<i>In vivo</i> study of the role of the cytoskeleton and fungal golgi in hyphal tip growth of <i>Aspergillus nidulans</i>

Hubbard, Michelle Anne

07 May 2007

Filamentous fungi, such as <i>Aspergillus nidulans</i>, are composed of tubular, highly polarized, multinucleate cells called hyphae. Polar growth involves secretion specifically at the hyphal tip. Secretion involves intracellular transport and co-ordination of the cytoskeleton and the endomembrane system. <p>Intracellular transport is likely mediated by cytoskeletal elements, which, in fungal cells consist primarily of actin and microtubules (MTs). An <i>A. nidulans</i> strain transformed with green fluorescent protein (GFP) tagged α-tubulin was utilized in the investigation of relationship between cytoplasmic MT arrays and hyphal growth rate. <i>A. nidulans</i> MTs were observed to be long and flexuous and to run roughly parallel to the long axis of hyphae. No correlation between relative MT abundance and hyphal growth rate was observed, although non-growing hyphae had a lower relative MT abundance than growing hyphae. Actin depolymerization decreased hyphal growth rate while MT depolymerization did not. MT stabilization increased hyphal growth rate. Ethanol, the solvent in which the MT and actin inhibitors were dissolved, increased both average overall growth rate and growth rate variability for individual hyphae. Taxol appeared to interact with irradiation to decreased growth rate during imaging. <p>Golgi are involved in secretion and potentially in polar growth. An <i>A. nidulans</i> α-coatomer protein (COP)I homolog (α-COPI), tagged with GFP, was used to investigate the role(s) of fungal Golgi in polar growth. α-COPI-GFP co-localized with the known Golgi marker, α-2,6-sialyltransferase (ST), tagged with red fluorescent protein (RFP), in untreated hyphae. Based on this observation, I propose that α-COPI-GFP can be used as a proxy for fungal Golgi localization. Fungal Golgi were more abundant at hyphal tips than subapically. Fungal Golgi forward (tipward) velocity correlated with hyphal growth rate. Fungal Golgi forward velocity was, on average, approximately ten times greater than average hyphal growth rate. Actin depolymerization reduced fungal Golgi forward velocity while MT depolymerization did not. However, MT stabilization increased fungal Golgi forward velocity. <p>Polymerized MTs do not appear to be essential for hyphal growth but do appear to be involved in hyphal growth rate variability. MTs also appear to play some role in the movement of fungal Golgi. The distribution and movement of fungal Golgi is clearly related to polarity.

fungi

cauliflower 35S promoter

confocal microscopy

cytoskeleton

<i>In vivo</i> study of the role of the cytoskeleton and fungal golgi in hyphal tip growth of <i>Aspergillus nidulans</i>

Hubbard, Michelle Anne

07 May 2007

Filamentous fungi, such as <i>Aspergillus nidulans</i>, are composed of tubular, highly polarized, multinucleate cells called hyphae. Polar growth involves secretion specifically at the hyphal tip. Secretion involves intracellular transport and co-ordination of the cytoskeleton and the endomembrane system. <p>Intracellular transport is likely mediated by cytoskeletal elements, which, in fungal cells consist primarily of actin and microtubules (MTs). An <i>A. nidulans</i> strain transformed with green fluorescent protein (GFP) tagged α-tubulin was utilized in the investigation of relationship between cytoplasmic MT arrays and hyphal growth rate. <i>A. nidulans</i> MTs were observed to be long and flexuous and to run roughly parallel to the long axis of hyphae. No correlation between relative MT abundance and hyphal growth rate was observed, although non-growing hyphae had a lower relative MT abundance than growing hyphae. Actin depolymerization decreased hyphal growth rate while MT depolymerization did not. MT stabilization increased hyphal growth rate. Ethanol, the solvent in which the MT and actin inhibitors were dissolved, increased both average overall growth rate and growth rate variability for individual hyphae. Taxol appeared to interact with irradiation to decreased growth rate during imaging. <p>Golgi are involved in secretion and potentially in polar growth. An <i>A. nidulans</i> α-coatomer protein (COP)I homolog (α-COPI), tagged with GFP, was used to investigate the role(s) of fungal Golgi in polar growth. α-COPI-GFP co-localized with the known Golgi marker, α-2,6-sialyltransferase (ST), tagged with red fluorescent protein (RFP), in untreated hyphae. Based on this observation, I propose that α-COPI-GFP can be used as a proxy for fungal Golgi localization. Fungal Golgi were more abundant at hyphal tips than subapically. Fungal Golgi forward (tipward) velocity correlated with hyphal growth rate. Fungal Golgi forward velocity was, on average, approximately ten times greater than average hyphal growth rate. Actin depolymerization reduced fungal Golgi forward velocity while MT depolymerization did not. However, MT stabilization increased fungal Golgi forward velocity. <p>Polymerized MTs do not appear to be essential for hyphal growth but do appear to be involved in hyphal growth rate variability. MTs also appear to play some role in the movement of fungal Golgi. The distribution and movement of fungal Golgi is clearly related to polarity.

fungi

cauliflower 35S promoter

confocal microscopy

cytoskeleton

Quantifying the Effects of Single Nucleotide Changes in the TATA Box of the Cauliflower Mosaic Virus 35S Promoter on Gene Expression in Arabidopsis thaliana

Amack, Stephanie C.

12 1900

Synthetic biology is a rapidly growing field that aims to treat cellular biological networks in an analogous way to electrical circuits. However, the field of plant synthetic biology has not grown at the same pace as bacterial and yeast synthetic biology, leaving a dearth of characterized tools for the community. Due to the need for tools for the synthetic plant biologist, I have endeavored to create a library of well-characterized TATA box variants in the cauliflower mosaic virus (CaMV) 35S promoter using the standardized assembly method Golden Braid 2.0. I introduced single nucleotide changes in the TATA box of the CaMV 35S promoter, a genetic part widely used in plant gene expression studies and agricultural biotechnology. Using a dual-luciferase reporter system, I quantified the transcriptional strength of the altered TATA box sequences and compared to the wild-type sequence, both in transient protoplast assays and stable transgenic Arabidopsis thaliana plants. The library of TATA-box modified CaMV 35S promoters with varying transcriptional strengths created here can provide the plant synthetic biology community with a series of modular Golden Braid-adapted genetic parts that can be used dependably and reproducibly by researchers to fine-tune gene expression levels in complex, yet predictable, synthetic genetic circuits.

synthetic biology

35S promoter

Biology, Molecular

Biology, Plant Physiology

Caractérisation génomique et développement d’outils de construction de clones infectieux pour l’étude de flexivirus / Genomic characterization and development of tools for the construction of infectious full-lngth cDNAs for the study of flexiviruses

Youssef, Fater

21 December 2010

La famille des Flexiviridae a été créée en 2004 et regroupe plusieurs genres viraux affectant particulièrement des espèces ligneuses dont des arbres fruitiers. Grâce à diverses approches plusieurs nouveaux Flexiviridae ont été partiellement caractérisés au cours de ces dernières années. En revanche la position taxonomique précise de certains d’entre eux et leur contribution à des pathologies particulières restent encore incertaines du fait de difficultés inhérentes à l’étude de ces agents. Dans le présent travail, nous avons obtenu les séquences génomiques complètes pour quatre agents proches de l’Apricot latent virus. Ceci a permis de préciser l’organisation génomique de ces virus et d’en déterminer la position taxonomique. Cette étude a également permis de montrer que la partie C-terminale de la capside et la protéine TGBp1 sont soumises à une pression sélective particulièrement forte. Dans un second volet de ce travail, plusieurs approches permettant l’obtention simple et rapide d’ADNc infectieux, sous forme clonée ou non ont été développées. Travaillant sur plusieurs Flexiviridae, dont le virus des taches foliaires chlorotiques du pommier (Apple chlorotic leaf spot virus, ACLSV), nous avons mis au point l’amplification d’ADNc génomiques complets en une seule étape à partir d’extraits d’acides nucléiques totaux obtenus à partir de plantes infectées. Des amplifiats comportant l’ADNc viral sous le contrôle du promoteur 35S du CaMV ou du promoteur de la RNA polymérase du phage T7 ont été obtenus et utilisés pour infecter des plantes directement par biolistique (promoteur 35S) ou pour obtenir des ARN infectieux par transcription in vitro (promoteur T7). Ces données ont mis en évidence des différences importantes dans le comportement de deux hôtes de l’ACLSV, Chenopodium quinoa et Nicotiana occidentalis 37B. Nous avons également utilisé le système de recombinaison homologue de la levure Saccharomyces cerevisiae simplifier le clonage d’ADNc complets amplifiés par PCR ou pour réaliser en une seule étape la construction d’un vecteur navette ternaire levure-E. coli-A. tumefaciens et l’obtention d’un clone ADNc de l’ACLSV inoculable par agroinfiltration. Ces différentes stratégies devraient trouver une large application, en particulier pour tester plus rapidement des hypothèses d’étiologie pour les virus de plantes réputés "difficiles", tels que ceux infectant des hôtes ligneux. / The Flexiviridae family was created in 2004 and contains several viral genera affecting in particular woody hosts, including fruit trees. Using various strategies several new Flexiviridae have been partially characterized in the past few years. However, due to difficulties inherent in studying these agents, the precise taxonomic position of some of them and their contribution to particular diseases are still uncertain. In the present work, the complete genomic sequences of four Prunus-infecting Apricot latent virus (ApLV) like isolates have been determined. This has allowed to determine the genomic organization and the taxonomic position of these viruses. The results obtained also indicate that the C-terminal half of the coat protein and the TGBp1 are the genomic regions under the strongest purifying selection pressure. In the second part of this work, a set of approaches to simplify and streamline the construction of cloned or uncloned infectious full-length viral cDNAs were developed. working with several Flexiviridae and, in particular, with the Apple chlorotic leaf spot virus (ACLSV), we have developed protocols allowing the one-step amplification from total nucleic acids extracts of full-length cDNAs. under the control of the CaMV 35S or phage T7 RNA polymerase promoters. Successful inoculation of plants with these uncloned amplification products was obtained by biolistic bombardment (35S promoter) or using in vitro synthesized RNA transcripts (T7 promoter). Results obtained showed significant differences in the behavior of the two ACLSV hosts, Chenopodium quinoa and Nicotiana occidentalis 37B. We also used the yeast homologous recombination system for the efficient cloning of full-length cDNAs and for the simultaneous one-step construction of a ternary yeast-E. coli-Agrobacterium tumefaciens shuttle vector and generation of an agroinfiltrable infectious ACLSV construct. These various strategies should find broad applications, in particular for the validation of etiological hypotheses in the case of “difficult” plant viruses, such as those infecting woody hosts.

Flexiviridae

Apricot latent virus

ADNc infectieux

Promoteur 35S

Promoteur T7

Recombinaison homologue

Saccharomyces cerevisiae

Infectious cDNA

35S promoter

T7 promoter

Homologous recombination