevolg deur 'n split tussen die spesies aangepas vir 'n meer tropiese habitat (Tragelaphus buxtoni, Tragelaphus euryceros, Tragelaphus spekei en Tragelaphus scriptus) en die spesies aangepas vir 'n droë habitat (Taurotragus derbianus, Taurotragus oryx en Tragelaphus strepsiceros) Hierdie finale skeiding het gedurende die Miocene-Pliocene oorgang plaasgevind. Die tydsberekening van die evolusionêre gebeurtenisse wat binne die Tragelaphini ras plaasgevind het, gekoppel aan paleoklimaatdata, dui aan dat veranderinge in klimaat en die geassosieerde habitatveranderinge verantwoordelik was vir die spesiasie patroon wat ons vandag in die Tragelaphini ras waarneem.
Zhang, Ying, e 张英. "Revision of Pleosporales : morpho-molecular phylogeny and typification". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2010. http://hdl.handle.net/10722/196082.
Texto completo da fonteZanotto, Paolo Marinho de Andrade. "Aspects of the molecular evolution of baculoviruses and flaviviruses". Thesis, University of Oxford, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.318444.
Texto completo da fonteJing, Hongmei, e 荊紅梅. "Phylogenetic diversity and cultivation of cyanobacteria from geothermal springs in Asia". Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2006. http://hub.hku.hk/bib/B37100506.
Texto completo da fonteMakokha, Jane Sakwa. "Molecular phylogenetics and phylogeography of sand lizards, Pedioplanis (Sauria: Lacertidae) in southern Africa". Thesis, Stellenbosch : Stellenbosch University, 2006. http://hdl.handle.net/10019.1/21673.
Texto completo da fonteENGLISH ABSTRACT: The present study aims to determine the phylogenetic relationships among the sand lizards, Pedioplanis. In addition, a single mitochondrial gene is used to investigate the geographic genetic structure of the widey distributed P. burchelli. With 11 species, Pedioplanis is the most speciose genus among the southern African genera of the family Lacertidae. All the species are restricted to the subcontinent with the exception of three (P. namaquensis, P. undata and P. benguellensis), which extend their range northwards into Angola. A total of 2200 nucleotide positions derived from two mitochondrial markers (ND2 and 16S rRNA) and one nuclear gene (RAG-1) are used to determine the phylogenetic relationships among ten of the eleven Pedioplanis species. The first well resolved gene tree for the genus, drawn from 100 individuals, is presented and this is largely congruent with a phylogeny derived from morphology. Contrary to some previous suggestions, Pedioplanis forms a monophyletic assemblage with Heliobolus and Nucras. The genus Pedioplanis is monophyletic with P. burchelli/P. laticeps forming a sister clade to all the remaining congeners. Two distinct geographic lineages can be identified within the widespread P. namaquensis; one occurs in Namibia, while the other occurs in South Africa. The “P. undata” species complex is monophyletic, but one of its constituent species, P. inornata, is paraphyletic. Relationships among the subspecies of P. lineoocellata are much more complex than previously documented. An isolated population previously assigned to P. l. pulchella is paraphyletic and sister to the three named subspecies. The phylogeny identifies two biogeographical groupings that probably diverged during the mid-Miocene. The development of the Benguella Current could have initiated isolation mechanisms associated with changes in habitat that could have generated barriers and played a role in the evolution of this group. At the lower taxonomic level, the mtDNA phylogeographic structure of the wide spread P. burchelli in South Africa reveal at least six distinct clades that are geographically partitioned. The first one is restricted to the eastern mountains along the Great Escarpment (GE). The next three are found along the Cape Fold Mountains (CFM): the north-west CFM, central CFM and eastern CFM. The fifth one shares samples from central CFM and GE. The last clade is restricted to the eastern central mountains of the GE. These six geographic groupings are genetically divergent from each other and they started separating in the early Pliocene period. Phylogeographic studies on other taxa in the region have found different levels of genetic structuring among or within taxa. The fact that P. burchelli is restricted to high altitude areas could have resulted in limited dispersal and consequently contributed to its geographic structure. However, the exact cause of the pattern obtained is not readily apparent. Habitat fragmentation in the past is probably one of the most influential factors shaping the genetic distribution of the species across South Africa. The inclusion of nuclear markers will shed more light on the evolutionary history of P. burchelli in South Africa.
AFRIKAANSE OPSOMMING: Die huidige studie stel ten doel om ‘n filogenie daar te stel vir die Sand akkedisse, Pedioplanis. ‘n Enkele mitochondriale geen is ook gebruik om die geografiese genetiese struktuur van die wydverspreide P. burchelli vas te stel. Met 11 spesies is Pedioplanis die mees spesieryke genus onder die suidelike Afrika genera wat aan die Lacertidae familie behoort. Al die spesies is beperk tot die subkontinent met die uitsondering van drie (P. namaquensis, P. undata en P. benguellensis), wat ‘n uitgebreide verspreiding het noordwaarts tot in Angola. ‘n Totaal van 2200 nukleotied posisies wat afkomstig is van twee mitochondriale merkers (ND2 en 16S rRNA) en een nukluêre geen (RAG-1) is gebruik om die filogenetiese verwantskappe tussen 10 van die 11 Pedioplanis spesies vas te stel. Die eerste goed geondersteunde geen boom vir die genus, gebasseer op 100 individue, is verkry en dit is meestal ooreenstemmend met ‘n filogenie gebasseer op morfologie. In teenstelling met sekere voorstelle van die verlede vorm Pedioplanis ‘n monofiletiese groep tesame met Heliobolus en Nucras. Die genus Pedioplanis is monofileties met P. burchelli/P. laticeps wat ‘n suster groep vorm van al die oorblywende lede van die genus. Twee herkenbare geografiese lyne kan geidentifiseer word in die wydverspreide P. namaquensis; een kom in Namibia voor, terwyl die ander een in Suid Afrika voorkom. Die “P. undata” spesies kompleks is monofileties, maar een van die spesies wat deel uitmaak van die groep, P. inornata, is parafileties. Verwantskappe tussen die subspesies van P. lineoocellata is meer kompleks as wat aanvanklik aanvaar is. ‘n Geisoleerde bevolkimg wat voorheen toegesê is aan P. l. pulchella is parafileties en verteenwoordig ‘n suster groep van die benaamde subspesies. Die filogenie identifiseer twee biogeografiese groeperings wat moontlik gedivergeer het gedurende die middel-Miocene. Die ontwikkeling van die Benguella stroom het dalk versperrings geinisiëer as gevolg van die gesamentlike veranderinge in habitat wat dalk ook ‘n rol gespeel het in die evolusie van die groep. Op die laer taksonomiese vlak het die mtDNA filogeografiese struktuur van die wydverspreide P. burchelli in Suid Afrika ten minste ses groepe aangetoon wat geografies van mekaar geskei is. Die eerste een is beperk tot die oostelike berge wat aan die Groot Eskarpement (GE) behoort. Die volgende drie word gevind in die Kaapse Vouberge (KVB): die noord-westelike KVB, sentrale KVB en oostelike KVB. Die vyfde een deel eksemplare van beide die GE en die KVB. Die laaste groep is beperk tot die oostelike en sentrale berge van die GE. Hierdie ses geografiese groepe is geneties geskei van mekaar en hulle het begin om apart te ontwikkel gedurende die vroë Pliocene periode. Ander filogeografiese studies in die area het verskillende vlakke van genetiese struktuur vertoon tussen en binne taksa. Die feit dat P. burchelli beperk is tot hoogliggende dele kon moontlik bygedrae het tot die geografiese struktuur. Die presiese oorsaak van die patroon wat verkry is, is nie ooglopend nie. Habitat fragmentasie in die verlede is moontlik een van die mees invloedrykste faktore wat die genetiese verspreiding van die spesie in Suid Afrika beinvloed het. Die insluiting van nukluêre merkers sal meer lig warp op die evolusionêre geskiedenis van P. burchelli in Suid Afrika.
Mortimer, Elizabeth. "Phylogeny of Ameronothroidea in the south polar region and the phylogeography of selcted species on sub-antarctic Marion Island". Thesis, Stellenbosch : Stellenbosch University, 2008. http://hdl.handle.net/10019.1/21744.
Texto completo da fonteENGLISH ABSTRACT: Sub-Antarctic islands represent the only mid to high latitude terrestrial biomes in the Southern Hemisphere. These islands have various geological origins and histories, well-preserved terrestrial ecosystems and high levels of species endemism. In an attempt to understand the evolution and biogeography of terrestrial taxa in the South Polar Region, the first broad-scale molecular phylogeny was constructed for the unique terrestrial group, the ameronothroid mites (genus Halozetes (Oribatida)), collected from sub-Antarctic and Maritime Antarctic localities. Phylogenetic analyses based on a combined mitochondrial (cytochrome oxidase subunit I (COI)) and nuclear (histone-3 (H3)) sequence dataset indicated that the evolution of these mites were habitat specific (i.e. intertidal, supralittoral and terrestrial). Notwithstanding criticisms levelled against a molecular clock, the mites were evolutionary young (<10myo), contrary to their status as an ancient group predating Gondwana fragmentation. Biogeographic analyses indicated a complex pattern mainly sculpted by multiple independent dispersal events across the Antarctic Polar Frontal Zone similar to previous findings for other marine and terrestrial taxa. Also, the molecular phylogeny displayed considerable discourse with contemporary taxonomy suggesting the need for taxonomic revisions and reassessment of morphological characters. Sub-Antarctic Marion Island, the larger of the two islands comprising the Prince Edward Island archipelago (PEI), has experienced extensive glaciation and volcanism. To assess the impact of historical events (volcanism (including recent eruptions) and glaciation) and contemporary mechanisms (gene flow) on the genetic spatial distribution of species from Marion Island, two mite species namely Eupodes minutus (Prostigmata) and Halozetes fulvus (Oribatida) as well as a single plant species, Azorella selago (Apiaceae), were selected as model organisms. For independent phylogeographic analyses, mitochondrial sequence data (COI) were obtained for both mite species, while chloroplast sequence (trnH-psbA) and amplified fragment length polymorphism (AFLP) data were generated for the cushion plant, A. selago. Since A. selago is typified by two growth forms namely discrete cushions and continuous mats, it was essential to examine the growth dynamics prior to phylogeographic analyses. The sequence and fragment data indicated that both mite and plant species were significantly substructured across Marion Island. Manual comparisons indicated unique populations on the western (Kaalkoppie for H. fulvus, La Grange Kop for E. minutus and Mixed Pickle for A. selago), eastern (Bullard Beach for H. fulvus and Kildalkey Bay for E. minutus), northern (Middelman and Long Ridge for H. fulvus) and southern side (Grey Headed for H. fulvus and Watertunnel for A. selago) of the island. Importantly, the western side had unique localities for all species. Interestingly, based on the H. fulvus data, the western populations were relatively young, characterized by high migration rates, small effective (female) population sizes with no isolation-by-distance. The opposite scenario was found for the eastern populations. This spatial genetic structure described for species on Marion Island can be ascribed to both historical events and environmental conditions. These areas with their unique genetic composition are of special conservational concern; consequently this research will contribute to an active management plan for PEI, South Africa’s only Special Nature Reserve.
AFRIKAANSE OPSOMMING: Sub-Antarktiese eilande verteenwoordig die enigste terrestriële bioom in die middel tot hoër breedtegrades van die Suidelike Halfrond. Hierdie eilande besit ‘n verskeidenheid van geologiese oorspronge en geskiedenisse, goed-bewaarde terrestriële ekosisteme en hoë vlakke van endemisme. In ‘n poging om die evolusie en biogeografie van terrestriële taksa in die Suid Pool Area te verstaan, is die eerste grootskaalse molekulêre filogenie saamgestel vir ‘n unieke terrestriële groep, die ameronothoïed miete (genus Halozetes (Oribatida: Ameronothroidea)), vanaf menigte sub-Antarktiese en Maritime Antarktiese lokaliteite. Filogenetiese analises gebaseer op die saamgestelde mitochondriale (sitokroom oksidase subeenheid I (COI)) en nukluêre (histoon-3 (H3)) basispaarvolgordes het aangedui dat die evolusie van hierdie miete habitat spesifiek is (m.a.w inter-gety, supralitoraal en terrestrieël). Ongeag die kritiek teenoor ‘n molekulêre klok, is hierdie miete evolusionêr jonk (<10mjo), wat teenstrydig is met hulle status as ‘n antieke groep wat terugdateer voor Gondwana fragmentasie. Biogeografiese analises het ‘n komplekse patroon aangedui wat grotendeels gekarakteriseer word deur menigte onafhanklike verspreidingsgebeurtenisse bo-oor die Antarktiese Polêre Frontale Zone, wat ooreenstemmend is met vorige bevindinge vir ander mariene en terrestriële taksa. Die molekulêre filogenie het ook aansienlik verskil van die tradisionele taksonomie, dus is taksonomiese aanpassings en herklassifisering van morfologiese karakters noodsaaklik. Sub-Antarktiese Marion Eiland, die groter eiland van die Prins Edward eilandgroep (PEI), het uitermate glasiasie en vulkanisme ondervind. Om die impak van historiese gebeurtenisse (vulkanisme (insluitend onlangse uitbarstings) en glasiasie) en kontemporêre meganismes (geenvloei) op die genetiesgespasieërde verspreiding van spesies vanaf Marion Eiland te bepaal, was twee mietspesies naamlik Eupodes minutus (Prostigmata) en Halozetes fulvus (Oribatida) asook ‘n enkele plantspesie, Azorella selago (Apiaceae), gekies as model organismes. Vir onafhanklike filogeografiese analises, was die mitochondriale basispaarvolgorde (COI) vir beide mietspesies bepaal, terwyl chloroplast basispaarvolgorde (trnH-psbA) asook geamplifiseerde fragmentlengte polimorfisme (AFLP) data gegenereer was vir die kussingplant, A. selago. Aangesien A. selago gekenmerk word deur twee groeivorme, naamlik diskrete kussings en aaneenlopende matte, was dit noodsaaklik om eers die groeidinamika van die plant te ondersoek alvorens ‘n filogeografiese studie kon geskied. Die basispaarvolgordebepalings en fragmentdata het aangedui dat beide mietspesies sowel as die plantspesie betekenisvolle substruktuur vertoon regoor Marion Eiland. Informele vergelykings het unieke populasies aangedui op die westelike (Kaalkoppie vir H. fulvus, La Grange Kop vir E. minutus en Mixed Pickle vir A. selago), oostelike (Bullardstrand vir H. fulvus en Kildalkeybaai vir E. minutus), noordelike (Middelman en Long Ridge vir H. fulvus) en suidelike kant (Grey Headed vir H. fulvus en Watertunnel vir A. selago) van die eiland. Die westelike kant besit dus unieke lokaliteite vir al die spesies. Interressantheidhalwe het die H. fulvus data getoon dat die westelike populasies relatief jonk is en gekarakteriseer word deur hoë migrasiesyfers en klein effektiewe (vroulike) populasiegroottes met geen isolasie-oor-afstand nie. Die resultate vir die populasies aan die oostelike kant van die Marion Eiland was presies teenoorgesteld. Dié beskryfde substruktuur vir die spesies op Marion Eiland is afkomstig van beide historiese gebeurtenisse asook omgewingstoestande. Hierdie areas met hul unieke genetiese samestelling, is belangrik vir natuurbewaring. Hierdie navorsing sal bydra tot die bestuursriglyne van PEI, Suid Afrika se enigste Spesiale Natuurreservaat.
Caddah, Mayara Krasinski 1985. "Estudos taxonômicos e filogenéticos em Miconia sect. Discolor (Melastomataceae, Miconieae)". [s.n.], 2013. http://repositorio.unicamp.br/jspui/handle/REPOSIP/315514.
Texto completo da fonteTese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia
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Resumo: Miconia é um é um dos maiores gêneros de angiospermas. Tradicionalmente, tem sido considerado complexo e mal circumscrito, assim como outros gêneros aparentados. Estudos filogenéticos recentes, baseados em marcadores moleculares, têm atestado a natureza polifilética de Miconia e suas onze seções. Neste trabalho, é apresentado um estudo filogenético-molecular aprofundado de um dos grupos naturais encontrados em estudos anteriores, o "subclado Miconia discolor", do "clado Miconia IV". Para tanto, foram utilizados sequências de quatro marcadores plastidias (psaI-accD; psnK-L; atpF-H; trnS-G) e dois nucleares (ITS e ETS). Os resultados obtidos permitiram esclarecer o relacionamento interno e externo do grupo. Por meio da otimização de caracteres morfológicos e biogeográficos, são sugeridas hipóteses evolutivas, como a evolução de inflorescências glomeruladas e pseudantos a partir de inflorescências com ramos escorpióides amplos, e a irradiação da diversidade na Floresta Atlântica a partir de poucas colonizações. Os resultados também permitiram a primeira proposição moderna de classificação ingra-genérica para Miconia, através da formalização e circunscrição de novos táxons: Miconia sect. Discolor, e subseções Albicans, Chrysophylla, Discolor e Multispicata, subordinadas à nova seção. Adicionalmente, uma revisão taxonômica é apresentada para a recém proposta subseção Discolor, incluindo descrições, ilustrações, imagens de Microscopia Eletrônica de Varredura, comentários, e uma chave dicotômica de identificação para as espécies. A subseção é composta 32 espécies, das quais três são novas. Trinta e dois nomes heterotípicos foram sinonimizados, e 39 lectotipificações foram propostas. A subseção pode ser reconhecida por apresentar as folhas densamente cobertas por tricomas ramificados na face abaxial (nunca formando um indumento aracnóide), inflorescências geralmente glomeruladas, raramente curtamente scorpióides, lobos do cálice caducos no fruto, e uma distribuição restrita ao sudeste da América do Sul, ocorrendo na Floresta Atlântica e no Cerrado
Abstract: Miconia is one of the biggest genera in angiosperms. It has been traditionally considered very complex and badly circumscribed, and other close genera as well. Phylogenetic studies based on molecular markers have been confirming the polyphily of Miconia and its eleven sections. Here I present a deeper molecular and phylogenetic study of a natural group found out in older studies, the "Miconia discolor subclade", from the "Miconia IV clade". I used sequences of four plastid (psaI-accD; psnK-L; atpF-H; trnS-G) and two nuclear markers (ITS and ETS). The results clarified the inner and outer relationship of that group. Evolutionary hypotheses are suggested by the optimization of morphological and biogeographical charcaters. For example, the evolution of glomerulate inflorescences and pseudanthia from inflorescences of wide, scorpioid branches, and the diversification of the genus in the Atlantic Forest from few colonizations. Additionally, the results allowed the first modern infra-generic rearrangement by the proposition and circumscription of new taxa: Miconia sect. Discolor, with the subsections Albicans, Chrysophylla, Discolor and Multispicata. A revision of the new Miconia subsect. Discolor is presented, with descriptions, illustrations, Scanning Electron Microscopy images, comments, and a taxonomic key for species. The subsection has 32 species and three of them are new. I synonymized 32 heterotypic names proposed 39 lectotipifications. The subsection can be recognized by the abaxial leaf surface usually densely covered by branched trichomes (never forming a cobweb indument), inflorescences usually glomerulate, rarely shortly scorpioid, calyx lobes caducous in fruit, and a distribution restricted to the southeast of South America, in the Atlantic Forest and Cerrado
Doutorado
Biologia Vegetal
Doutora em Biologia Vegetal
Peat, Scott M. "Utilization of Phylogenetic Systematics, Molecular Evolution, and Comparative Transcriptomics to Address Aspects of Nematode and Bacterial Evolution". BYU ScholarsArchive, 2010. https://scholarsarchive.byu.edu/etd/2535.
Texto completo da fonteEgito, Gabriel Toselli Barbosa Tabosa do. "Variabilidade genetica e relações interpopulacionais de Dendropsophus minutus do Brasil". [s.n.], 2009. http://repositorio.unicamp.br/jspui/handle/REPOSIP/317959.
Texto completo da fonteDissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia
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Resumo: Dendropsophus minutus está amplamente distribuído ao Leste dos Andes, na América do Sul e possui uma grande diversidade acústica e morfológica, o que sugere que possa haver mais de uma espécie sob esse nome. Sua coloração dorsal pode ser classificada em dois padrões principais, hourglass e bivittata. No presente estudo, 14 parâmetros morfométricos e seqüências de DNA com 357 pares de bases do gene citocromo b mitocondrial foram analisados objetivando um melhor entendimento acerca da variação de D. minutus no Brasil. Tanto os resultados moleculares quanto os fenotípicos revelaram a presença de uma alta estruturação da diversidade dessa espécie, mostrando que a divergência entre populações é, geralmente, proporcional à distância geográfica, exceto no estado de São Paulo, sudeste do Brasil. Nessa região, a Serra do Mar está aparentemente agindo como uma barreira geográfica para o fluxo gênico, isolando duas linhagens. A primeira, formada pelas populações da Mata Atlântica, tem padrão hourglass de coloração dorsal. A segunda, do interior de São Paulo, assim como a população do Rio Grande do Sul, possui padrão bivittata de coloração dorsal. Esses resultados corroboram a hipótese de que o táxon D. minutus contém duas linhagens crípticas. Apesar disso, uma amostragem maior se faz necessária, bem como um melhor estudo de caracteres para defini-las como espécies ou não.
Abstract: In despite of its complex reproductive behavior, Dendropsophus minutus has a large distribution at East of Andes, South America and show high acoustic and morphologic diversity, suggesting that possibly more than one species may exist under this name. Its dorsum coloration has basically two main patterns, hourglass or bivittata. Here, 14 morphometric parameters and partial mitochondrial cytochrome b gene sequences (357 base pairs) were analyzed aiming to understand more about Brazilian D. minutus variation. Both molecular and morphologic results agree with a high structuration of this species diversity, showing population divergence generally proportional to their geographic distance, except in São Paulo State, southeastern Brazil. At this region, Serra do Mar high mountains are apparently acting as a barrier for dispersion, isolating two lineages. The first of them, formed by populations from Atlantic Rainforest domain, has an hourglass dorsum pattern, whereas the second, comprising inner São Paulo State populations gathered with D. minutus from Rio Grande do Sul (South Brazil), shows bivittata dorsum coloration pattern. These results corroborate the hypothesis that D. minutus could comprise more than one species, revealing two cryptic lineages. However, these lineages should not be defined as different species before sampling enlargement to the present study.
Mestrado
Biologia Celular
Mestre em Biologia Celular e Estrutural
Livros sobre o assunto "Skinks Phylogeny Molecular aspects"
Molecular phylogeny of microorganisms. Norfolk, UK: Caister Academic Press, 2010.
Encontre o texto completo da fonteD, Kocher Thomas, e Stepien Carol A, eds. Molecular systematics of fishes. San Diego: Academic Press, 1997.
Encontre o texto completo da fonteHoofer, Steven R. Molecular phylogenetics of the chiropteran family Vespertilionidae. Warszawa: Museum and Institute of Zoology, Polish Academy of Sciences, 2003.
Encontre o texto completo da fonteAdachi, Jun. MOLPHY, programs for molecular phylogenetics, I: PROTML, maximum likelihood inference of protein phylogeny. Tokyo, Japan: Institute of Statistical Mathematics, 1992.
Encontre o texto completo da fonteKnoop, Volker. Gene und Stammbäume: Ein Handbuch zur molekularen Phylogenetik. 2a ed. Heidelberg: Spektrum, 2009.
Encontre o texto completo da fonteKnoop, Volker. Gene und Stammbäume: Ein Handbuch zur molekularen Phylogenetik. 2a ed. Heidelberg: Spektrum, 2009.
Encontre o texto completo da fonteKnoop, Volker. Gene und Stammbäume: Ein Handbuch zur molekularen Phylogenetik. 2a ed. Heidelberg: Spektrum, 2009.
Encontre o texto completo da fonteŌsawa, Syōzō. Molecular phylogeny and evolution of carabid ground beetles. New York: Springer, 2003.
Encontre o texto completo da fonteWeksler, Marcelo. Phylogenetic relationships of oryzomine rodents (Muroidea, Sigmodontinae): Separate and combined analyses of morphological and molecular data. New York, NY: American Museum of Natural History, 2006.
Encontre o texto completo da fonteS, Soltis Pamela, Soltis Douglas E e Doyle Jeff J, eds. Molecular systematics of plants. New York: Chapman and Hall, 1992.
Encontre o texto completo da fonteCapítulos de livros sobre o assunto "Skinks Phylogeny Molecular aspects"
Hsiao, Ting H. "Molecular techniques for studying systematics and phylogeny of Chrysomelidae". In Novel aspects of the biology of Chrysomelidae, 237–48. Dordrecht: Springer Netherlands, 1994. http://dx.doi.org/10.1007/978-94-011-1781-4_17.
Texto completo da fonte"New Aspects in the Phylogeny of the Oniscidea Inferred from Molecular Data". In The Biology of Terrestrial Isopods, 23–27. BRILL, 2003. http://dx.doi.org/10.1163/9789047412854_006.
Texto completo da fonteHarzsch, Steffen, Yvan Perez e Carsten H. G. Müller. "Chaetognatha". In Structure and Evolution of Invertebrate Nervous Systems, 652–64. Oxford University PressOxford, 2015. http://dx.doi.org/10.1093/acprof:oso/9780199682201.003.0050.
Texto completo da fonteTrabalhos de conferências sobre o assunto "Skinks Phylogeny Molecular aspects"
Prokopovich, A. K., O. N. Yaroslavtseva e V. Y. Kryukov. "MOLECULAR PHYLOGENY OF ENTOMOPATHOGENIC FUNGI BEAUVERIA AND METARHIZIUM OF THE UPPER OBRIA AND THEIR STATIONARY ASSOCIATION". In V International Scientific Conference CONCEPTUAL AND APPLIED ASPECTS OF INVERTEBRATE SCIENTIFIC RESEARCH AND BIOLOGICAL EDUCATION. Tomsk State University Press, 2020. http://dx.doi.org/10.17223/978-5-94621-931-0-2020-74.
Texto completo da fonte