Polyketide synthase genes from the wood-decaying fungus Xylaria sp. BCC1067

Punya, Juntira

January 2002

No description available.

660

Gene disruption

Evaluation of the Role of gsp, ygiC, and yjfC Genes in Glutathione Metabolism in Escherichia coli by Gene Disruption

Warren, John C., III

12 July 2011

No description available.

Chemistry

Gene disruption

Glutathione

Spermidine

Cloning and functional characterisation of ornithine decarboxylase of Tapesia yallundae

Mueller, Elisabeth

January 2000

No description available.

630

TOWARDS ELIMINATION AND GENETIC MANIPULATION OF ERGOT ALKALOID PRODUCTION IN FUNGAL ENDOPHYTES

Florea, Simona

01 January 2009

Clavicipitaceous fungal endophytes provide several ecological benefits to their hosts. Besides improving host’s growth characteristics, Neotyphodium coenophialum, the endophyte of tall fescue (Lolium arundinaceum), produces ergot alkaloids that have been proposed to be involved in fescue toxicosis. One approach to address the toxicosis problem is to genetically manipulate and modify N. coenophialum by knocking out a pair of homologous genes, (dmaW1 and dmaW2), encoding dimethylallyltryptophan synthase, the enzyme for the first and determinant step in ergot-alkaloid biosynthesis. In this study, disruption of dmaW2 was attempted using several disruption methods. Out of 1522 transformants screened, three putative knockouts were identified. Southern blot analysis of digested genomic DNA indicated that homologous gene replacement at dmaW2 locus took place while dmaW1 was still present. Chromosome separation followed by Southern-blot hybridization showed that the dmaW genes in N. coenophialum are located on different chromosomes. The aim of this study was to obtain a nontoxic endophyte free of marker genes that could be used to inoculate popular tall fescue cultivars. Therefore the Cre/loxP system developed in this study allows reusing the marker gene for sequential transformations. Protoplasts from Neotyphodium coenophialum, Neotyphodium uncinatum, or Epichloë festucae isolates, containing a floxed hygromycin phosphotransferase (hph) gene (loxP::hph::loxP), were transfected with a Crerecombinase expression plasmid and then cultured without selection. The marker was excised in 0.5-2% of the colonies, leaving a single loxP sequence. This strategy will help to reduce the concerns related to field release or commercialization of economically important grasses associated with manipulated fungal strains. It is expected that the technology will likely be adapted and applied in other fungal species. Manipulation of the ergot alkaloid (EA) gene cluster from C. purpurea and C. fusiformis by introducing and expressing its genes in different fungal-grass symbionts was also investigated. Heterologous expression of the ergot alkaloid cluster could result either in the synthesis of compounds similar to the ones produced by the host or in synthesis of novel compounds with new modes of action. Even though the results indicated that several EA genes were expressed in the new symbiota, none of the ergot alkaloids intermediates were detected.

Plant Pathology

The Role of 5' Nucleotidase in the Regulation of Morphogenesis in Dictyostelium Discoideum

Chanchao, Chanpen

03 July 1999

5' Nucleotidase (5NU) in <i>Dictyostelium discoideum</i> is an enzyme that shows high substrate specificity to 5'AMP. The enzyme has received considerable attention in the past because of the critical role played by cyclic AMP in cell differentiation in this organism. Degradation of cAMP by cAMP phosphodiesterase (PDE) produces 5'AMP, the substrate of 5NU. Dictyostelium switches its genetic program from growth to cellular differentiation when nutrients become limited. During the time course of development, the activity of 5NU is high and becomes restricted to a narrow band of cells that form the interface between the prestalk/prespore zones. Understanding how this gene is regulated will provide knowledge underlying the process of cell differentiation. In order to understand the functional significance of the 5NU, I first purified of the 5NU protein using an artificial substrate p-nitrophenol phosphate (pNPP). An activity stain on non-denaturing gels with Nitro Blue Tetrazolium (NBT) and 5-Bromo-4-Chloro-3-Indolyl Phosphate (BCIP) as the substrate was also used. A polypeptide of approximately 90 kDa was associated with 5NU enzyme activity after gel filtration chromatography and denaturing gel electrophoreses. Protein sequence of this peptide was obtained from Mass Spectrometry and Edmund Degradation. Various databanks were searched for similar sequences, but no matches with high identity were obtained. However, a search of the sequences of an ongoing cDNA project at the University of Tsukuba in Japan revealed a clone that corresponded to the peptide sequence of 5NU. In addition, a clone was found that corresponded to the classical "alkaline phosphatase" found in several organisms. Analysis of the expression of the 5NU and AP during Dictyostelium development by Northern blotting determined that the 5NU is developmentally regulated while the AP is expressed at all stages of the life cycle. Southern blot analysis showed a single form of the gene for both 5NU and AP. Targeted gene disruption and knockout mutagenesis using the 5NU sequences flanking a blasticidin-resistant cassette was attempted. Analysis of the transformants showed the 5NU gene was not disrupted, and that the blasticidin-resistant cassette was randomly inserted into the genome. / Ph. D.

gene disruption

5′ nucleotidase

alkaline phosphatase

AX3K transformants

purification

expression

Targeted Disruption Of Homoserine Dehydrogenase Gene In Streptomyces Clavuligerus And Its Effects On Cephamycin C Production

Koca Caydasi, Ayse

01 July 2006

The members of the genus Streptomyces are well-known for their capacity to synthesize a vast repertoire of secondary metabolites, including many useful antibiotics and proteins. Streptomyces clavuligerus is the producer of the medically important &amp / #946 / -lactam antibiotics such as cephamycin C and the potent &amp / #946 / -lactamase inhibitor clavulanic acid. The aspartate pathway of S. clavuligerus is an important primary metabolic pathway providing substrates for &amp / #946 / -lactam synthesis. This pathway uses L-aspartic acid as the precursor for the biosynthesis of the amino acids L-lysine, L-methionine, L-isoleucine, L-threonine and several important metabolic intermediates. L-&amp / #945 / -aminoadipic acid (&amp / #945 / -AAA) required for &amp / #946 / -lactam synthesis is a catabolic product of L-lysine produced from the lysine branch of the aspartate pathway. The carbon flow through the L-lysine-specific branch of aspartate pathway is limiting for the formation of cephamycin C. Formation of L-homoserine from aspartate semialdehyde (ASA) is the first step of the other branch of the aspartate pathway leading to L-threonine, L-isoleucine and L-methionine synthesis and is catalyzed by homoserine dehydrogenase (HSD, EC 1.1.1.3). Regulation of the activity or biosynthesis of the HSD of S. clavuligerus determines the availability of ASA for the biosynthesis of L-lysine and &amp / #945 / -AAA. The gene encoding for homoserine dehydrogenase (hom) was previously cloned from S. clavuligerus NRRL 3585 and characterized in our laboratory. In this study, the hom gene was disrupted via insertion of a kanamycin resistance cassette into this gene which was subsequently transferred to S. clavuligerus cells using the Streptomyces plasmid vector pIJ486. A hom mutant of S. clavuligerus (AK39) was formed through integration into the chromosome by double crossing over and the effects of hom disruption on cephamycin C yields were investigated. Disruption of hom gene resulted in a 1.7 to 2.0 fold increase in specific cephamycin C production in chemically defined medium (CDM).

QR Microbiology 1-502

Streptomyces clavuligerus

Studies on membrane-bound peptidases and a sugar transporter in the hyperthermophilic archaeon Thermococcus kodakaraensis / 超好熱始原菌サーモコッカス コダカラエンシスの膜結合型ペプチダーゼ及び糖トランスポーターに関する研究 / チョウ コウネツ シゲンキン サーモコッカス コダカラエンシス ノ マク ケツゴウガタ ペプチダーゼ オヨビ トウ トランスポーター ニ カンスル ケンキュウ

Matsumi, Rie

24 March 2008

Kyoto University (京都大学) / 0048 / 新制・論文博士 / 博士(工学) / 乙第12200号 / 論工博第3989号 / 新制||工||1438(附属図書館) / 26272 / UT51-2008-C970 / (主査)教授 今中 忠行, 教授 青山 安宏, 教授 森 泰生 / 学位規則第4条第2項該当

Hyperthermophilic

archaea

Thermococcus kodakaraensis

membrane-bound peptidase

sugar transporter

gene disruption system

500

Caracterização de Mutantes de Xanthomonas citri Gerados por Disrupção Gênica Randômica Usando Transposon / Characterization of Xanthomonas citri mutants generated by random gene disruption using transposon

Garcia, Julio Cesar Levano

06 February 2003

Xanthomonas axonopodis pv citri (Xac), uma bactéria gram negativa, é a causadora da doença Cancro Cítrico que ocasiona enormes prejuizo na citricultura brasileira. Com o seqüenciamento do genoma deste patógeno foram encontradas inúmeras sequências codificadores com funções desconhecidas. Assim com a finalidade de estudos funcionais do genoma de Xac, foram gerados mutantes randômicos usando o transposon EZ::TN, que induziu disrupção aleatoria de seus genes com o intuito de avaliar que genes inativados afetam a patogenicidade da bactéria. Para o mapeamento do local de inserção do transposon foi desenvolvida uma metodologia baseada na técnica de PCR touchdown utizando oligonucleotídeos semidegenerados. A confiabilidade deste novo método foi comprovada através do mapeamento por Southem blot de alguns mutantes. Conseguiu-se mapear 90 mutantes randômicos com este método. Os testes de patogenicidade em citros mostraram mutantes com sua patogenicidade afetada observando-se variações nos sintomas da doença. Mutantes interessantes contendo uma ORF hipotética inativada ou tendo uma inserção num espaço intergênico foram achadas, sendo também detectados alguns mutantes com nocaute de genes nos seus plasmídeos pXac33 e pXac66. / Xanthomonas axonopodis pv citri (Xac), a gram-negative bacteria, is the causer of the Citrus Canker disease that produces enormous losses to the brazilian citrus sector. Many coding sequences with unknown functions were found in the genome sequence of this pathogen. Therefore, with the goal of functional studies of Xac\'s genome, random mutants using the EZ::TN transposon, have been generated, which carry aleatory disruptions of their genes, with the aim of evaluating inactived genes that potentially affect bacterial pathogenicity. A method based in the PCR touchdown technique using semidegenerate primers was developed for the mapping of the transposon insertion site. The reliability of this new method was tested by means of mapping some mutants using Southern blot. Ninety random mutants were mapped with this method. The pathogenicity tests in citrus showed mutants with their pathogenicity affected and variations in the disease symptoms were observed. Interesting mutants containing an inactive hypothetical ORF or with an insertion in intergenic regions have been found, and also some mutants with inactivated genes in their plasmids pXac33 and pXac66 were detected.

Disrupção gênica

Fitopatologia

Gene disruption

Gram-negative anaerobic bacteria (Study)

Mutação (Biologia)

Mutation (Biology)

Parasitos de plantas

PCR touchdown

PCR touchdown

Plant parasites

Plant pathology

Transposon

Transposon

Xanthomonas (Estudo)

Xanthomonas (Study)

Caracterização de Mutantes de Xanthomonas citri Gerados por Disrupção Gênica Randômica Usando Transposon / Characterization of Xanthomonas citri mutants generated by random gene disruption using transposon

Julio Cesar Levano Garcia

06 February 2003

Xanthomonas axonopodis pv citri (Xac), uma bactéria gram negativa, é a causadora da doença Cancro Cítrico que ocasiona enormes prejuizo na citricultura brasileira. Com o seqüenciamento do genoma deste patógeno foram encontradas inúmeras sequências codificadores com funções desconhecidas. Assim com a finalidade de estudos funcionais do genoma de Xac, foram gerados mutantes randômicos usando o transposon EZ::TN, que induziu disrupção aleatoria de seus genes com o intuito de avaliar que genes inativados afetam a patogenicidade da bactéria. Para o mapeamento do local de inserção do transposon foi desenvolvida uma metodologia baseada na técnica de PCR touchdown utizando oligonucleotídeos semidegenerados. A confiabilidade deste novo método foi comprovada através do mapeamento por Southem blot de alguns mutantes. Conseguiu-se mapear 90 mutantes randômicos com este método. Os testes de patogenicidade em citros mostraram mutantes com sua patogenicidade afetada observando-se variações nos sintomas da doença. Mutantes interessantes contendo uma ORF hipotética inativada ou tendo uma inserção num espaço intergênico foram achadas, sendo também detectados alguns mutantes com nocaute de genes nos seus plasmídeos pXac33 e pXac66. / Xanthomonas axonopodis pv citri (Xac), a gram-negative bacteria, is the causer of the Citrus Canker disease that produces enormous losses to the brazilian citrus sector. Many coding sequences with unknown functions were found in the genome sequence of this pathogen. Therefore, with the goal of functional studies of Xac\'s genome, random mutants using the EZ::TN transposon, have been generated, which carry aleatory disruptions of their genes, with the aim of evaluating inactived genes that potentially affect bacterial pathogenicity. A method based in the PCR touchdown technique using semidegenerate primers was developed for the mapping of the transposon insertion site. The reliability of this new method was tested by means of mapping some mutants using Southern blot. Ninety random mutants were mapped with this method. The pathogenicity tests in citrus showed mutants with their pathogenicity affected and variations in the disease symptoms were observed. Interesting mutants containing an inactive hypothetical ORF or with an insertion in intergenic regions have been found, and also some mutants with inactivated genes in their plasmids pXac33 and pXac66 were detected.

Disrupção gênica

Fitopatologia

Mutação (Biologia)

Parasitos de plantas

PCR touchdown

Transposon

Xanthomonas (Estudo)

Gene disruption

Gram-negative anaerobic bacteria (Study)

Mutation (Biology)

PCR touchdown

Plant parasites

Plant pathology

Transposon

Xanthomonas (Study)