Global ETD Search

51	Improving in vitro propagation of Protea cynaroides L. (King Protea) and the roles of starch and phenolic compounds in the rooting of cuttings Wu, H.C. (How-Chiun) 09 July 2008 (has links) Protea cynaroides L. (King Protea) is a well known cutflower. Seeds and stem cuttings are commonly used to propagate P. cynaroides. However, the success rate and rooting rate of seeds and cuttings, are inconsistent and slow. The potential of in vitro propagation as an alternative method to produce P. cynaroides plantlets was investigated. In vitro studies consisted of in vitro germination of mature zygotic embryos, micrografting and direct somatic embryogenesis of zygotic embryos and excised cotyledons. In the germination study, temperature was the most important factor in obtaining a high germination percentage. Alternating temperatures of 21±2ºC/12±2ºC (light/dark) was suitable for germination and over 90% of embryos germinated, while the germination percentage of embryos at 25±2ºC was poor. Plantlets were successfully established in ex vitro conditions when planted in a peat/coir/sand mixture. Micrografting of P. cynaroides was done by grafting microshoots (microscion), which was taken from in-vitro-established nodal explants, onto roots of decapitated in-vitro-germinated seedlings. After the graft union formed, buds on the microscion sprouted. A protocol to induce direct somatic embryogenesis was developed. Direct somatic embryogenesis was achieved on both P. cynaroides mature zygotic embryos and excised cotyledons. The addition of auxins such as NAA and 2,4-D singly or in combination with TDZ, BAP or kinetin suppressed the formation of somatic embryos. Formation of somatic embryos was observed in medium lacking growth regulators. Germination of somatic embryos was highest in medium containing GA3. The roles of starch and phenolic compounds in the rooting of P. cynaroides cuttings were also studied. Starch and total soluble phenol analyses results revealed a positive correlation between high root formation and increased starch and phenolic content. NMR and MS analyses identified high amounts of 3,4-dihydroxybenzoic acid in stems of P. cynaroides. In vitro bioassay showed that 3,4-dihydroxybenzoic acid stimulated and inhibited root growth of P. cynaroides explants, depending on the concentration. A link was made between the endogenous concentration levels of 3,4-dihydroxybenzoic acid and rooting of P. cynaroides stem cuttings. Findings of this study contribute towards a better understanding of the roles starch and phenolic compounds play in the rooting of P. cynaroides. / Thesis (PhD (Horticulture))--University of Pretoria, 2006. / Plant Production and Soil Science / unrestricted Phenolic compounds Somatic embryogenesis Micrografting In vitro germination Protea cynaroides Starch UCTD
52	Etude de l'embryogenèse somatique et transformation génétique de différentes variétés de porte-greffes de vigne en vue d'induire la résistance au Grapevine Fanleaf Virus / Somatic embryogenesis and genetic transformation of different varieties of grapevine rootstocks to induce resistance to Grapevine fanleaf virus Benard-Gellon, Mélanie 24 November 2011 (has links) Dans cette étude, nous avons dans un premier temps adapte le protocole d'embryogenèse somatique primaire a différentes variétés d'hybrides porte-greffes (3309C, 110R, Fercal, 41B et SO4) en nous appuyant sur l'expérience acquise au laboratoire sur Vitis vinifera cv Chardonnay. Les résultats montrent que le génotype, le type d'explant (étamine, fleur ou nœud), le type et la dose d'auxine utilisés dans le milieu d’induction (2,4-D ou 2,4,5-T) ont une influence sur les efficacités d'embryogenèse somatique. En effet, pour le 3309C, l'utilisation du 2,4,5-T dans le milieu d'induction a montré une efficacité embryogène supérieure à partir de nœuds par rapport à celle obtenue à partir d'étamines. Cependant la meilleure efficacité a été obtenue à partir de fleurs de cette variété, sur un milieu d'induction contenant du 2,4-D. De plus, le protocole d'embryogenèse somatique secondaire utilise de manière récurrente au laboratoire nous a permis d'obtenir des masses embryogènes ainsi que des embryons somatiques secondaires de ces porte-greffes. Le protocole de conversion des embryons en plantes, en présence de 4,5 uM de cytokinine (BAP) s'est avère efficace pour le 11OR et le 41B. Dans un second temps, nous avons co-cultivé le matériel embryogène obtenu pour quatre de ces génotypes (110R, 3309C, Fercal et 41B), avec Agrobacterium tumefaciens contenant trois constructions génétiques : (i) une copie d'une séquence partielle (1020 pb) du gène de la coque protéique du virus en orientation sens; (ii) une partie courte en sens et en anti-sens (280 pb) de cette même séquence formant une structure en épingle a cheveux (hpRNA = hairpin RNA) ; (iii) un amiRNA ciblant une séquence virale. Le gène bactérien codant la néomycine phosphotransférase et conférant la résistance à un antibiotique, la kanamycine, a été utilisé comme gène de sélection. Les conditions de sélection a la kanamycine ont nécessité des adaptations expérimentales telles que l’ajustement de la concentration en antibiotique puisque la sélection avec 75 mg.L-1 de kanamycine s'avère insuffisamment drastique dans Ia plupart de nos expériences de co-cullture. Les résultats d'analyse moléculaire par PCR ont montré l'amplification probable des fragments d'intérêt (CPGFLV et amiRI1TA-71) dans des échantillons de 11OR et de 41B résistants à la kanamycine. Cependant des analyses moléculaires supplémentaires par AL-PCR ne nous ont pas renseignées sur une éventuelle intégration du transgène amiRATA-71 dans des masses embryogènes de 41B. / In this study, we initially adapted the protocol of primary somatic embryogenesis in different varieties of hybrid rootstocks (3309C, 110R, Fercal, 41B and SO4) building on the experience gained in the laboratory on Vitis vinifera cv Chardonnay. The results show that the genotype, the explant type (stamen, flower or node), the type and the dose of auxin used in the induction medium (2,4-D or 2,4,5-T) influence the efficiency of somatic embryogenesis. Indeed, for the 3309C, the use of 2,4,5-T in the induction medium showed a higher efficiency from embryogenic nodes compared to that obtained from stamens. However, the better efficiency was obtained from the flowers of this variety on an induction medium containing 2,4-D. In addition, a protocol used in the laboratory for secondary somatic embryogenesis allowed us to obtain embryogenic masses as well as secondary somatic embryos from these rootstocks. The protocol conversion of embryos into plants, in the presence of 4.5 [tM of cytokinin (BAP), was effective for the 110R and 41B. In a second step, we co-cultivated embryogenic material obtained for four of these genotypes (110R, 3309C, Fercal and 41B), with Agrobacteriwn tumefaciens containing three genetic constructs: (i) a copy of a partial sequence (1020 bp) of the coat protein gene of the virus in the sense orientation, (ii) a short part-way and antisense (280 bp) of the same sequence forming a hairpin structure (hairpin RNA = hpRNA) (iii) one amiRNA targeting a viral sequence. The nptll bacterial gene encoding neomycin phosphotransferase and conferring resistance to the antibiotic kanamycin, was used as the selection gene. The selection conditions to kanamycin have required experimental adaptations such as adjusting the concentration of antibiotic because the selection with 75 mg.L-1 of kanamycin was not enough drastic in most of our experiments of co-culture. The results of molecular analysis by PCR showed probable amplification of fragments of interest (CPGFLV and amiRNA-71) in samples of 11OR and 41B resistant to kanamycin. However, additional molecular analysis by AL-PCR did not inform us about a possible integration of the transgene amiRNA-71 in embryogenic masses of 41B. Embryogenèse somatique Vigne Porte-greffe Résistance GFLV Transformation génétique Somatic embryogenesis Vine Rootstock Resistance Grapevine fanleaf virus Genetic transformation 571.6
53	Nitrato de amônio e nitrato de potássio no desenvolvimento in vitro de embriões somáticos de pupunheira / Ammonium nitrate and potassium nitrate in the peach palm somatic embryos in vitro development Santos, Thaís Lobo dos 18 January 2010 (has links) O experimento foi conduzido com o objetivo de avaliar a influência da interação entre o nitrato de amônio e nitrato de potássio sobre as respostas morfogênicas de embriões somáticos de pupunheiras in vitro a fim de otimizar o protocolo de micropropagação da espécie. As concentrações utilizadas foram 0, 825, 1650, 2475 e 3300 mg L-1 de nitrato e amônio e 0, 950 , 1900, 2850 e 3800 mg L-1 de nitrato de potássio, combinadas entre si, perfazendo um total de 25 tratamentos. Os tratamentos foram preparados a partir da solução completa de Murashige e Skoog, devidamente modificado para as proporções desses íons no suprimento de nitrogênio. Utilizaram-se duzentos e cinqüenta embriões somáticos com características morfológicas homogêneas, isentos de raízes e folhas, obtidos a partir de microplantas mantidas em sala de crescimento com temperatura e luminosidade controladas. Foram aferidos dados do comprimento da parte aérea e da raiz, o número de raízes, brotações e folhas, a porcentagem de ramificação da raiz, a porcentagem de raízes finas, medianas e grossas, em quatro períodos de cultura, a cada 60 dias, totalizando 240 dias de cultivo. Ao final desse período, avaliou-se também o teor de proteínas totais solúveis, o teor de clorofila pelo índice SPAD e os teores de macro e micronutrientes nas microplantas. Utilizou-se delineamento estatístico inteiramente casualizado e os dados foram submetidos ao teste de Bartlett a 5% e análise de variância (ANOVA) a 1% e 5% de probabilidade de erro ou foi elaborada uma matriz de correlação de Pearson a 1% e 5% de probabilidade de erro, conforme o caso. Os resultados permitiram inferir que aos 240 dias de cultivo as microplantas passam a investir mais em formação de parte aérea e aumentam a porcentagem de raízes finas, e funcionais. Os tratamentos que melhor favoreceram a formação de proteínas foram aqueles com concentração de 2475 mg L-1 de NH4NO3 ou com 2850 mg L-1 de KNO3. Os maiores índices SPAD ocorreram nos tratamentos com até 1650 mg L-1 de NH4NO3 combinado com até 1900 mg L-1 de KNO3. Diferentes combinações dos sais de NH4NO3 e KNO3 podem favorecer a absorção de cada nutriente. Conclui-se que os resultados obtidos no trabalho podem contribuir com a melhoria do protocolo de micropropagação de B. gasipaes, na medida em que permitem estabelecer o melhor tratamento para maximização de uma resposta específica desejada para cada momento do processo de cultivo dos embriões somáticos de pupunheiras, como enraizamento, crescimento da parte aérea, formação de proteínas e formação de brotações, facilitando dessa forma a otimização da produção de microplantas com características desejáveis e, conseqüentemente, sua aclimatização e desenvolvimento ex vitro. / This study aimed to evaluate the influence of the interaction between ammonium nitrate and potassium nitrate on the morphogenetic responses of peach palm somatic embryos in vitro cultivated, to optimize the micropropagation protocol for this species. The concentrations used were 0, 825, 1650, 2475 and 3300 mg L-1 of ammonium nitrate and 0, 950 , 1900, 2850 and 3800 mg L-1 of potassium nitrate, in all possible associations, totalizing 25 treatments. The treatments were prepared with the complete solution of Murashige and Skoog, with modified proportions of these ions in relation to the nitrogen supply. Two hundred and fifty somatic embryos with homogeneous morphological characteristics, without roots and leaves, obtained from microplants from a controlled temperature and luminosity room, were used in the experiment. Every 60 days, during 240 days, the length of shoot and root, the number of roots, propagules and leaves and the root architecture were measured. At the end of 240 days of cultivation, it was also analyzed the total soluble proteins, the foliar chlorophyll by a chlorophyll meter equipment (SPAD-502) and the macronutrients and micronutrients concentrations in the microplants. The experiment was conducted in a randomized design. The data were subjected to Bartlett´s test at 5% and variance analysis (ANOVA) at 1% and 5% of probability of error, or it was made a correlation matrix at 1% and 5% of probability of error, according to each analysis. The results showed that at 240 days of cultivation the microplants spent more energy building the shoot part and raised the percentage of thin, functional root. The best treatments for proteins formation were those with 2475 mg L-1 of NH4NO3 or with 2850 mg L-1 of KNO3. The highest SPAD index occurred in the treatments with at most 1650 mg L-1 of NH4NO3 associated with at most 1900 mg L-1 of KNO3. Different associations of NH4NO3 e KNO3 may favor the absorption of each nutrient. We conclude that the results obtained may contribute to the optimization of the B. gasipaes micropropagation protocol, as it is possible to establish the best treatment for maximization of a specific answer for each moment of the somatic embryos cultivations process, such as rooting, shoot growth, propagules and protein formation, and thus increase the optimization of microplants production with wanted characteristics and hence its acclimatization and ex vitro development. Ammonium Amônio Embriogênese somática Micropropagação vegetal Nitrates Nitratos Nitrogen Nitrogênio Peach Palm Plant Micropropagation Potássio Potassium Pupunha Somatic embryogenesis
54	Caractérisation des gènes PR10 chez Vitis vinifera et étude de leur expression durant l'embryogenèse somatique / Characterization of Vitis vinifera PR10 genes and analysis of their expression during somatic embryogenesis Lebel, Sylvain 13 December 2010 (has links) Le sujet de ma thèse était de décrire sur le plan moléculaire le processus d'embryogenèse somatique chez la vigne. Pour cela, les étapes-clés d'entrée et de sortie du cycle d'embryogenèse secondaire ont été caractérisées par l'analyse de l'expression de quelques gènes impliqués dans le développement ou la défense, en particulier les gènes PR10.Grâce à l'exploitation de la séquence complète du génome de Vitis vinifèra disponible sur le site du Genoscope, j'ai pu caractériser exhaustivement la famille multigènique des PR10. Celle-ci est composée de 17 séquences disposées en tandem et formant un cluster compact sur le chromosome 5, dont 3 pseudogènes et au moins 13 séquences transcrites. L'expression de 10 de ces gènes a d'abord été analysée par RT-PCR semi-quantitative dans différents organes de la plante et dans des tissus traités au 2,4-D. Elle suggère une diversification fonctionnelle marquée. De plus, le niveau d'expression de plusieurs gènes PR10 est élevé dans les cals embryogènes, suggérant qu'ils pourraient jouer un rôle lors de l'embryogenèse somatique. L'étude de l'expression des gènes PR10 par RT-PCR quantitative en temps réel dans différents tissus ayant montré une capacité embryogénique variable lorsqu'ils sont soumis à un traitement par le 2,4-D met en évidence que le niveau d'expression varie entre les gènes et selon les tissus. L'expression de certains gènes est fortement induite par le 2,4-D dans les tissus à capacité embryogénique et seulement faiblement dans les tissus ne donnant jamais d'embryons somatiques, ce qui suggère fortement que ceux-ci pourraient être des marqueurs de la capacité embryogénique chez la vigne. / The objective of my work was to analyse the somatic embryogenesis process of Vitis vinifera at a molecular scale. Thus, the expression of genes implied in development or defence, especially PR10 genes, was monitored during the key-steps of entrance and exit of secondary somatic embryogenesis. The complete sequence of the Vitis vinifera genome available on the Genoscope website allowed the exhaustive characterization of the PR10 multigene family, which is constituted by 17 sequences localised on a tandem array on the chromosome 5. Among these 17 sequences, 3 are pseudogenesand at !east 13 are transcribed sequences. The expression of 10 PR10 genes was first monitored in various grapevine tissues and in tissues after 2,4-D treatment using semi-quantitative RT-PCR. The results suggest a strong functional diversification. Moreover, the expression of several PR10 genes is high in embryogenic calli, suggesting that these genes could intervene in somatic embryogenesis. The expression of PR10 genes was also monitored in tissues showing different somatic embryogenic capabilities under 2,4-D treatment using quantitative RT-PCR. The results show that regulation of PR10 genes is dependent of the gene and tissue considered. Moreover, the expression of some genes is highly induced by 2,4-D treatment in tissues having embryogenic capability, white it is only weakly induced in tissues having no embryogenic capability, suggesting that these gene could be markers of embryogenic capability in grapevine. PR10 Genes pathogenesis-related Embryogenese somatique Analyse génomique PR10 Pathogenesis-related genes Somatic embryogenesis RT-PCR quantitative Genomic analysis
55	Identification, cloning, expression analysis and functional characterization of genes expressed early in Loblolly pine embryogenesis Ciavatta, Vincent Thomas 19 February 2002 (has links) No description available. Loblolly pine Somatic embryogenesis Plant gene expression Cloning Identification Plant genetic engineering Pinus taeda Cloning Genetic engineering Initiation Identification
56	Induction Of Embryogenic Tissue From Immature Zygotic Embryos In Pinus Nigra Subspecies Pallasiana Lamb. Ozkurt, Zeynep 01 September 2006 (has links) (PDF) Cloning of trees using somatic embryogenesis could have a major impact on tree breeding and commercial plantation forestry. To initiate somatic embryogenesis in Anatolian black pine (Pinus nigra Arnold. subspecies pallasiana), one-year old cones containing immature seeds were collected from eight trees located in METU campus, Ankara. Embryogenic tissues were derived from immature zygotic embryos excised from the seeds. The zygotic embryos at the time of collection were at the precotyledonary stage of development. For this study, Douglas-fir cotyledon revised medium (DCR) supplemented with 13.6&micro / M 2,4-D, 2.2&micro / M BAP, 0.5 g/L casein hydrolysate, 0.25 g/L L-glutamine and 3% sucrose was used. The media was solidified with 0.2% gelrite. Embryogenic tissue initiation was calculated for each genotype and collection date. Overall initiation frequencies were recorded as 0.92% for 2004 and 1.96% for 2005. Highest initiation frequency was calculated for 5-July 2005 sampling time (4.06). ANOVA revealed significant differences between trees and collection date for initiation frequencies. Also, ECL (Established cell lines) recorded after five subcultures. Overall, 0.38% and 0.62% of the initial explants were converted into ECLs for 2004 and 2005 respectively. QH Reproduction 471-489
57	The effect of hydrodynamic stress on plant embryo development Sun, Hong 31 March 2010 (has links) The effect of steady shear stress on somatic embryos were investigated in a flow chamber and evaluated at different time intervals using microscopy technique. The development of meristematic cell clusters, i.e. the immature embryos, into a polarized somatic embryo, and the effect on the localization of the suspensor cells that form during development of the immature embryos, were studied as a function of shear stresses. With the distribution and growth rate of the meristematic and suspensor cells, the effect of stress on the embryo development was established. Furthermore, the effect of shear stress on the cells at molecular level, the reaction of integrin-like proteins, the production of reactive oxygen species and the pore size of the cell walls involved in the shear stress responses, were investigated with molecular techniques. In general, shear stress inhibits meristematic cells growth. Meristematic cells grow fastest at shear rate of 86 s-1 among all the tested shear stress conditions. By combining the results of meristematic cells growth and suspensor cells formation, it suggests that there is a critical shear rate between 86 and 140 s-1, at which no suspensor cells form. The unidirectional flow with different shear stresses helps the polarized growth and the unidirectional alignment of suspensor cells. Reactive oxygen species and integrin-like protein are detected in the stressed cells as cellular responses to shear stresses. By monitoring the pore size and uptake time of cells to macromolecules with solute-exclusive experiments, it suggests that the stressed cells expedite the response to plasmolyzing components that are used to induce maturation treatment thus affect the response to maturation stimuli. Hydrodynamic stress Embryogenesis Somatic embryo Pore size Signal transduction Norway Spruce (Picea abies) Hydrodynamics Plant propagation Somatic embryogenesis Bioreactors
58	Study of Ca2+-Mediated Signal Transduction During Embryogenesis In Sandalwood (Santalurm Album L.) And Characterization Of An Early Development-Specific CDPK Anil, Veena S 10 1900 (has links) Calcium ion plays a pivotal role as second messenger during signal/response coupling in plant cells (Trewavas, 1999). Elevations of cytosolic Ca2+ occur in plants as a consequence of abiotic and biotic stresses, environmental and hormonal stimuli. However, the molecular mechanism by which changes in cytosolic calcium are sensed and transduced in the plant cell has not been completely elucidated. The detection of Ca2+-binding proteins, especially Ca2+-dependent protein kinases (CDPKs) in plants led to drawing analogy with animal systems wherein the Ca2+-message is perceived and transduced by proteins that bind Ca2+. CDPKs are stimulated by the direct binding of Ca2+ to their endogenous calmodulin (CaM) -like domain (Harper et al, 1991). CDPKs exist as multiple isoforms in a single species, and show tissue-specific and developmentally regulated expression. Furthermore, the diversity among different CDPK isoforms with respect to Ca2+-binding properties, activation, substrate specificity, regulatory mechanisms and other kinetic properties suggest their specialization in the regulation of distinct signaling pathways. These observations therefore have led to the speculation that most of the Ca2+-mediated signal transduction in plants occurs via the mediation of CDPKs (Harmon et al, 2000). Over the last 15 years there has been a dramatic unfolding of information on Ca2+-mediated signaling in plants. Nevertheless, little is known about the environmental/hormonal signals and the signaling events that regulate early plant developmental processes such as embryogenesis, seed development and germination. The present investigation was initiated with the objectives 1) to determine the role of Ca2+ during embryogenesis, 2) to examine the involvement of a CDPK during early developmental processes in sandalwood plant (Santalum album L.) and 3) to purify and biochemically characterize this CDPK. The study initially investigated the possible involvement of calcium-mediated signaling in the induction/regulation of somatic embryogenesis from proembryogenic cells of sandalwood. 45 Ca + uptake studies and fura-2 fluorescence ratio photometry were used to measure changes in [Ca2+]cyt of proembryogenic cells in response to culture conditions conducive for embryo development. Sandalwood proembryogenic cell masses (PEMs) were obtained in the callus proliferation medium that contains the auxin 2,4-D. Subculture of PEMs into the embryo differentiation medium which lacks 2,4-D and has higher osmoticum resulted in a 4-fold higher 45Ca2+ incorporation into the symplast. Fura-2 based ratiometric analysis also showed a 10-16- fold increase in the [Ca2+]cyt of PEMs under identical culture conditions, increasing from a resting concentration of 30-50 nM to 650-800 nM. Chelation of exogenous Ca2+ with EGTA arrested such an elevation in [Ca2+]cyt. Exogenous Ca2+ when chelated or deprived also arrested embryo development and inhibited the accumulation of a Ca2+-dependent protein kinase (swCDPK) in embryogenic cultures. However, such culture conditions did not cause cell death as the PEMs continued to proliferate to form larger cell clumps. Culture treatment with W7 reduced embryogenic frequency by 85%, indicating that blockage of Ca2+-mediated signaling pathway(s) involving swCDPK and/or CaM caused inhibition of embryogenesis. These observations suggest a second messenger role for exogenous Ca2+ and the existence of Ca2+-mediated signaling pathway(s) during sandalwood somatic embryogenesis. The detection of a 55 kD protein showing cross reactivity with polyclonal antisoybean CDPK and the detection of Ca2+-dependent protein kinase activity in protein extracts from somatic embryos, prompted investigation on the spatio-temporal accumulation and activity of a CDPK in different developmental stages of sandalwood. Western blot analysis and protein kinase assays identified a Ca2+-dependent protein kinase (swCDPK) of 55 kD in soluble protein extracts of different developmental stages of sandalwood somatic embryos. However, swCDPK was not detected in plantlets regenerated from somatic embryos. swCDPK exhibited differential expression and activity in the developmental stages of sandalwood. Zygotic embryos, endosperm and seedlings showed high accumulation of swCDPK. However, the enzyme was not detected in the soluble proteins of shoots and flowers of sandalwood tree. swCDPK exhibited a temporal pattern of expression in endosperm, showing high accumulation and activity in mature fruit and germinating stages, the enzyme being localized strongly in the storage bodies of the endosperm cells. Interestingly, these storage bodies were thereafter identified as oil bodies, suggesting that a Ca2+-mediated regulation of oil hydrolysis and/or mobilization might be operative during seed germination. swCDPK in the zygotic embryo was found to be inactive during seed dormancy and early stages of germination, indicating a possible post-translational hibition/inactivation of the enzyme during these stages. The temporal expression of swCDPK during somatic/zygotic embryogenesis, seed maturation and germination thus suggests involvement of the enzyme in these early developmental processes. In view of the diversity exhibited by members of the CDPK family, characterization of swCDPK, the early development specific CDPK from sandalwood was undertaken. Purification of swCDPK was achieved by chromatography on DEAE-cellulose, hydroxyapatite and Blue-Sepharose. The purified enzyme resolved into a single band on 10 % polyacrylamide gels, both under denaturing and non-denaturing conditions. swCDPK was strictly dependent on Ca2+, K0.5 (apparent binding constant) for Ca2+-activation of substrate phosphorylation activity being 0.7 μM and for autophosphorylation activity —50 nM. Ca2+-dependence for activation, CaM-independence, inhibition by CaM-antagonist (IC50 for W7 = 6 μM, for W5 = 46 μM) and cross-reaction with polyclonal antibodies directed against the CaM-like domain of soybean CDPK, confirmed the presence of an endogenous CaM-like domain in the purified enzyme. Kinetic studies revealed a Km value of 13 mg/mL for histone III-S and a Vmax of 0.1 nmolmin-1rng-1. The enzyme exhibited high specificity for ATP with a Km value of 10 nM. Titration with Ca2+ resulted in enhancement of the intrinsic emission fluorescence of swCDPK and a shift in the λmax emission from tryptophan residues. A reduction in the efficiency of non-radiative energy transfer from tyrosine to tryptophan residues was also observed. These are taken as evidence for the occurrence of Ca2+-induced conformational change in swCDPK. The emission spectral properties of swCDPK in conjunction with Ca2+ levels required for autophosphorylation and substrate phosphorylation help elucidate the possible mode of Ca2+ activation of this enzyme. Botany Calcium Dependent Protein Kinase (CDPK) Protein Kinase Calmodulin Sandalwood Somatic Embryogenesis Santalum Album L. Santalaceae Signal transduction
59	Vasarinių rapsų somatinės embriogenezės indukcija nesubrendusių zigotinių gemalų kultūroje / Summer rape soamtic embriogenezis in vitro from zygotic embrio Opulskis, Kęstutis 08 August 2007 (has links) Tyrimai atlikti 2005-2007m. LŽŪU Genetikos biotechnologijos laboratorijoje. Tirti veiksniai, įtakojantys vasarinių rapsų (Brassica napus var. oleifera) dvigubų haploidų linijų NL-302-01, NL-302-02, NL-302-25 somatinės embriogenezės procesą nesubrendusių zigotinių gemalų kultūroje. Tirtų genotipų eksplantai (zigotniai gemalai) kultivuoti maitinamosiose terpėse, besiskiriančiose terpės rūgštingumu. Eksplantai iš donorinių augalų tirti 14-29 amžiaus dienų po apdulkinimo. Nustatyta, kad vasarinių rapsų somatinės embriogenezės potencialas priklauso ne tik nuo nesubrendusio zigotinio gemalo amžiaus po apdulkinimo, bet ir nuo eksplanto genotipo ir terpės rūgštingumo. Daugeliu atveju didžiausią įtaką indukcijos intensyvumui turėjo genotipas. Didžiausiomis pirminės somatinės embriogenezės galimybėmis pasižymėjo linijos NL-302-25 gemalai 20-21 dienos amžiaus. Antrinės somatinės embriogenezės metu nustatyta, kad indukcijos potencialas buvo didesnis nei pirminės somatinės embriogenezės metu. Ekspalnto amžius įtakos soamtinių embrioidų formavimo kiekiu neturėjo. / The research was carried out in 2005-2007 in the laboratory of genetics and biotechnology of Lithuanian university of Agriculture Factors influencing double haploid lines’ NL-302-01, NL-302-02, NL-302-25 somatic embryogenesis in the culture of premature zygotic germs of summer rape (Brassica napus var. oleifera) were studied. The explants of the studied genotypes (premature germs) were cultivated in the nutritional environments differencing in pH. The explants from the donor plants were taken for the period of 14-29 days. It was determined that the potential of the somatic embryogenesis of the summer rape depends on not only on the age of the premature zygotic germ after the pollination, but also on the genotype and medium pH of the explants. In most cases the biggest effect on the intensity of the induction was caused by genotype. Line NL-302-25 cultivated 20-21 days after the pollination had the biggest potential of primary somatic embryogenesis. During the secondary somatic embryogenesis it was determined that the potential of induction was greater than during the primary somatic embryogenesis. The age of the explant had no effect on the quantity of formation of somatic embryos. Agronomy Vasariniai rapsai Genotipas Maitinamoji terpė Somatinė embriogenezė Indukcija Summer rape Genotype Nutritional environment Somatic embryogenesis Induction
60	Identification and characterization of a novel LYR/LVR gene highly expressed during embryogenesis in Douglas-fir Ramachandran, Umesh 22 February 2010 (has links) In order to elucidate the molecular and biochemical events occurring in embryogenesis in Douglas-fir (Pseudotsuga menziesii [Mirb.] Franco), an essential gene expressed highly during early embryogenesis was identified, cloned and further characterized in this study. Douglas-fir LYR/LVR eDNA was obtained using RT-PCR with specific primers. followed by cloning and sequencing. Northern blot analysis showed higher amounts of LYR/LVR transcripts in early-cotyledonary embryonic stages and megagametophytes when compared with mid- and late-cotyledonary embryos. LYR/LVR transcript levels declined in seeds (mature embryos) and seedlings. Differential regulation of LYR/LVR gene expression with response to brassinosteroid treatment of Douglas-fir seeds was studied. LYR/LVR mRNA showed higher accumulation in seeds treated with different concentrations of brassinosteroids. Bioinformatic analysis showed that Douglas-fir LYR/LVR protein may be an essential inner mitochondrial protein, NADH oxidoreductase necessary for energy production. The phylogenetic tree analysis was used to investigate the evolutionary relationship of the newly identified Douglas-fir LYR/LVR protein with closely related proteins (LYR family) in different organisms. InterPro, UniProt and Pfam results showed the sequence similarity of Douglas-fir LYR/LVR protein with other related members in Arabidopsis thaliana and Oryza sativa, indicating that the LYR complex contains short stretches of closely related proteins that are essential for energy production. Amino acids 19-90 in the LYR/LVR protein were highly conserved and is likely the functional LYR motif necessary for oxidoreductase activity. Douglas fir somatic embryogenesis

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