Global ETD Search

1	Protoplast fusion and regeneration in Streptomyces clavuligerus Illing, G. T. January 1987 (has links) No description available. 579 Bacterial protoplast fusion
2	Metabolite production and molecular characterisation of interspecific Aspergilli Hothersall, Joanne January 1998 (has links) No description available. 579
3	Seleção de linhagens de Saccharomyces cerevisiae potencializadas pelo fator Killer, H2S- e o carater floculante. / Improvement of a saccharomyces cerevisiae strain by the characters: "Killer" skills, flocculation capacity and lack in productinof H2S-. Brites, Anny Stella Monteiro 04 April 2003 (has links) Dentre as características desejáveis em leveduras fermentadoras alcóolicas estão a capacidade de floculação, a não produção de H2S e o caráter "killer". Neste trabalho foram selecionadas sete linhagens de Saccharomyces cerevisiae com algumas destas características, que passaram por testes confirmativos e pela cariotipagem eletroforética resultando na escolha de duas linhagens: ATCC 26602 (altamente floculante) e K1 (H2S - e possuidoras do caráter "killer"). Estas linhagens foram utilizadas em um cruzamento via fusão de protoplasto para se obter um produto de fusão estável com as características de interesse tecnológico. Na seleção das linhagens híbridas com base em caracteres naturais foram isolados 1291 híbridos em meio seletivo e entre essas colônias somente 1,5% foram inicialmente consideradas híbriadas. Após três subcultivos em YEPD líquido, estes produtos de fusão não se mostraram estáveis. / Flocculative and "killer" skills and lack in production of H2S are desirable characteristics of the ethanolic fermentative yeasts. Seven selected strains of Saccharomyces cerevisiae with some of these characteristics were evaluated for confirmation of these habilities and their genetic characterization was undertaken by eletrophoretic kariotyping. The strain ATCC 26602 had flocculant hability and the strain K1 was H2S - and "killer". The strains were selected for protoplast fusion aiming to obtain a stable fusion strain with these desirable technologyc characteristics. The selection of the hybrid strains were based on natural characters and have shown 1291 hybrids (frequency of 1,5%) in the medium for the isolation of the fusionants (protoplasts). The protoplast stability were monitored by three continuous growth in the YEPD liquid midium and the stable fusion products were not obtained. flocculation floculação fusão de protoplasto levedura protoplast fusion yeast
4	Seleção de linhagens de Saccharomyces cerevisiae potencializadas pelo fator Killer, H2S- e o carater floculante. / Improvement of a saccharomyces cerevisiae strain by the characters: "Killer" skills, flocculation capacity and lack in productinof H2S-. Anny Stella Monteiro Brites 04 April 2003 (has links) Dentre as características desejáveis em leveduras fermentadoras alcóolicas estão a capacidade de floculação, a não produção de H2S e o caráter "killer". Neste trabalho foram selecionadas sete linhagens de Saccharomyces cerevisiae com algumas destas características, que passaram por testes confirmativos e pela cariotipagem eletroforética resultando na escolha de duas linhagens: ATCC 26602 (altamente floculante) e K1 (H2S - e possuidoras do caráter "killer"). Estas linhagens foram utilizadas em um cruzamento via fusão de protoplasto para se obter um produto de fusão estável com as características de interesse tecnológico. Na seleção das linhagens híbridas com base em caracteres naturais foram isolados 1291 híbridos em meio seletivo e entre essas colônias somente 1,5% foram inicialmente consideradas híbriadas. Após três subcultivos em YEPD líquido, estes produtos de fusão não se mostraram estáveis. / Flocculative and "killer" skills and lack in production of H2S are desirable characteristics of the ethanolic fermentative yeasts. Seven selected strains of Saccharomyces cerevisiae with some of these characteristics were evaluated for confirmation of these habilities and their genetic characterization was undertaken by eletrophoretic kariotyping. The strain ATCC 26602 had flocculant hability and the strain K1 was H2S - and "killer". The strains were selected for protoplast fusion aiming to obtain a stable fusion strain with these desirable technologyc characteristics. The selection of the hybrid strains were based on natural characters and have shown 1291 hybrids (frequency of 1,5%) in the medium for the isolation of the fusionants (protoplasts). The protoplast stability were monitored by three continuous growth in the YEPD liquid midium and the stable fusion products were not obtained. floculação fusão de protoplasto levedura flocculation protoplast fusion yeast
5	Production of synthetic genotypes of <i>Brassica juncea</i> via somatic and sexual hybridization Campbell, Craig Thomas 01 January 1993 (has links) The major objective of this study was to produce synthetic genotypes of Brassica juncea from its parental species <i> B. rapa </i> and <i> B. nigra </i> via somatic and sexual hybridization. As prerequisites for somatic hybridization experiments, methods were developed to improve the culture of mesophyll and hypocotyl protoplasts of <i> B. nigra </i> and <i> B. rapa </i>, to obtain reliable plant regeneration from mesophyll protoplast cultures of <i> B. nigra </i>, and to fuse protoplasts of <i> B. nigra </i> and <i> B. rapa </i>. A modified Kao's medium (1977), was found suitable for the culture of mesophyll protoplasts of <i> B. nigra </i> and <i> B. rapa </i>. At a density of approximately $110\sp5$ protoplasts/ml within a culture plate insert surrounded by culture medium, mesophyll protoplast cultures of <i> B. nigra </i> accessions R890, R1819, R3392 and U1218 and <i> B. rapa </i> cvs. R500 and Wong Bok formed colonies. Genotypic differences in cell division and colony formation were observed. Hypocotyl protoplasts of <i> B. nigra </i> and <i> B. rapa </i> were successfully isolated from 6 day-old seedlings cultured in a modified Kao's medium (1977). With <i> B. nigra </i> accession R890 and <i> B. rapa </i> cv. R500, cell division and colony formation were optimal when hypocotyl protoplasts were cultured at a density of 0.5 to $1.010\sp5$ protoplasts/ml within a culture plate insert surrounded by a nurse culture of 4 to 6 day-old mesophyll protoplasts of <i> B. nigra </i>. Plant regeneration was obtained from mesophyll protoplast-derived calli of <i> B. nigra </i> accession R890 originally cultured in inserts; a shoot regeneration frequency of 8.1% was obtained on a medium containing the salts and vitamins of medium K3 (Nagy and Maliga 1976) with 3 g/l sucrose, 18.2 g/l mannitol, 2 mg/l ZR, 0.1 mg/l NAA, 10 g/l agarose, pH 5.6. For somatic hybridizatian studies, methods were developed to select out parental protoplasts using iodoacetic acid and to efficiently fuse protoplasts on the bottom of a petri dish using PEG. Twenty-nine plants were recovered from fusion experiments between mesophyll protoplasts of <i> B. nigra </i> accession R890 and hypocotyl protoplasts of <i> B. rapa </i> cv. Tobin. The somatic hybrid plants resembled natural <i> B. juncea </i>, had $2n=36$ chromosomes and had pollen viabilities ranging from 30 to 45%. Twenty-one plants, derived from one callus colony, possessed the mitochondrial and chloroplast genomes of <i> B. rapa </i>, as found in natural <i> B. juncea </i>. Eight plants, derived from another callus, had a novel cytoplasmic combination consisting of the mitochondrial genome of <i> B. rapa </i> and the chloroplast genome of <i> B. nigra </i>. Synthetic genotypes of <i> B. juncea </i> were also produced from reciprocal sexual crosses between <i> B. rapa </i> and <i> B. nigra </i>. Seventy-eight interspecific hybrid plants from the cross <i> B. rapa </i> x <i> B. nigra </i> and six hybrid plants from the reciprocal cross were identified by their morphology, pollen viability and chromosome number. The colchicine-induced allotetraploids resembled natural <i> B. juncea </i> in morphology, had 18 bivalents at metaphase I, and had between 35 and 70% pollen viability. somatic hybridization sexual hybridization genetic engineering plant biotechnology Brassica nigra Brassica rapa protoplast fusion Brassica juncea
6	Development of intermonoploid somatic hybrids of potato and their molecular analysis based on polymorphism for retroelement Tst1 Lightbourn, Gordon James 13 September 2004 (has links) Inbred lines for hybrid crop production have been a mainstay of plant breeding. Biotechnological approaches to hasten the process are available including anther culture to halve the genome and protoplast fusion to create hybrids between incompatible partners. We applied these techniques to potato to evaluate their potential for breeding highly heterozygous, cross-pollinating species. Four families of monoploids (2n=1x=12), developed from diploid hybrids with diverse genomic constitutions but heavily favoring Solanum phureja, a primitive cultivated potato, were used in electrofusion experiments to create intermonoploid somatic hybrids (SH). The "monoploid sieve" results in the survival of only those gametes free of lethal and deleterious genes but generates sterile sporophytes, necessitating protoplast fusion for SH development. From six intermonoploid electrofusion combinations, 276 plants were regenerated over 6-9 months. Fusion conditions were optimized. Ploidy was determined by flow-cytometry and SH confirmed by microsatellite analysis. Field evaluations over three years revealed that intermonoploid SH were inferior to cultivars. Dihaploids derived by anther culture of a tetraploid intermonoploid SH were reduced in vigor with an increase in homozygosity, while 2x X 2x sexually derived populations had better yield than the SH, suggesting that producing SH introduced or eliminated factors required for productivity. Molecular analysis of the SH was conducted to examine genomic stability through protoplast isolation and plant regeneration. Sequence specific amplified polymorphism (S-SAP) represents a hybrid system incorporating amplified fragment length polymorphism (AFLP) technology in conjunction with the use of a defined genomic sequence, e.g., retrotransposon display (RD) when the defined sequence is anchored into a consensus sequence of a retrotransposon such as the long terminal repeat (LTR) sequence of Tst1. Parental monoploids, SH and various Solanaceae were evaluated by RD. Fluorescently-labeled retrotransposon-based primers were used in the ALFexpress automated fragment analyzer system. Eleven probes from RD were created for Southern blot analysis and used to verify taxonomic relationships between selected Solanaceae. Blots of intermonoploid somatic hybrids confirmed hybridity and occasional loss of genomic fragments. No activation or replication of retrotransposons was detected. Sequencing of inter-retrotransposon amplified polymorphism (IRAP) and S-SAP fragments revealed that all fragments had the expected Tst1 retroelement and/or the AFLP adaptor sequence. BLAST analysis identified 4 of the 17 fragments sequenced as part of the chloroplast genome, a tobacco anther-specific gene, repetitive DNA, and the phytochrome F gene. / Ph. D. retrotransposon S-SAP AFLP IRAP Solanum phureja Solanum tuberosum monoploid protoplast fusion
7	Hibridação somática entre Citrus sinensis e C. grandis. / Somatic hybridization of Citrus sinensis and C. grandis. Calixto, Marcia Cristina 12 June 2003 (has links) A hibridação somática de citros tem sido extensivamente aplicada, favorecendo o desenvolvimento de híbridos somáticos em programas de melhoramento genético, como fonte de germoplasma ou como variedades copa e porta-enxerto. Neste contexto, este trabalho foi desenvolvido com o objetivo de selecionar plantas de toranja (Citrus grandis L. Osbeck) tolerantes à Phytophthora sp. e utilizá-las como parentais no processo de hibridação somática com outras espécies do gênero Citrus, a fim de produzir híbridos somáticos para o melhoramento de porta-enxertos. Plantas de 20 variedades de toranja tolerantes à Phytophthora spp. foram selecionadas, após serem cultivadas em solo infestado. Experimentos de fusão de protoplastos foram realizados envolvendo laranjas doces, tangerinas e o tangor Murcote, como parentais embriogênicos, e variedades de toranja selecionadas e plantas enxertadas de 12 variedades de toranja, como parentais não-embriogênicos, utilizando-se a técnica de fusão química, via polietilenoglicol (PEG). Microcolônias foram transferidas para meio de cultura MT semi-sólido, suplementado com 500 mg.l -1 de extrato de malte para indução da embriogênese somática. A confirmação da hibridação somática das plantas regeneradas e aclimatizadas foi realizada por meio de análises de morfologia foliar, de citologia, pela contagem do número de cromossomos, e moleculares, por marcadores do tipo RAPD. As metodologias utilizadas para seleção de plantas matrizes, fusão de protoplastos, regeneração de plantas e confirmação da hibridação somática foram adequadas, e permitiram a obtenção de híbridos somáticos de laranja Hamlin com toranja enxertada Indian Red e com seedling selecionado de toranja Singapura, que apresentam potencial para serem incorporados em programas de melhoramento de porta-enxertos. / Citrus somatic hybridization has been extensively applied assisting the development of the somatic hybrids which can be used in improvement programs, indirectly as germoplasm source or directly as scion and rootstock varieties. In this context, this research was developed with the objective of selecting plants of pummelo (C. grandis L. Osb) tolerant to Phytophthora sp. and use these plants as parents in the somatic hybridization process with other species of Citrus. Plants of 20 pummelo varieties, tolerant to Phytophthora sp., were selected after being grown in infested soil. Protoplast fusion experiments were induced by chemical method, with polyethylene glicol (PEG), involving sweet oranges, mandarins and Murcott tangor, as embryogenic parents, selected pummelo varieties and grafted plants of 12 pummelo varieties, as non-embryogenic parents. Microcolonies were transferred to EME semi-solid MT containing 500 mg.l -1 of malt extract for somatic embryogenesis. Somatic hybridization was confirmed by analysis of leaf morphology, citology by chromosome counting and molecular analysis by RAPD markers. The protocols used to select plants to be used as protoplast source, protoplast fusion, plant regeneration and somatic hybridization confirmation were adequate, allowing to produce somatic hybrids of Hamlin sweet orange with Indian Red grafted pummelo and Singapura pummelo selected seedling, which may be used as rootstocks and incorporated in rootstocks improvement programs. citricultura citriculture fusão de protoplasto genética vegetal hibridação vegetal laranja melhoramento genético vegetal orange plant genetic plant genetic improvement plant hybridization porta-enxertos. protoplast fusion rootstocks.
8	Hibridação somática entre Citrus sinensis e C. grandis. / Somatic hybridization of Citrus sinensis and C. grandis. Marcia Cristina Calixto 12 June 2003 (has links) A hibridação somática de citros tem sido extensivamente aplicada, favorecendo o desenvolvimento de híbridos somáticos em programas de melhoramento genético, como fonte de germoplasma ou como variedades copa e porta-enxerto. Neste contexto, este trabalho foi desenvolvido com o objetivo de selecionar plantas de toranja (Citrus grandis L. Osbeck) tolerantes à Phytophthora sp. e utilizá-las como parentais no processo de hibridação somática com outras espécies do gênero Citrus, a fim de produzir híbridos somáticos para o melhoramento de porta-enxertos. Plantas de 20 variedades de toranja tolerantes à Phytophthora spp. foram selecionadas, após serem cultivadas em solo infestado. Experimentos de fusão de protoplastos foram realizados envolvendo laranjas doces, tangerinas e o tangor Murcote, como parentais embriogênicos, e variedades de toranja selecionadas e plantas enxertadas de 12 variedades de toranja, como parentais não-embriogênicos, utilizando-se a técnica de fusão química, via polietilenoglicol (PEG). Microcolônias foram transferidas para meio de cultura MT semi-sólido, suplementado com 500 mg.l -1 de extrato de malte para indução da embriogênese somática. A confirmação da hibridação somática das plantas regeneradas e aclimatizadas foi realizada por meio de análises de morfologia foliar, de citologia, pela contagem do número de cromossomos, e moleculares, por marcadores do tipo RAPD. As metodologias utilizadas para seleção de plantas matrizes, fusão de protoplastos, regeneração de plantas e confirmação da hibridação somática foram adequadas, e permitiram a obtenção de híbridos somáticos de laranja Hamlin com toranja enxertada Indian Red e com seedling selecionado de toranja Singapura, que apresentam potencial para serem incorporados em programas de melhoramento de porta-enxertos. / Citrus somatic hybridization has been extensively applied assisting the development of the somatic hybrids which can be used in improvement programs, indirectly as germoplasm source or directly as scion and rootstock varieties. In this context, this research was developed with the objective of selecting plants of pummelo (C. grandis L. Osb) tolerant to Phytophthora sp. and use these plants as parents in the somatic hybridization process with other species of Citrus. Plants of 20 pummelo varieties, tolerant to Phytophthora sp., were selected after being grown in infested soil. Protoplast fusion experiments were induced by chemical method, with polyethylene glicol (PEG), involving sweet oranges, mandarins and Murcott tangor, as embryogenic parents, selected pummelo varieties and grafted plants of 12 pummelo varieties, as non-embryogenic parents. Microcolonies were transferred to EME semi-solid MT containing 500 mg.l -1 of malt extract for somatic embryogenesis. Somatic hybridization was confirmed by analysis of leaf morphology, citology by chromosome counting and molecular analysis by RAPD markers. The protocols used to select plants to be used as protoplast source, protoplast fusion, plant regeneration and somatic hybridization confirmation were adequate, allowing to produce somatic hybrids of Hamlin sweet orange with Indian Red grafted pummelo and Singapura pummelo selected seedling, which may be used as rootstocks and incorporated in rootstocks improvement programs. citricultura fusão de protoplasto genética vegetal hibridação vegetal laranja melhoramento genético vegetal porta-enxertos. citriculture orange plant genetic plant genetic improvement plant hybridization protoplast fusion rootstocks.
9	Protoplast fusion of Lolium perenne and Lotus corniculatus for gene introgression Raikar, Sanjeev Vencu January 2007 (has links) Protoplast fusion of Lolium perenne and Lotus corniculatus for gene introgression by Sanjeev V. Raikar Lolium perenne is one of the most important forage crops globally and in New Zealand. Lotus corniculatus is a dicotyledonous forage that contains valuable traits such as high levels of condensed tannins, increased digestibility, and high nitrogen fixing abilities. However, conventional breeding between these two forage crops is impossible due to their markedly different taxonomic origin. Protoplast fusion (somatic hybridisation) provides an opportunity for gene introgression between these two species. This thesis describes the somatic hybridisation, the regeneration and the molecular analysis of the putative somatic hybrid plants obtained between L. perenne and L. corniculatus. Callus and cell suspensions of different cultivars of L. perenne were established from immature embryos and plants were regenerated from the callus. Of the 10 cultivars screened, cultivars Bronsyn and Canon had the highest percentage of callus induction at 36% each on 5 mg/L 2,4-D. Removal of the palea and lemma which form the seed coat was found to increase callus induction ability of the embryos. Plant regeneration from the callus was achieved when the callus was plated on LS medium supplemented with plant growth regulators at different concentrations. Variable responses to shoot regeneration was observed between the different cultivars with the cv Kingston having the lowest frequency of shoot formation (12%). Different factors affecting the protoplast isolation of L. perenne were investigated. The highest protoplast yield of 10×106 g-1FW was obtained when cell suspensions were used as the tissue source, with enzyme combination A (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. Development of microcolonies was only achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. All the shoots regenerated from the protoplast-derived calli were albino shoots. The highest protoplast yield (7×106 g-1FW) of L. corniculatus was achieved from cotyledons also with enzyme combination A (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. The highest plating efficiency for L. corniculatus of 1.57 % was achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. The highest frequency of shoot regeneration (46%) was achieved when calli were plated on LS medium with NAA (0.1 mg/L) and BA (0.1 mg/L). Protoplast fusion between L. perenne and L. corniculatus was performed using the asymmetric somatic hybridisation technique using PEG as the fusogen. L. perenne protoplasts were treated with 0.1 mM IOA for 15 min and L. corniculatus protoplasts were treated with UV at 0.15 J/cm2 for 10 min. Various parameters affecting the fusion percentage were investigated. Successful fusions were obtained when the fusions were conducted on a plastic surface with 35% PEG (3350 MW) for 25 min duration, followed by 100 mM calcium chloride treatment for 25 min. A total of 14 putative fusion colonies were recovered. Shoots were regenerated from 8 fusion colonies. Unexpectedly, the regenerated putative hybrid plants resembled L. corniculatus plants. The flow cytometric profile of the putative somatic hybrids resembled that of L. corniculatus. Molecular analysis using SD-AFLP, SCARs and Lolium specific chloroplast microsatellite markers suggest that the putative somatic hybrids could be L. corniculatus escapes from the asymmetric protoplast fusion process. This thesis details a novel Whole Genome Amplification technique for plants using Strand Displacement Amplification technique. Lolium perenne Lotus corniculatus callus cell suspension protoplasts shoot regeneration protoplast fusion polyethylene glycol plant growth regulators putative hybrid colonies whole genome amplification strand displacement amplification
10	Protoplast fusion of Lolium perenne and Lotus corniculatus for gene introgression Raikar, S. V. January 2007 (has links) Lolium perenne is one of the most important forage crops globally and in New Zealand. Lotus corniculatus is a dicotyledonous forage that contains valuable traits such as high levels of condensed tannins, increased digestibility, and high nitrogen fixing abilities. However, conventional breeding between these two forage crops is impossible due to their markedly different taxonomic origin. Protoplast fusion (somatic hybridisation) provides an opportunity for gene introgression between these two species. This thesis describes the somatic hybridisation, the regeneration and the molecular analysis of the putative somatic hybrid plants obtained between L. perenne and L. corniculatus. Callus and cell suspensions of different cultivars of L. perenne were established from immature embryos and plants were regenerated from the callus. Of the 10 cultivars screened, cultivars Bronsyn and Canon had the highest percentage of callus induction at 36% each on 5 mg/L 2,4-D. Removal of the palea and lemma which form the seed coat was found to increase callus induction ability of the embryos. Plant regeneration from the callus was achieved when the callus was plated on LS medium supplemented with plant growth regulators at different concentrations. Variable responses to shoot regeneration was observed between the different cultivars with the cv Kingston having the lowest frequency of shoot formation (12%). Different factors affecting the protoplast isolation of L. perenne were investigated. The highest protoplast yield of 10×10⁶ g⁻¹FW was obtained when cell suspensions were used as the tissue source, with enzyme combination 'A' (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. Development of microcolonies was only achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. All the shoots regenerated from the protoplast-derived calli were albino shoots. The highest protoplast yield (7×10⁶ g⁻¹FW) of L. corniculatus was achieved from cotyledons also with enzyme combination 'A' (Cellulase Onozuka RS 2%, Macerozyme R-10 1%, Driselase 0.5%, Pectolyase 0.2%), for 6 h incubation period in 0.6 M mannitol. The highest plating efficiency for L. corniculatus of 1.57 % was achieved when protoplasts were plated on nitrocellulose membrane with a L. perenne feeder layer on PEL medium. The highest frequency of shoot regeneration (46%) was achieved when calli were plated on LS medium with NAA (0.1 mg/L) and BA (0.1 mg/L). Protoplast fusion between L. perenne and L. corniculatus was performed using the asymmetric somatic hybridisation technique using PEG as the fusogen. L. perenne protoplasts were treated with 0.1 mM IOA for 15 min and L. corniculatus protoplasts were treated with UV at 0.15 J/cm² for 10 min. Various parameters affecting the fusion percentage were investigated. Successful fusions were obtained when the fusions were conducted on a plastic surface with 35% PEG (3350 MW) for 25 min duration, followed by 100 mM calcium chloride treatment for 25 min. A total of 14 putative fusion colonies were recovered. Shoots were regenerated from 8 fusion colonies. Unexpectedly, the regenerated putative hybrid plants resembled L. corniculatus plants. The flow cytometric profile of the putative somatic hybrids resembled that of L. corniculatus. Molecular analysis using SD-AFLP, SCARs and Lolium specific chloroplast microsatellite markers suggest that the putative somatic hybrids could be L. corniculatus escapes from the asymmetric protoplast fusion process. This thesis details a novel Whole Genome Amplification technique for plants using Strand Displacement Amplification technique. Lolium perenne Lotus corniculatus callus cell suspension protoplasts shoot regeneration protoplast fusion polyethylene glycol plant growth regulators putative hybrid colonies whole genome amplification strand displacement amplification

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