On the tree-root-soil-continuum - temporal and spatial coupling of the belowground carbon flux /

Göttlicher, Sabine,

January 2007

Diss. (sammanfattning) Umeå : Sveriges lantbruksuniv., 2007. / Härtill 5 uppsatser.

Pau-brasil, madeira e casca: formação desenvolvimento e estrutura / Pernambuc-wood, wooda and bark: formation, development and structure

Erika Amano

13 July 2007

Caesalpinia echinata Lam (Leguminosae) é a espécie símbolo do Brasil, muito importante historicamente para o país. A árvore de pau brasil foi intensamente explorada no período do descobrimento, durante o século XVI, para a extração de corante e, atualmente, a sua madeira é utilizada na fabricação de arcos para instrumentos de corda. Neste trabalho foi estudada a espécie em três áreas: Mogi Guaçu, em São Paulo, num bosque experimental; em Ilhéus, na Bahia, em uma fazenda de cacau, e em Campo Grande no Mato Grosso do sul, na Reserva do campus da Universidade Federal. Pretendeu se neste trabalho comparar a sazonalidade da atividade cambial, o xilema e floema secundários, assim como descrever a formação e a diferenciação dos tecidos vasculares secundários. Para isso, um método não destrutivo de coleta foi usado, além de várias técnicas de observação do material, como microscopia de luz, eletrônica de varredura e transmissão, e confocal de varredura a laser. Foi realizado o acompanhamento fenológico da espécie assim como dados ambientais, tal como pluviosidade, temperatura e fotoperíodo. A atividade cambial foi observada a partir da presença de figuras mitóticas e fragmoplastos nas células cambiais. O câmbio é ativo em Mogi Guaçu por seis meses, enquanto que em Ilhéus por cerca de dez meses. A atividade cambial é principalmente influenciada pela pluviosidade, e os períodos de inatividade estão relacionados com o déficit hídrico no solo. No desenvolvimento do xilema secundário, os elementos de vaso são as primeiras células a se diferenciarem. Após a expansão celular, há o rompimento do tonoplasto, e posteriormente, ocorre a deposição da parede secundaria e lignificação, com formação das pontoações e das guarnições, e delimitação da placa de perfuração. A última etapa é a lise do núcleo e hidrólise do conteúdo citoplasmático. A anatomia comparada do xilema coletado em Mogi Guaçu e em Ilhéus mostrou diferenças significativas para os seguintes parâmetros: diâmetro tangencial do elemento de vaso, relação diâmetro e comprimento do elemento de vaso, freqüência dos elementos de vaso por mm2, espessura da parede da fibra, comprimento da fibra. Os raios mostram uma tendência a serem mais largos nos espécimes de Ilhéus, embora esta diferença não seja estatisticamente significativa. Quanto às guarnições das pontoações intervasculares tem se que na abertura externa da pontoação são similares, sendo ramificadas e longas nos espécies das três regiões analisadas; porém na abertura interna da pontoação as guarnições são mais abundantes e ramificadas em indivíduos coletados em Mogi Guaçu e Campo Grande, onde há um maior período de déficit hídrico no solo por ano. O floema é composto por uma porção não condutora e uma porção condutora, que corresponde a 1/4 a 1/6 do floema secundário. Os elementos de tubo crivado e as células do parênquima floemático apresentam um arranjo tangencial alternado em muitos dos espécimes analisados. No floema não condutor são observadas esclereides. No início de sua diferenciação, ainda possuem núcleo, e a proteína P não dispersa. No floema de pau brasil não foi detectada a presença de marcadores de crescimento, como já visto em algumas espécies tropicais. / Caesalpinia echinata Lam (Leguminosae) is the species symbol of Brazil, historically very important to the country. The Pernambuco wood tree was intensely exploited in the period of the discovery, during XVI century, for the pigment extraction and, nowadays, the wood is extensively used in the production of bows for string instruments. In this work it was studied the species in three areas, in Mogi Guaçu, São Paulo; in an experimental forest; in Ihéus, Bahia, in a cocoa farm, and in Campo Grande, Mato Grosso do Sul, in the Reserve of the Federal University campus. The goal of this work was to compare the seasonality of cambium activity, secondary xylem and phloem, as well as describing the formation and differentiation of secondary vascular tissues. For that, a non destructive collection method was employed and, several techniques were used to analyze the samples, including optic, scanning, transmission and confocal scanning laser microscopy. The phenology of the species was followed correlated to environmental variables, such as precipitation, temperature and photoperiod. Cambium activity was observed from the presence of mitotic figures and phragmoplasts in cambium cells. Cambium is active in Mogi Guaçu for six months, while in Ilhéus is for about ten months. Cambial activity is mostly influenced by precipitation, and inactivity periods are related to water deficit in the soil. In the secondary xylem development, vessel elements are the first cells to differentiate. After cellular expansion, there is the breakdown of the tonoplast, and later, the walls undergo lignification with pits and vestures formation, and the delimitation of the perforation plate. The last stage is the nucleus lise of the nucleus and hidrolysis of cytoplasm contents. Compared anatomy of xylem between Mogi Guaçu and Ilhéus showed significant differences regarding the following parameters: vessels tangential diameter, vessels diameter and length rate, vessel elements frequency mm2, fiber walls thickness and length Rays show a tendency to be wider in the specimens of Ihéus, although not statistically significant Regarding vessels, there is no difference between vestures of the external pit aperture; however vestures are more abundant in the internal apertures in samples collected in Mogí Guaçu and Campo Grande, where there is a longer period of water deficit in the soil per year. Phloem is composed of conductive and non conductive portions, corresponding to 1/4 up to 1/6 of secondary phloem. Sieve tube elements and parenchyma cells have a tangential alternate arrangement. In non conductive phloem sclereids are observed In the beginning of its differentiation, sieve tube elements still possess nucleus, and non disperse protein P. In Pernambuco wood phloem there is no growth markers, as already detected some other tropical species.

Caesalpinia echinata

Atividade cambial

Floema

Xilema

Caesalpinia echinata

Cambial activity

Phloem

Xylem

Transformação genética de laranja doce com o gene codificador de defensina de Citrus sinensis, sob controle dos promotores 35S (Cauliflower mosaic virus) ou AtSuc2 (Arabidopsis thaliana) / Genetic transformation of sweet orange with the gene that encodes Citrus sinensis defensin under the control of 35S (Cauliflower mosaic virus) or AtSUC2 (Arabidopsis thaliana) promoters

Renata Beatriz Cruz

19 May 2015

A citricultura brasileira é a maior produtora e exportadora de citros e tem sido afetada por doenças que causam sérios prejuízos a produção e a qualidade dos frutos. No entanto, a cultura apresenta grandes problemas, entre eles, os fatores fitossanitários, que vem dizimando milhares de plantas e afetando a produtividade e a competitividade do setor. Atualmente, o huanglongbing (HLB), associado às bactérias de floema Candidatus Liberibacter spp., é considerado uma das mais destrutivas doenças de citros. A inexistência de cultivares de laranja doce resistentes ao HLB torna a transformação genética de citros uma ferramenta importante no controle desta doença. Para se defender do ataque de pragas e patógenos as plantas desenvolveram, durante o processo evolutivo, uma série de mecanismos de defesa, no qual pode-se incluir a produção de peptídeos com atividade antimicrobiana. As defensinas vegetais são peptídeos pequenos relacionadas à patogênese (PR), que possuem atividade antimicrobiana associada aos mecanismos de defesa das plantas. Assim, o objetivo deste trabalho foi a obtenção de plantas transgênicas de laranja doce (Citrus sinensis L.) cvs. \'Hamlin\', \'Natal\', \'Valência\' e \'Pera\', via Agrobacterium tumefaciens, superexpressando o gene codificador de defensina (def), isolado de Citrus sinensis cv. \'Valência\', dirigido pelo promotor com expressão preferencial no floema AtSUC2 (transportador de sacarose, clonado de Arabidopsis thaliana) ou pelo promotor constitutivo CaMV 35S (clonado do vírus do mosaico da couve-flor). Os explantes utilizados na transformação genética foram segmentos de epicótilo obtidos de plantas germinadas in vitro. A identificação das plantas transgênicas foi realizada por meio da análise da PCR, utilizando-se primers para a detecção do fragmento do gene de seleção nptII. As plantas PCR+ foram aclimatizadas e transferidas para casa-de-vegetação. A análise de Southern blot confirmou a integração do transgene em 36 plantas. Foram obtidas 7 plantas transgênicas da cultivar \'Hamlin\', 9 da cultivar \'Natal\', 1 da cultivar \'Pera\' e 9 da cultivar \'Valência\' contendo a construção gênica pC35S/def, e 3 plantas transgênicas da cultivar \'Hamlin\', 6 da cultivar \'Natal\' e 1 da cultivar \'Valência\' contendo a construção gênica pcAtSUC2/def. Os resultados obtidos neste trabalho serão importantes para futura avaliação e estudo visando o controle de Candidatus Liberibacter spp.. / The Brazilian citrus industry is the world\'s largest producer and exporter of citrus, however, it has been affected by diseases that cause serious production losses and damages to fruit quality. However, the culture faces problems, namely phytosanitary issues that have been damaging thousands of plants, affecting yield and competitiveness of the sector. Currently, Huanglongbing (HLB), associated with phloem bacteria Candidatus Liberibacter spp., is considered one of the most destructive citrus diseases. The lack of sweet orange cultivars resistant to HLB makes genetic transformation an important tool in the disease control. To defend from pest and pathogen attack, plants developed a series of defense mechanisms during the evolutionary process, which may include the production of peptides with antimicrobial activity. Plant defensins are small peptides related to pathogenesis (PR) which have antimicrobial activities, associated with plant defense mechanisms . The objective of this study was to obtain transgenic plants of sweet orange (Citrus sinensis L.) cultivars \'Hamlin\', \'Natal\', \'Valência\' and \'Pera\' with Agrobacterium tumefaciens overexpressing the defensin gene (def), isolated from Citrus sinensis cv. \'Valência\', controlled by the promoter with preferential expression in the phloem AtSUC2, (sucrose transporter, cloned from Arabidopsis thaliana) or by the constitutive promoter CaMV 35S (cloned from the mosaic virus of cauliflower). The explants used in genetic transformation were epicotyl segments obtained from germinated plants in vitro. The identification of transgenic plants was accomplished by PCR analysis using primers for the detection of nptII gene fragment. The PCR+ plants were acclimatized and transferred to greenhouse. The analysis of Southern blot confirmed the transgene integration in 36 plants. Seven transgenic plants were obtained for the cultivar \'Hamlin\', nine for \'Natal\', one for \'Pera\' and nine for \'Valência\' containing the gene construct pC35S/def and three transgenic plants for \'Hamlin\', six for \'Natal\' and one for \'Valência\' containing the gene construct pcAtSUC2/def. The results obtained in this work are important for future evaluation of the plants for resistance to Candidatus Liberibacter spp..

Citros

Defensina

Huanglongbing

Promotor específico de floema

Transgenia

Citrus

defensin

Huanglongbing

phloem specific promoter

transgenic

Investigating the effect of Glomus etunicatum colonization on structure and phloem transport in roots of Eragrostis curvula (Umgeni)

Skinner, Amy

January 2007

The symbiotic unit of an arbuscular mycorrhizal fungus and its host is able toachieve and maintain far higher inflow of nutrients than non-mycorrhizal roots. The colonization strategy of the mycobiont within the plant is intrinsic to the symbiosis with respect to both structural adaptations and nutrient exchange. An investigation into the effect of Glomus etunicatum colonization on the structure and phloem transport in Eragrostis curvula (Umgeni) allowed for greater insight into the dynamic of the symbiosis. The combined use of stains (such as Trypan Blue, Chlorazol Black, Safranin and Fast Green), and techniques, (such as freeze-microtome transverse sectioning and permanent slide preparations) contributed to a successful general observation of an intermediate colonization strategy using light microscopy methods. However, clarity into structural detail of mycorrhizal forms required electron microscopy studies. The SEM method used with freeze fracture was a relatively quick and simple method allowing for the observation of surface and internal features. The TEM method allowed for highresolution images providing insight into the variations in the apoplasmic compartmental form, and how this may relate to the function of the symbiosis with regard to fungal coils or arbuscules. The apoplasmic nature of mycorrhizas was substantiated and no symplasmic connections were found between symbionts. Fluorescence studies demonstrated that 5,6-carboxyfluorescein was transported through the phloem into the roots of E. curvula, but remained predominantly in the root phloem. Unloading only occurred in optimal nutrient exchange areas of meristimatic lateral or apical growth regions. It was not possible, using fluorescence techniques and related equipment available, to conclusively establish if there were symplasmic connections between the mycobiont and its host or if bidirectional transfer of nutrients occurred at the same interface.

Glomus (Fungi)

Phloem

Plant translocation

Weeping lovegrass

Vesicular-arbuscular mycorrhizas

Mycorrhizal fungi

Mycorrhizas

Metabolic Engineering of Raffinose-Family Oligosaccharides in the Phloem Reveals Alterations in Patterns of Carbon Partitioning and Enhances Resistance to Green Peach Aphid

Cao, Te

08 1900

Phloem transport is along hydrostatic pressure gradients generated by differences in solute concentration between source and sink tissues. Numerous species accumulate raffinose-family oligosaccharides (RFOs) in the phloem of mature leaves to accentuate the pressure gradient between source and sinks. In this study, metabolic engineering was used to generate RFOs at the inception of the translocation stream of Arabidopsis thaliana, which transports predominantly sucrose. To do this, three genes, GALACTINOL SYNTHASE, RAFFINOSE SYNTHASE and STACHYOSE SYNTHASE, were expressed from promoters specific to the companion cells of minor veins. Two transgenic lines homozygous for all three genes (GRS63 and GRS47) were selected for further analysis. Sugars were extracted and quantified by high performance anion exchange chromatography with pulsed amperometric detection (HPAEC-PAD), and 21-day old plants of both lines had levels of galactinol, raffinose, and stachyose approaching 50% of total soluble sugar. All three exotic sugars were also identified in phloem exudates from excised leaves of transgenic plants whereas levels were negligible in exudates from wild type leaves. Differences in starch accumulation or degradation between wild type and GRS63 and GRS47 lines were not observed. Similarly, there were no differences in vegetative growth between wild type and engineered plants, but engineered plants flowered earlier. Finally, since the sugar composition of the phloem translocation stream is altered in these plants, we tested for aphid feeding. When green peach aphids were given a choice between WT and transgenic plants, WT plants were preferred. When aphids were reared on only WT or only transgenic plants, aphid fecundity was reduced on the transgenic plants. When aphids were fed on artificial media with and without RFOs, aphid reproduction did not show differences, suggesting the aphid resistance is not a direct effect of the exotic sugars.

Raffinose-family oligosaccharides

aphid

carbon partitioning

Oligosaccharides.

Phloem.

Green peach aphid -- Control.

Raffinose.

Identification and Characterization of a Mutation Causing Stunted Growth in Arabidopsis that is Linked to Phosphate Perception

Shaikh, Mearaj Ahmed A J

12 1900

Plant yield is an agronomic trait dependent on the transport of photosynthate from mature source leaves to sink tissues. Manipulating phloem transport may lead to increased yield, however in a previous study, Arabidopsis thaliana overexpressing sucrose transporter AtSUC2 in the phloem resulted in stunted growth and an apparent P-deficiency. In the course of further characterizing the phenotype and identifying the causative mutation, this research included 1) reverse genetics to test genes hypothesized to modulate carbon-phosphate interactions; 2) whole genome sequencing to identify all T-DNA insertions in plants displaying the phenotype; 3) genetic crosses and segregation analysis to isolate the causative mutation; and 4) transcriptomics to capture gene-expression profiles in plants displaying the phenotype. These phenotypes were traced to a T-DNA insertion located on chromosome 4. Transcriptomics by RNA-Seq and data analysis through bioinformatics pipelines suggest disruptions in metabolic and transport pathways that include phosphate, but do not support a direct role of well-established phosphate acquisition mechanisms. Gene At1G78690 is immediately downstream of the T-DNA insertion site and shows modestly increased expression relative to wild type plants. At1G78690 encodes O-acyl transferase, which is involved in processing N-acylphosphotidyl ethanolamine (NAPE) to N-acyl ethanolamine (NAE). Exogenous NAE application causes stunted growth in specific conditions. From the experiments described herein, At1G78690 emerges as the strongest candidate for causing the observed phenotypes.

Phloem transport

Sucrose transporters

Phosphate

T-DNA

Over-expression

RNA-Seq

Constitutive and Jasmonate-Inducible Defenses in Phloem of Two North American and Two Asian Ash Species Grown in a Common Garden

Wang, Qin

29 April 2010

No description available.

Biology

ASH

Manchurian

Manchurian ash

green ash

EAB

PHLOEM

Chinese ash

Sodium and calcium uptake, transport and allocation in Populus euphratica and Populus x canescens in response to salinity / Natrium und Kalzium Aufnahme, Transport und Allokation in Populus euphratica und Populus x canescens als Reaktion auf Salinität

Hawighorst, Peter

14 December 2007

No description available.

580 Pflanzen (Botanik)

YQC

YQE

Forest Sciences and Forest Ecology

P. euphratica

P. x canescens

Salzstress

NaCl

Calcium

Xylem Transport

Phloem Transport

P. euphratica

P. x canescens

salinity

NaCl

calcium

xylem transport

phloem transport

48.99

Anatomia caulinar de Zanthoxylum rhoifolium Lam. (Rutaceae) e Moquiniastrum polymorphum (Less.) G. Sancho (Asteraceae) que ocorrem em Cerrado e Mata Atlântica

Nascimento, Marcela Blagitz Ferraz do

January 2017

Orientador: Carmen Regina Marcati / Resumo: Avaliar a estrutura anatômica de plantas que crescem em diferentes ambientes é uma maneira de compreender como as plantas se adaptam às variações destes ambientes. Algumas destas adaptações influenciam no transporte de água e de fotoassimilados, na proteção dos tecidos internos, na força mecânica e na capacidade de armazenamento dos tecidos, que são funções associadas ao caule das plantas. Assim, neste trabalho, avaliamos a estrutura caulinar de duas espécies, Moquiniastrum polymorphum e Zanthoxylum rhoifolium que ocorrem simultaneamente em diferentes tipos vegetacionais: o cerrado sensu stricto, o cerradão, a floresta estacional semidecídua e a floresta ombrófila densa. Os três primeiros tipos vegetacionais têm um período de seca durante o ano, enquanto que na floresta ombrófila densa o regime pluviométrico é relativamente constante ao longo do ano. Os solos de cada local apresentam diferentes propriedades físicas e químicas e no cerrado sensu stricto o fogo é um fator ambiental que pode ocorrer naturalmente. Estes fatores podem influenciar a estrutura anatômica dos tecidos vegetais. Para a descrição anatômica coletamos amostras do caule (a 1,30 m do solo) contendo xilema secundário e casca, pelo método não destrutivo, de cinco indivíduos de cada tipo vegetacional, que foram processadas conforme técnicas usuais em anatomia da madeira. Para verificar as diferenças entre os tipos vegetacionais, nós comparamos as características anatômicas por meio de uma análise de variância. ... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor

Xilema secundário

Floema secundário

Periderme

Anatomia ecológica

Sazonalidade pluviométrica

Secondary xylem

Secondary phloem

Periderm

Ecological anatomy

Seasonal rainfall

Partenaires et rôle dans le cycle viral des différentes formes de la protéine RT du Cucurbit aphid-borne yellows virus / Partners and role in viral cycle of the different forms of Cucurbit aphid-borne yellows virus RT protein

Boissinot, Sylvaine

15 February 2013

Les polérovirus infectent de nombreuses plantes d’intérêt économique telles que la pomme de terre, la betterave à sucre et les cucurbitacées. Ces virus icosaédriques renferment un ARN simple brin et leur capside est constituée d’une protéine majeure (CP) et d’un composant mineur (RT*) localisé à la surface des virions. Ces virus sont restreints aux cellules du phloème dans lesquelles ils se multiplient et se déplacent. Les protéines CP et RT sont essentielles à la dissémination du virus par le puceron vecteur et à son mouvement dans la plante. L’objectif de cette étude a consisté à identifier dans les cellules du phloème, les protéines associées aux virions susceptibles d’intervenir dans le cycle viral en criblant une banque d’ADNc de cellules compagnes (CC) d’A. thaliana avec les protéines de structure ou des domaines protéiques du CABYV. Quatre gènes codant pour une protéine Heat Shock (HSP), la profiline 3 (PRF3) une glysosyl hydrolase ; et la protéine « Response to low sulfur 3 » ont été identifiés. Tous ces gènes candidats interagissent avec le domaine RTC-ter du CABYV et avec la protéine RT* pour la protéine HSP. En plus de ces gènes candidats, je me suis intéressée à la protéine ALY, identifiée au laboratoire, au cours du criblage d’une banque d’ADNc de puceron entier avec les deux protéines de structure du Turnip yellows virus (un autre polérovirus). Cette protéine possède quatre orthologues chez Arabidopsis susceptibles d’être impliquées dans le mécanisme de gene silencing mis en place contre le Tomato Bushy Stunt Virus. Les protéines ALY sont donc des candidats intéressants et j’ai montré une interaction entre les protéines de structure du CABYV et du TuYV et les quatre orthologues d’Arabidopsis. L’implication de ces gènes candidats n’a pas pu être confirmée à ce jour dans des mutants knock-out d’arabidopsis. Les résultats complexes obtenus pour le candidat PRF3 au cours des analyses de validation fonctionnelle, m’a conduit à étudier l’interaction entre ce candidat et le domaine RTC-ter du CABYV in planta par FLIM mais aucune interaction n’a pu être confirmée à ce jour. Tous les candidats isolés lors du criblage de la banque d’ADNc de CC interagissant avec le domaine RTC-ter du CABYV, ce travail m’a conduit à analyser le rôle dans le cycle viral de ce domaine et de la protéine RT (sous sa forme complète ou dépourvue du domaine RTC-ter), en étudiant l’accumulation de ces mutants dans les plantes et le clivage de la protéine RT. Tout d’abord, afin de localiser précisément le site de clivage de la protéine RT, des mutants ponctuels dans la zone de clivage ont été réalisés ce qui a permis de montrer que la structure secondaire de la protéine est importante pour son clivage. Puis, afin d’analyser le rôle du domaine RTC-ter dans le cycle viral, j’ai obtenu par délétion, un mutant n’exprimant plus ce domaine. Ce mutant synthétise uniquement la protéine RT tronquée, forme des particules virales semblables au virus sauvage et est transmissible par puceron. Par contre, de façon surprenante, ce mutant est incapable d’envahir les feuilles non-inoculées d’une plante. Ce résultat suggère que les deux formes de la protéine RT (complète et tronquée) sont indispensables au mouvement à longue distance du virus et nous proposons un modèle dans lequel le domaine C-terminal de la protéine RT agit en trans sur la particule virale pour promouvoir le mouvement du CABYV à longue distance. / Poleroviruses infect a wide range of cultivated plants such as potatoes, sugar beet and plants of Cucurbitaceae family. These viruses are restricted to phloem tissue where they replicate in nucleated cells and translocate over long distances through sieve elements. Polerovirus capsid is composed of the major coat protein (CP) and of a minor component referred to as the readthrough (RT*) protein and exposed at the outside of the particles. CP and RT proteins are essential for virus movement and transmission by aphids. The aim of this study is to identify phloem proteins interacting with viral proteins and potentially involved in viral cycle, by screening an A. thaliana companion cell (CC) cDNA library with structural proteins or protein domains of CABYV. Four genes encoding for a heat shock protein (HSP), a profilin (PRF3), a glycosyl hydrolase and the protein ”Response to low sulfur ” (LSU3) were identified and interact with the C-terminal part of the RT protein (RTC‑ter) and with the RT* protein for the HSP. An additional gene encoding for the protein ALY, identified in the laboratory, by screening an aphid cDNA library with structural proteins of the Turnip yellows virus (another polerovirus) was studied. This protein has four orthologues in Arabidopsis, involved in the gene silencing mechanism against Tomato Bushy Stunt Virus. Here we show that CABYV and TuYV structural proteins interact with the four orthologues of Arabidopsis. Involvement of these candidate genes was not confirmed in Arabidopsis knock-out mutants. In functional experiments, ambiguous results were obtained with PRF3 arabidopsis mutants, and this lead me to study the interaction between PRF3 protein CABYV RT c-ter domain by FLIM, but no interaction was found so far. As all candidat interact with the RTC-ter domain, we studied more precisely the role of this domain in the viral cycle and the role of the complete RT protein. We studied the in vivo RT protein processing and its consequences on systemic movement of CABYV mutants. Using a collection of point mutations introduced in the central domain of the CABYV RT protein, we approached the site of the RT processing and proposed that this process is affected by the secondary structure around the cleavage site. We also reported for the first time the generation of a polerovirus mutant able to synthesize only the RT* protein and to incorporate it into the particle. This mutant was unable to move systemically. Conversely another mutant producing a full-length RT protein impaired in correct processing and incorporating a shorter version of the RT* protein showed very weak systemic infection. These data are strongly in favor of a role of both RT proteins in efficient CABYV movement. An inefficient virus transport was still maintained in the absence of RT proteins suggesting an RT-independent movement pathway. Based on these results, we propose a model for CABYV long-distance transport in which the complete RT protein, or its C-terminal part, acts in trans on wild-type virions to promote their efficient long-distance transport.

Polérovirus

Phloème

Mouvement du virus

Poleroviruses

Companion cell eDNA library

Yeast two hybrid

Virus movement

Readthrough protein

Phloem

572.8

579.2