High efficiency protoplast isolation from in vitro cultures and hairy roots of Maesa lanceolata

In vitro cultures of the medicinal plant Maesa lanceolata were established to enable the cultivation of plant material for the production of protoplasts. Callus cultures were initiated using leaves collected from shoot cultures and the root tips from hairy root cultures obtained upon Agrobacterium rhizogenes transformation. For the isolation of protoplast, the different explant material of M. lanceolata was exposed to an enzyme mixture consisting of 1.5% cellulase, 0.5% macerozyme R-10 and 0.5 M mannitol. About 6 x 106 protoplasts g-1 fresh weight were obtained from leaf material and 5 x 105 protoplasts g-1 fresh weight from callus. To obtain high amounts of hairy root protoplasts, the cultures were pretreated with the auxin indole-3-butyric acid (IBA) that stimulated the formation of novel root tips. Using the dissected root tips as starting material, 8 x 105 protoplasts g-1 fresh weight were obtained per preparation. The protoplast isolation method will enable further studies on the transformation and fusion of protoplasts from M. lanceolata

Construction of a novel fungal gus expression plasmid, and its evaluation in Aspergillus nidulans : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Genetics at Massey University

A GUS expression plasmid, pFunGus, was constructed containing a multi-cloning site for the insertion of gene regulatory elements, to be used in fungal reporter gene studies. A derivative of pFunGus (pFG-gpd) was constructed by the insertion of the gpdA promoter (glyceradehyde-3-phosphatc dehydrogenase) into the multi-cloning site of pFunGus for the assessment of the plasmid's transformation and expression properties in Aspergillus niduans. The correct construction of pFunGus and pFG-gpd was verified by analytical restriction digests and by its property of GUS expression in A. nidulans. The plasmid was integrated into the A. nidulans genome via cotransformation with the phleomycin resistance plasmid, pAN8-l. Transformation frequencies of between 3 and 250 transformants per µg of pAN8-l DNA were obtained. Initial screening for cotransformation yielded no pFG-gpd transformants. Attempts to improve cotransformation frequencies by optimisation of cotransformation conditions were unsuccessful. However, large scale screenings of transformants lead to cotransformants being isolated at a very low cotransformation frequency. Approximately 0.45% of pAN8-l transformants possessed the GUS phenotype. The eight pFG-gpd transformants obtained were analysed by Southern hybridisation. Six out of the eight transformants had a single copy integration. Of the remaining two transformants, one had three copies integrated at separate locations, one of which was disrupted, and the other had four copies integrated as tandem repeats, one of which was disrupted. All the transforming DNA appeared to be integrated ectopically. The physiology of the transformants was assessed by dry weight increase, colony extension and total protein content. These showed that the transformants biology was not significantly compromised by the transforming DNA. Finally, high levels of GUS expression were observed in all pFG-gpd transformants and the GUS expression per copy of the GUS expression cassette integrated into the genome was constant. These results showed that the transformed gene copy number determined the levels of gene activity rather than the position of integration in the genome. Overall these results demonstrate the potential application of the versatile GUS expression plasmid, pFunGus for reporter gene studies in filamentous fungi

ZZE-Configuration of chromophore ß-153 in C-phycocyanin from Mastigocladus laminosus

The photochemistry of C-phycocyanin has been studied after denaturation in the dark. It shows an irreversible reaction which has characteristics of a Ζ,Ζ,Ε- to Z,Z,Z-isomerization of dihydrobilins. Its amplitude depends on the reaction conditions, with a maximum corresponding to 15% conversion of one of the three PC chromophores. This chromophore is suggested to be ß-153, for which recent X-ray data T. Schirmer, W. Bode, and R. Huber, J. Mol. Biol., submitted, show ring D being highly twisted out of the plane of the other rings. During unfolding, there is thus a probability of falling into the photochemically labile Z,Z,^-configuration

Fob1 and Fob2 Proteins Are Virulence Determinants of Rhizopus oryzae via Facilitating Iron Uptake from Ferrioxamine.

Dialysis patients with chronic renal failure receiving deferoxamine for treating iron overload are uniquely predisposed for mucormycosis, which is most often caused by Rhizopus oryzae. Although the deferoxamine siderophore is not secreted by Mucorales, previous studies established that Rhizopus species utilize iron from ferrioxamine (iron-rich form of deferoxamine). Here we determined that the CBS domain proteins of Fob1 and Fob2 act as receptors on the cell surface of R. oryzae during iron uptake from ferrioxamine. Fob1 and Fob2 cell surface expression was induced in the presence of ferrioxamine and bound radiolabeled ferrioxamine. A R. oryzae strain with targeted reduced Fob1/Fob2 expression was impaired for iron uptake, germinating, and growing on medium with ferrioxamine as the sole source of iron. This strain also exhibited reduced virulence in a deferoxamine-treated, but not the diabetic ketoacidotic (DKA), mouse model of mucormycosis. The mechanism by which R. oryzae obtains iron from ferrioxamine involves the reductase/permease uptake system since the growth on ferrioxamine supplemented medium is associated with elevated reductase activity and the use of the ferrous chelator bathophenanthroline disulfonate abrogates iron uptake and growth on medium supplemented with ferrioxamine as a sole source of iron. Finally, R. oryzae mutants with reduced copies of the high affinity iron permease (FTR1) or with decreased FTR1 expression had an impaired iron uptake from ferrioxamine in vitro and reduced virulence in the deferoxamine-treated mouse model of mucormycosis. These two receptors appear to be conserved in Mucorales, and can be the subject of future novel therapy to maintain the use of deferoxamine for treating iron-overload

Clathrin-dependent and independent endocytic pathways in tobacco protoplasts revealed by labelling with charged nanogold

Positively charged nanogold was used as a probe to trace the internalization of plasma membrane (PM) domains carrying negatively charged residues at an ultrastructural level. The probe revealed distinct endocytic pathways within tobacco protoplasts and allowed the morphology of the organelles involved in endocytosis to be characterized in great detail. Putative early endosomes with a tubulo-vesicular structure, similar to that observed in animal cells, are described and a new compartment, characterized by interconnected vesicles, was identified as a late endosome using the Arabidopsis anti-syntaxin family Syp-21 antibody. Endocytosis dissection using Brefeldin A (BFA), pulse chase, temperature- and energy-dependent experiments combined with quantitative analysis of nanogold particles in different compartments, suggested that recycling to the PM predominated with respect to degradation. Further experiments using ikarugamycin (IKA), an inhibitor of clathrin-dependent endocytosis, and negatively charged nanogold confirmed that distinct endocytic pathways coexist in tobacco protoplast

Quantitative description of ion transport via plasma membrane of yeast and small cells

Modeling of ion transport via plasma membrane needs identification and quantitative understanding of the involved processes. Brief characterization of main ion transport systems of a yeast cell (Pma1, Ena1, TOK1, Nha1, Trk1, Trk2, non-selective cation conductance) and determining the exact number of molecules of each transporter per a typical cell allow us to predict the corresponding ion flows. In this review a comparison of ion transport in small yeast cell and several animal cell types is provided. The importance of cell volume to surface ratio is emphasized. The role of cell wall and lipid rafts is discussed in respect to required increase in spatial and temporal resolution of measurements. Conclusions are formulated to describe specific features of ion transport in a yeast cell. Potential directions of future research are outlined based on the assumptions.Comment: 22 pages, 6 figures, 1 tabl

The Role of RNAi in Downregulation of Physcomitrella Patens Defense Genes and the Preliminary Steps of PEG Mediated Transformation of Mosses

When attacked by a pathogen, the moss Physcomitrella patens will undergo both a hypersensitive response (HR) as well as a systematic acquired resistance (SAR) response. The SAR response turns on genes that ready the plant for future pathogen attacks. The hormone jasmonic acid (JA) is one of the products of SAR response in P. patens. In this study interference RNA (RNAi) was used to decrease gene expression of the allene oxide cyclase (ACe) gene, a key gene in the production pathway of JA. Using quantitative reverse transcriptase polymerase chain reaction (qRT-PCR), RNAi was found to significantly lower ACC gene levels in mosses, both before and after infection with the fungal pathogen Pythium irregulare. Furthermore RNAi was tested to see if it created a phenotypic difference when infecting P. patens. Lastly, the preliminary steps in a polyethylene glycol (PEG) mediated transformation were started by attempting to isolate single celled protoplasts in the mosses Mnium cuspidatum and Ceratadon purpureus. This transformation would cause a permanent knockout of a gene, as opposed to the short term decrease in expression achieved by RNAi