247 resultados para VER2 IAA
Resumo:
Secondary-ion mass spectrometry (SIMS), electron probe analysis (EPMA), analytical scanning electron microscopy (SEM) and infrared (IR) spectroscopy were used to determine the chemical composition and the mineralogy of sub-micrometer inclusions in cubic diamonds and in overgrowths (coats) on octahedral diamonds from Zaire, Botswana, and some unknown localities.
The inclusions are sub-micrometer in size. The typical diameter encountered during transmission electron microscope (TEM) examination was 0.1-0.5 µm. The micro-inclusions are sub-rounded and their shape is crystallographically controlled by the diamond. Normally they are not associated with cracks or dislocations and appear to be well isolated within the diamond matrix. The number density of inclusions is highly variable on any scale and may reach 10^(11) inclusions/cm^3 in the most densely populated zones. The total concentration of metal oxides in the diamonds varies between 20 and 1270 ppm (by weight).
SIMS analysis yields the average composition of about 100 inclusions contained in the sputtered volume. Comparison of analyses of different volumes of an individual diamond show roughly uniform composition (typically ±10% relative). The variation among the average compositions of different diamonds is somewhat greater (typically ±30%). Nevertheless, all diamonds exhibit similar characteristics, being rich in water, carbonate, SiO_2, and K_2O, and depleted in MgO. The composition of micro-inclusions in most diamonds vary within the following ranges: SiO_2, 30-53%; K_2O, 12-30%; CaO, 8-19%; FeO, 6-11%; Al_2O_3, 3-6%; MgO, 2-6%; TiO_2, 2-4%; Na_2O, 1-5%; P_2O_5, 1-4%; and Cl, 1-3%. In addition, BaO, 1-4%; SrO, 0.7-1.5%; La_2O_3, 0.1-0.3%; Ce_2O_3, 0.3-0.5%; smaller amounts of other rare-earth elements (REE), as well as Mn, Th, and U were also detected by instrumental neutron activation analysis (INAA). Mg/(Fe+Mg), 0.40-0.62 is low compared with other mantle derived phases; K/ AI ratios of 2-7 are very high, and the chondrite-normalized Ce/Eu ratios of 10-21 are also high, indicating extremely fractionated REE patterns.
SEM analyses indicate that individual inclusions within a single diamond are roughly of similar composition. The average composition of individual inclusions as measured with the SEM is similar to that measured by SIMS. Compositional variations revealed by the SEM are larger than those detected by SIMS and indicate a small variability in the composition of individual inclusions. No compositions of individual inclusions were determined that might correspond to mono-mineralic inclusions.
IR spectra of inclusion- bearing zones exhibit characteristic absorption due to: (1) pure diamonds, (2) nitrogen and hydrogen in the diamond matrix; and (3) mineral phases in the micro-inclusions. Nitrogen concentrations of 500-1100 ppm, typical of the micro-inclusion-bearing zones, are higher than the average nitrogen content of diamonds. Only type IaA centers were detected by IR. A yellow coloration may indicate small concentration of type IB centers.
The absorption due to the micro-inclusions in all diamonds produces similar spectra and indicates the presence of hydrated sheet silicates (most likely, Fe-rich clay minerals), carbonates (most likely calcite), and apatite. Small quantities of molecular CO_2 are also present in most diamonds. Water is probably associated with the silicates but the possibility of its presence as a fluid phase cannot be excluded. Characteristic lines of olivine, pyroxene and garnet were not detected and these phases cannot be significant components of the inclusions. Preliminary quantification of the IR data suggests that water and carbonate account for, on average, 20-40 wt% of the micro-inclusions.
The composition and mineralogy of the micro-inclusions are completely different from those of the more common, larger inclusions of the peridotitic or eclogitic assemblages. Their bulk composition resembles that of potassic magmas, such as kimberlites and lamproites, but is enriched in H_2O, CO_3, K_2O, and incompatible elements, and depleted in MgO.
It is suggested that the composition of the micro-inclusions represents a volatile-rich fluid or a melt trapped by the diamond during its growth. The high content of K, Na, P, and incompatible elements suggests that the trapped material found in the micro-inclusions may represent an effective metasomatizing agent. It may also be possible that fluids of similar composition are responsible for the extreme enrichment of incompatible elements documented in garnet and pyroxene inclusions in diamonds.
The origin of the fluid trapped in the micro-inclusions is still uncertain. It may have been formed by incipient melting of a highly metasomatized mantle rocks. More likely, it is the result of fractional crystallization of a potassic parental magma at depth. In either case, the micro-inclusions document the presence of highly potassic fluids or melts at depths corresponding to the diamond stability field in the upper mantle. The phases presently identified in the inclusions are believed to be the result of closed system reactions at lower pressures.
Resumo:
Os representantes do gênero Arachis são conhecidos como amendoim, e suas sementes possuem grande quantidade de óleos e proteínas, podendo ser consumidas cruas. A espécie mais cultivada do gênero é Arachis hypogaea, que possui grande importância comercial. Outras espécies são também utilizadas para controle das ervas daninhas e cobertura do solo, assim como ornamentais e na alimentação. Arachis repens, popularmente conhecida como grama amendoim, é utilizada como planta ornamental, na formação de pastagens, como forragem e para cobertura do solo em substituição a várias espécies comuns de grama. Diversas substâncias bioativas têm sido identificadas em A. hypogaea. Contudo, estas substâncias ainda não foram descritas em outras espécies do gênero. O objetivo deste trabalho foi o estabelecimento de sistemas de cultivo in vitro para Arachis repens, visando à micropropagação e à análise comparativa da produção de resveratrol em extratos alcoólicos dos materiais produzidos in vitro, em comparação com as plantas in vivo. Segmentos nodais, internodais e foliares foram excisados de plantas in vitro e inoculados em meio MS suplementado com diferentes concentrações de BAP, TDZ, AIA e KIN, utilizados isoladamente ou em combinação. Os explantes apresentaram respostas distintas de acordo com o regulador de crescimento utilizado. Na presença de BAP foi observada a formação de calos compactos, com formação de brotos em diferentes taxas. Na presença de TDZ, segmentos nodais e internodais formaram calos compactos em todas as concentrações. Segmentos nodais cultivados na presença de diferentes concentrações de AIA em combinação com KIN apresentaram a formação de calogênese. Foi também realizada uma avaliação da atividade antioxidante e a presença de fenóis totais em extratos de diferentes materiais in vivo e produzidos in vitro. Nas análises por meio de CLAE, foi possível detectar a presença de resveratrol tanto nos materiais in vivo, quanto os produzidos in vitro. Dessa forma, o trabalho forneceu resultados preliminares sobre as possibilidades de utilização de A. repens para a produção de metabólitos especiais.
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本研究从马铃薯、茄子和巴西茄共5个品种的原生质体培养再生植株成功。对马铃薯原生质体再生的变异株系,进一步无性繁殖作表型观察和染色体检测,可能选出有价值的体细胞变异株系为生产服务,为原生质体培养在生产上应用提供依据。本研究在技术上有所创新,使原生质体提早分裂1-2天;通过激素组合系统研究,确定ZT/IAA对马铃薯芽分化的适合配比;发现ZT/IBA和KT/NAA组合分别对马铃薯和茄子芽分化的良好效果。植物原生质体培养研究难度较大,本研究中的巴西茄原生质体再生植株在国内外尚属首例成功,马铃薯和茄子再生植株填补国内空白,属国内领先水平。
Resumo:
Despite the expenditure of huge amounts of money and human effort, the Green Revolution has largely failed to benefit the vast majority of the rural poor in Africa: those smallholding farmers who sell little, if any, of what they grow and rely almost entirely upon natural soil fertility, rainfall and traditional broodstock and seed varieties. New approaches on food production and income generation in the rural areas must be found if this sector of agricultural community is to be assisted. Integrated resources management (IRM) in general, and integrated agriculture-aquaculture (IAA) in particular, may offer some solutions in cases where the classical methods of improving farm output have failed and/or been unsustainable.
Resumo:
Cleome spinosa é uma espécie herbácea de uso na medicina popular, especialmente no Nordeste do Brasil. A cultura in vitro de raízes adventícias da espécie foi iniciada com segmentos radiculares (0,5 e 1,0 cm) obtidos a partir de duas fontes de explantes: plantas propagadas in vitro e plantas oriundas do processo de germinação in vitro. Os explantes foram inoculados em meio MS líquido suplementado ou não com as auxinas ANA, AIA e AIB em diferentes concentrações (0,5; 1,0; 1,5; 3,0; 5,0 mg.L-1). As culturas foram mantidas em sala de crescimento, sob agitação (100 rpm) e sob fotoperíodo de 16h ou no escuro, com subculturas a cada 45 dias. Explantes oriundos de plantas propagadas in vitro também foram cultivados em meio contendo a citocinina BAP em associação com auxinas, na presença de sorbitol (isoladamente ou em associação com sacarose), em meio MS contendo redução na concentração total de sais minerais (MS1/2 e MS1/4) e em meio sólido. Os resultados mostraram que a adição de auxinas ao meio de cultura foi essencial à multiplicação das raízes, uma vez que em meio MS0 ocorreu significativo desenvolvimento de brotos. A suplementação com ANA não foi eficiente para a produção de raízes e acarretou no calejamento dos explantes, enquanto que a presença de AIA e AIB resultaram na multiplicação das raízes. Ainda assim, independentemente das manipulações realizadas no meio de cultivo, a capacidade de multiplicação mostrou-se reduzida. Uma expressiva multiplicação de raízes foi observada em culturas iniciadas a partir de explantes oriundos de plantas obtidas por germinação in vitro. A maior produção de biomassa foi alcançada em culturas iniciadas com segmentos radiculares de plantas obtidas por germinação in vitro cultivadas em meio contendo com 3,0 mg.L-1 de AIB e mantidas no escuro. Culturas estabelecidas nas melhores condições para acúmulo de biomassa foram acompanhadas por três subculturas, sendo avaliados períodos de cultura de 45 dias e de 60 dias. Culturas mantidas a intervalos de 45 dias apresentaram maior produção de raízes durante a segunda subcultura, enquanto que para o intervalo de 60 dias, embora tenha sido observada a capacidade de multiplicação das raízes, a maior produção de biomassa ocorreu nos primeiros 60 dias de cultivo. A partir de materiais in vivo e in vitro foram realizadas extrações com solventes de polaridade crescente (hexano, diclorometano, acetato de etila e metanol) e os extratos foram submetidos a avaliações cromatográficas. As análises por cromatografia em camada delgada mostraram a presença de terpenos nos extratos obtidos com hexano e diclorometano, tanto em material obtido a campo como naqueles produzidos in vitro e de compostos fenólicos nos extratos em acetato de etila obtidos a partir de material de campo. Pelas análises por cromatografia líquida associada à espectrometria de massas foi possível observar a presença de flavonoides nas culturas in vitro, não detectados no material de campo. As análises por cromatografia de fase gasosa associada à espectrometria de massas apontaram a presença de esteroides nos extratos em hexano de raízes coletadas a campo e nas culturas in vitro de raízes. Os resultados obtidos mostraram a viabilidade da produção de culturas de raízes in vitro para a espécie C. spinosa e o potencial deste material para a produção de substâncias bioativas, algumas não encontradas em material coletado a campo
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This study estimated the adoption rate of integrated aquaculture-agriculture (IAA) technologies in Bangladesh and their impact on poverty and fish and food consumption in adopting households. We used a novel, simulation-based approach to impact assessment called Tradeoff Analysis for Multi-Dimensional Impact Assessment (TOA-MD). We used the TOA-MD model to demonstrate how it is possible to use available data to estimate adoption rates in relevant populations, and to quantify impacts on distributional outcomes such as poverty and food security, thus demonstrating ex ante the potential for further investment in technology dissemination. The analysis used baseline and end-of-project survey data from WorldFish-implemented Development of Sustainable Aquaculture Project (DSAP), promoting IAA. This dataset was used to simulate adoption and assess its impacts on poverty and food security in the target population. We found that, if adopted, IAA had a significant positive impact on reducing poverty and improving food security and income.
Resumo:
There are increasing requirements for impact assessment by development partners in order to increase the accountability and effectiveness of research and development projects. Impact assessment research has been dominated by conventional economic methods. This context challenges agricultural research organizations to develop and apply alternative impact assessment methods incorporating economic, social, and environmental impact components. In this study, we use the Tradeoff Analysis for Multi-Dimensional Impact Assessment (TOA-MD) model to evaluate the impact of integrated aquaculture-agriculture (IAA) adoption in Malawi. The study demonstrated that with a minimal data set, the TOA-MD model can be applied to predict and assess the adoption rates of new technologies and practices as well as their economic and non-economic impacts.
Resumo:
八楞海棠是我国华北地区重要的苹果砧木,河南海棠是选育苹果矮化砧木的良好材料,进行八楞海棠和河南海棠胺芽茎尖培养具有重要的生产实际意义。主要结论如下;1)细胞分裂素和生长素的种类及浓度配比影响分化与增殖; 2)不同物候期的芽对分化增殖也有影响; 3)IBA促进八楞海棠生根。IAA促进河南海棠生根4)不定根起源于维管形成层细胞,其发生、形成与生长素种类。浓度密切相关。结合实验与文献,对蔗糖的作用.PZ和PG的作用,以及试管苗玻璃化现象作了讨论。
Resumo:
无根萍属(Wolffia )隶属于浮萍科天南星目,是世界上最小的被子植物。该属植物繁殖速度快;易于培养;结构简单,只具有一个雄蕊和一个雌蕊;自然状态下通常为克隆繁殖,遗传结构高度一致,具备特定研究目的模式植物的特点,正在或已经成为一些实验室研究光合作用、生物反应器、毒理学、生态修复和环境监测等的重要模式生物材料;同时还被作为建造航天生活仓和地外生命支撑系统的首选植物。该属植物蛋白含量高且氨基酸组分平衡,营养价值可与大豆相媲美。但该属植物一直是分类学界的疑难类群,不同的学者对该属的分类处理比较混乱;其次,对该属的生物地理研究也很不够,尤其是对国产类群的研究;另外,W. globosa 作为该属中国分布的物种,其生理学特性和形态结构发育还缺乏研究。为此,本文通过mat K 基因测序、RAPD 标记等手段,结合野外和室内的长期观测,对其分类和中国的地理分布以及生理学特性进行了研究。针对浮萍科植物作为水生植物,其对重金属和芳香烃衍生物的耐受逆境能力大小,和对淡水水体环境生态的指示作用。本文研究了W. globosa 具解毒功能的谷胱甘肽转硫酶的活性;最后,探索了从黄鳝(Monpterus albus Zuiew )中分离纯化GSTs 的技术与方法并对maGST 的部分特性进行了研究。主要研究结果如下: 1. Wolffia 系统分类学研究 前人认为,Wolffia 柱头的颜色是重要的分组、分种检索性状。我们对其长期、活体、原位、实时跟踪观测结果表明,柱头颜色是Wolffia 个体发育上的变化过程,不是一个稳定性状,用作Wolffia subgroup 内组的划分特征和种的鉴别特征是不适合的。在此基础上我们重新修定了该属的分种检索表。利用形态分类学性状——气孔、长/宽、高/宽以及最大宽度在水面上还是水面下等性状,认为中国分布的类群应是W. globosa,但亦有W. neglecta 存在的证据。mat K 基因片段结果支持形态学的结论。通过广泛的野外采集,在我国北京、河北和吉林发现Wolffia 的新分布。 2. 中国Wolffia 居群遗传学研究 以RAPD 分子标记对广泛分布的居群遗传多样性研究表明,无根萍属植物主要以无性繁殖方式繁育,居群主要由单一克隆后代组成,如海河流域以及松花江流域居群;但一些居群亦兼有性繁殖方式,并具较高的遗传多样性,如武汉、海南居群。利用MVSP, Popgene 和Ntsys 等分析方法探讨了中国产Wolffia 居群遗传多样性和地理分布格局间关系。 3. W. globosa 的生理学研究 建立了较为完善的W. globosa 的无菌培养和保存体系。W. globosa 在逆境中,会形成休眠体;同时,发现不同居群甚至不同克隆系之间其抗逆性和生长速度存在着显著差异,差异最大的如海南文昌居群的生长速率,是长春居群的4.19 倍;不同的时间统计生长周期存在着不同结果,生长节律每天有两个生长高峰呈双“S”型;W. globosa 的耐受温度范围和pH 范围广;低浓度的IAA,GA,6-BA, EDDHA-Fe 以及EDTA 等物质具有促进W. globosa 生长的特性;但是,所有这些处理均没能促使W. globosa 从营养生长转入生殖生长。 4. W. globosa 的解剖学研究 W. globosa 通常是进行克隆繁殖,通过组织切片发现无性分枝子体还未伸出母株之前就已经完成分化,与此同时分枝子体中又分化出新的子体,分枝呈聚伞状,子体生长方向彼此相对;另外,生殖生长结构的分化也是在母体中完成的;生殖生长点与营养生长点不是同一生长点。 5. 浮萍科植物的毒理学研究 以重金属Cr3+和芳香烃衍生物CDNB 溶液处理Wolffia,Spirodela 和Lemna, 三种水生生物,结果表明Wolffia 比Spirodela, Lemna 对重金属和芳香烃衍生物有更强的抗逆能力,如在同等条件下对于Cr3+Wolffia 的半致死剂量800GB(≈ 80mg/L),而Spirodela 和Lemna 则分别为10mg/L;20mg/L;表明W. globosa 是一个优良的生态环境修复植物。与此同时,研究了W. globosa 中具有解毒功能的GSTs 粗酶液活力在不同浓度的重金属离子(Cu2+和Cd2+)以及芳香烃衍生物(CDNB 和NBD-Cl)随处理时间的变化情况。 6. 从水生生物黄鳝Monpterus albus Zuiew 中分离纯化GSTs 的研究GSTs 活性的变化是环境监测的一个Biomarker,为此研究从M. albus 中分离 纯化GSTs 的技术与方法。经GSH 亲和层析纯化的酶活力为粗酶液的207 倍,进而鉴定了maGST 的部分特性。SDS-PAGE 电泳和MALDI-TOF/MS 表明MaGST 为同源二聚体,分子量约为52kDa,单亚基分子量约为26 kDa。maGST 酶动力学表明对CDNB 为13.07 ± 0.37 微摩尔每分钟每毫克蛋白;对NBD-Cl 为5.54 ± 微摩尔每分钟每毫克蛋白;对ECA、4-NPA 几乎没有活性。在GSH 底物饱和,CDNB 的Km 值和Vmax 分别为0.32 mM 和16.19 微摩尔每分钟每毫克蛋白;CDNB 底物饱和,GSH 的Km 值和Vmax 分别为0.44 mM 和28.83 微摩尔每分钟每毫克蛋白。maGST 的酶活性pH 值较宽,温度范围广:在pH7.0-7.5 具有最大速度,在pH6.5 和pH8.5 时分别具有65%和72%的酶活力;在45℃时具有最大活性,30℃和55℃时为最大活力的80%,60℃几乎完全丧失酶活力。
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对向日葵幼胚进行了培养试验,不同品种表现出了明显的差异,其中三道眉和白葵杂一号反应较为良好。所用培养基MS(Murashige和SKoog)、White(1963)、B5(1968)和Nitsoh(1969)中,B5培养基最为适宜幼胚培养。对各种植物激素进行了单项和综合作用的实验。在单项实验中,激素奈乙酸和脱落酸主要促进幼胚胚性生长。在激动素和乙烯利中培养20天,赤霉素培养30天,胚均产生了愈伤组织。激动素和赤霉素在低浓度(0.5ppm,1.0ppm)时,并可促进叶绿素的产生。培养40天后激动素还可促进愈伤组织分化芽。脱落酸在浓度为0.5-10.0ppm时使向日葵心形胚进行胚性生长,但长到2毫米长度后,即停止,这时用椰乳处理能打破这种抑制状况,重新使胚继续发育形成实生苗。高浓度乙烯利(5.0-10.0ppm)不仅使幼胚产生愈伤组织,而且使其产生根,高浓度乙烯利似乎表现出了类似于生长素对向日葵幼胚的生理作用。在综合实验中,吲哚乙酸IAA与激动素Kt的配合使用对幼胚的分化起到明显的调节作用,当Kt/IAA比例低时,幼胚只有根伸长;当Kt/IAA比例高时,幼胚只有芽伸长。天然提取物同样对幼胚有较明显的促进作用。利用胚胎培养技术培养杂种胚可以避免杂种胚的败育。向日葵属的野生种与向日葵栽培种的杂种幼胚培养在B5培养基成份再加上氨基酸、蔗糖和激素配制成的胚胎生长培养基上,获得充分发育的杂种胚,把杂种胚转入只含无机盐和蔗糖的萌发培养基,发育成实生苗,最后移入土壤直至开花。 在Nitsch培养基补加玉米素(0.5-15.0ppm)或2.4-D(0.5-4.0ppm)能诱导向日葵幼胚进行胚胎发生,在高浓度玉米素(15.0ppm)的作用下,出现了较高的发生频率;市浓度蔗糖(20%)加玉米素(1.0ppm)相对于低浓度的蔗糖(15%),胚胎发生的频率较高。围绕着这一工作进行了光镜与电镜的观察。胚状体大量产生可以解决杂种胚在育种中的数量问题,为向日葵杂种胚的应用可能提供一种有用的方法。
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多效唑(MET)是一种新型的植物生长调节剂.本文以多杆多穗青饲玉米为材料详细地研究了它征组织培养中的作用和生物学效应,并对它的作用机理也进行了初步的探讨。 研究结果表明:(1)适宜浓度的MET能够提高不同外植体愈伤组织的诱导率;(2)2~4 mg/lMET能改善愈伤组织的质量,提高愈伤组织的分化率、绿苗形成率、根的形成率和正常苗/异常苗的比值;(3)壮苗培养,MEP能使再生苗形态结构和生理等方面均发生较大的变化,并使其生长健壮,根系发达,移裁入土后成活率提高,达80%以上;(4)在再生苗的长期保存中,MET也具有良好的作用效应;(5)在继代培养中,MET处理后,愈伤组织的生长值下降;过氧化物酶活性和IAA氧化酶活性增加, 内源乙烯的释放量上升;外源GA3可逆转MET的作用效应,IAA、kt、ABA没有逆转效应,相反,ABA与MET对抑制愈防组织的生长具有加成效应.MET的作用机班可能是:通过改变细胞内酶的活性和内源激素的含量水平来控制愈伤组织细胞的生长、分化以及再生植株的生长和发育。 MET在玉米组培中所表现出的良好的作用效应表明:对于解决植物组织培养中所普遍存在的一些问题,用MET处理可能会变成一种有效的方法。展示出MET在植物生物技术领域也具有广泛的应用前景。
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诱导风信子(Hyacnthus orientalis L.)同一花被外植体上不同部位细胞分化花芽,从外源激素的作用和内探激素的变化探讨细胞脱分化启动的原因,研究了不同外源激素的组合下同一花被不同部位花芽分化的诱导频率:测定了花被上、中,下三部位切块离体培养前后的内源IAA和Z+ZR的含量;在此之前研究了GC-MS.MIM内标法测定微量植物材料内源IAA含量的可行性. GC-MS.MIM内标法是测定微量(0.5-1g)植物材料内源IAA含量的一种比较理想的方法,所需材料量一般为0.58.这一方法的材料前处理采用粗提液用C18Sep-pak柱初步分离纯化.HPLC进一步纯化,能获得纯度高的样品,且操作简便,省时省力. 风信子同一花被不同部位细胞均能分化花芽.当培养基中附加2.0mg/l Zeatin或2.0mg/16-BAP时,随着外探IAA浓度从0升高到10.0mg/l.捆胞分化花芽的部位从花被下部向上部移动。 离体培养前后同一花被上、中、下三部位内源IAA和Z+ZR含量测定结果表明.风信子同一花被内源IAA含量是上部最高,下部次之,中部最低,而内源Z+ZR含量从上向下依次增加;在附加不同外源激素的MS培养基上培养3天后,同一花被上,中、下三部位内源IAA和Z+ZR含量部有一定的变化。
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猕猴桃是重要的栽培果树,但目前栽培品种过于单一,不能满足生产和消费的需求。由于猕猴桃的雌雄异株特性、种间杂交亲合性差、遗传上高度杂合以及育种周期长等特点,常规杂交育种困难很大。现代生物技术,如原生质体培养和体细胞杂交等,为培育新品种提供了新途径。 毛花猕猴桃(Actinidia eriantha)和软枣猕猴桃(A.arguta)是猕猴桃属中具有重要利用价值的两个种。毛花猕猴桃果实大小在猕猴桃属中次于中华猕猴桃(A.chinensis)和美味猕猴桃(A.deliciosa)列第三位,果实维生素C含量达1014 mg/l00 g FW。软枣猕猴桃极耐寒,在-40℃下可安全越冬,其果实表面光滑无毛。这两个种是品种改良的重要种质资源。 作为生物技术基础的组织培养与植株再生系统,在毛花猕猴桃上尚未见报道。软枣猕猴桃的组织培养仅有一例报道,且芽分化率和分化系数都很低。这两个种的原生质体培养及与美味猕猴桃的原生质体融合也未见报道。针对这种情况,本试验对毛花猕猴桃和软枣猕猴桃的组织培养、原生质体培养及其与美味猕猴桃品种“Hayward”的原生质体融合进行研究,结果建立了较理想的毛花猕猴桃和软枣猕猴桃组织培养系统;首次从毛花猕猴桃原生质体得到再生植株和从软枣猕猴桃原生质体培养再生愈伤组织;通过改进融合方法,建立了毛花猕猴桃+美味猕猴桃和软枣猕猴桃+美味猕猴桃的原生质体融合体系,并将异核体培养分裂得到细胞团。这些结果有利于今后毛花猕猴桃和软枣猕猴桃资源的开发利用。主要试验结果如下: 以毛花猕猴桃试管实生苗叶片和茎段为外植体,培养在附加一定浓度Zea或CPPU的MS培养基上,产生的愈伤组织不经转代就可分化芽。试管苗茎段在附加0.0025 mg/L CPPU和0.1 mg/LIAA的MS培养基上愈伤组织产生、芽分化和苗生长都较理想;试管苗叶片则以附加0.025 mg/L CPPU和0.l mg/LIAA或0.5 mg/L Zea和0.1 mg/LIAA的MS培养基较好。当苗生长至1.0 cm时经诱导生根形成完整植株。 在软枣猕猴桃组织培养中,外植体种类、诱导培养基的激素种类和诱导分化时细胞分裂素种类都有重要影响。无菌苗茎段容易愈伤组织化,但分化困难;叶片外植体产生愈伤组织较难,但分化容易。在含Zea的MS培养基上,两种外植体产生的愈伤组织不经转代即能分化芽。分化培养基中添加Zea能有效地诱导芽分化,其中以2.0 mg/L Zea芽的分化最好,而Kin和BAP在0.5- 2.0 mg/L浓度范围内愈伤组织不分化。 以毛花猕猴桃或软枣猕猴桃试管苗叶片为分离原生质体的材料。试管苗的培养条件对原生质体分离效果及其培养反应有显著影响。弱光培养条件对两个种试管苗的原生质体分离及其培养都有好处,试管苗培养基也有重要影响。毛花猕猴桃和软枣猕猴桃试管苗合适培养基分别为MS基本培养基(大量元素减半)和MS+0.00025 mg/L CPPU+ 0.1 mg/LIAA。在此条件下培养的两个种的试管苗叶片,经酶解后原生质体产量分别为0.7-1.8×l06和3.0-3.5×l06/1 g FW,其原生质体在合适培养基上能够分裂。 毛花猕猴桃原生质体培养在MS培养基(去除NH4N03)附加l.0mg/L2,4-D液体培养基中,约10天时发生第一次分裂,分裂能持续下去并在培养3个月时形成约2mm大小愈伤组织。直接将其转入固体培养基中使其增殖和分化。在附加Zea 0.5 mg/L+ O.l mg/L IAA的MS培养基上继代2次,愈伤组织开始分化芽。芽伸长后切下诱导生根,形成完整植株。软枣猕猴桃原生质体培养基中,MS培养基附加2,4-D配合Zea或Kin对启动分裂是必须的,其中以MS+2,4-D 0.5 mg/L+ Zea 0.5 mg/L最好,在此培养基上原生质体第一次分裂发生在4-6天时,培养12-14天时见到第三次分裂,培养三周的分裂频率为23%。培养45天后形成许多小愈伤组织块。软枣猕猴桃原生质体再生的愈伤组织从液体培养基转入固体培养基后未见进一步分裂。 对18株毛花猕猴桃原生质体再生植株的体细胞染色体数目作了观察,其中12株为整倍体,二倍体和四倍体各六株;另外六株为混倍体,其染色体数目变化在59-203之间。还发现原生质体再生植株有丝分裂间期细胞存在多核现象,有多核细胞的共10株,细胞内多核数目以双核和三核较常见,最多的有七个核。原生质体供体植株为2n=2x=58,未发现多核细胞。原生质体再生植株体细胞多核现象未见报道。 利用毛花猕猴桃或软枣猕猴桃叶片原生质体分别与愈伤组织来源的美味猕猴桃原生质体进行融合,融合方法为高Ca++高pH值PEG法。对Kao等(1975)报道的融合步骤作了修改。影响融合效率的因素主要有PEG种类、融合作用时间和融合液中DMSO浓度。最佳的融合条件为40%PEG (Sigma,MW3350)+10%DMSO,作用40 min。毛花猕猴桃+美味猕猴桃和软枣猕猴桃+美味猕猴桃的融合频率分别可达14.5%和13.6%。异核体经培养可分裂并形成细胞团。
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1.以MS无机盐+B 5有机成分为基本培养基,附加2,4-D,KT,ZT等激素,以农艺性状良好,抗枯萎病的棉花品种“冀492”为材料,建立了愈伤组织诱导,体细胞胚胎发生和植株再生体系. 2.实验结果表明,2,4-D是诱导愈伤组织产生的促进因子,效果明显好于其它生长素类物质,但是随着培养基中2,4-D浓度的升高,愈伤组织状态也会变差,褐化严重,而且,附加O.lppm 2,4-D,O.lppm K T的培养基是较为合适的培养基.IAA,NAA对愈伤组织的诱导不十分理想,此外,愈伤组织的产生还同外植体,基因型和一些物理条件有关, 胚性愈伤组织的产生,需不断调节培养基中激素浓度,逐步降低2,4 -D浓度,并添加低浓度ZT,胚状体要在去除2,4-D的培养基上才能产生.虽然,2,4-D对于胚性愈伤组织的诱导是必须的,但是却抑制胚状体的发育. 3.培养基中硝态氮和氨态氮比例,激素浓度和种类,活性炭的添加,对于胚状体的萌发和成熟有重要影响,硝酸钾加倍,硝酸铵减半,并附加低浓度ABA和活性炭是胚状体诱导和成苗(去除ABA)的适宜培养基,而附加0.2ppm N A A,0.2ppm ZT和活性炭的M S2培养基是胚状体成熟的适宜培养基.通过对胚性愈伤组织的干燥处理,培养基中低浓度ABA和活性炭的添加,比较有效地抑制了畸形胚的产生,大大地提高了正常胚的比例. 4.对陆地棉“冀4 9 2”的下胚轴和子叶利用含Bt抗虫基因的根农杆菌(AgrobacterIIm tumefrens)进行了遗传转化研究,在筛选培养基上获得了大量生长旺盛的阳性愈伤组织,葡糖酸苷检测结果表明,大部分愈伤组织均有G us基因的表达. 5.通过花粉管通道法,进行了将含有Bt抗虫基因DNA的大肠杆菌质粒导入陆地棉“冀492”的实验,并收获了近1 0,000粒种子,为从大量种子中筛选出抗性种质材料,建立了卡那霉素田间初步筛选法. 6.利用活体压片和石蜡切片技术对体细胞胚胎发生过程和胚状体起源进行了观察,发现胚状体发生主要是通过类合子途径进行的,胚状体可能起源于单细胞. 7.通过对相同培养基上的非胚性愈伤组织,胚性愈伤组织和不同时期胚状体的可溶性蛋白SDS - PAGE电泳分析,发现16KD和50K D蛋白特异性地存在于胚性愈伤和各期胚状体中,该蛋白可作为胚性愈伤组织的筛选标记.对不同发育时期的愈伤组织进行了同工酶和可溶性蛋白的IE F/SD S-PA G E双向电泳分析,结果表明,不同发育时期的愈伤组织同工酶酶谱和可溶性蛋白电泳图谱之间具有较大的差别,分化前期的胚性愈伤组织酶的活性强,种类多,并且有新的蛋白斑点的出现,这些都可能与体细胞胚胎发生相关.
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脂肪酸是生物体内普遍存在、具重要生理功能的物质,亦是重要的化工原料。研究脂肪酸生物合成及其调控,既是揭示生命活动基本规律的需要,又具巨大的经济价值。多形汉逊氏酵母(Hansenula polymorpha)是一种甲基嗜热酵母,能合成多聚不饱和脂肪酸,是研究脂肪酸生物合成的理想材料之一。为阐明多形汉逊氏酵母细胞中脂肪酸生物合成途径、关键步骤、调节机理,并利用此系统生产有用脂肪酸,我们开展了不饱和脂肪酸生物合成关键酶基因--△9-脂肪酸去饱和酶基因研究。 以P. angusta IFO 1475的P-OLE1基因为探针,Southern杂交分析,发现在亲缘关系很近的不同种类的甲基嗜热酵母如H. pofymorpha、Pichia angusta、P. pastoris、P. methanolica和Candida boMinii中Δ9-脂肪酸去饱和酶基因的结构多形性。 构建了H. polymorpha CBS 1976染色体Δ9-脂肪酸去饱和酶基因座位的限制性酶切图谱,进而分离了3.4 kb BamHI-XhoI基因片段并进行全序列分析,结果表明这个片段含1个与已克隆的酵母Δ59-脂肪酸去饱和酶基因高度同源的、由1353 bp组成的ORF。推导的H-OLE1多肽具脂肪酸去饱和酶的一些基本特征,如含2个结构域:1个位于N一端、含3个保守的组氨酸簇、具催化功能,另1个位于C-端、参与脱饱和反应中电子传递、类似细胞色素b5。将这个序列申报DDBJ,获得Accession number为:AB024576,推导的蛋白的氨基酸序列的Accession number为:BAA75902。 为验证H-OLE1基因的功能,建立了多形汉逊氏酵母DNA电穿孔实验系统,进行了遗传互补测验。发现完整的H-OLE1基因可互补缺乏Δ59-脂肪酸去饱和酶活性的多形汉逊氏酵母营养缺陷型fadl突变体,却不能互补相应的酿酒酵母olel突变体,而由酿酒酵母GAP表达框架和H-OLE1 ORF组成的嵌合基因可互补上述olel突变体。说明H-OLE1基因编码Δ9-脂肪酸去饱和酶,多形汉逊氏酵母的Δ9-脂肪酸去饱和酶和酿酒酵母的脂肪酸脱饱和系统相亲和,而H-OLE1基因的启动子在异源细胞中没有活性。 为研究H-OLE1基因的转录及其调节规律,通过一系列实验,首次找到了可在研究多形汉逊氏酵母基因表达时用作内标的GAP基因。Northern杂交发现,H-OLE1基因在细胞中以较低水平表达,产生1.5 kb的转录子;基因表达略受不饱和脂肪酸的抑制;在多形汉逊氏酵母HOLE1基因的转录调节中,Choi等在酿酒酵母OLE1基因中发现的脂肪酸调节元件FAR可能不是关键的。 利用基因敲除技术,通过转化H-OLE1∷S-LEU2线性DNA到多形汉逊氏酵母二倍体细胞(fadl/FADl)中,首次构建了多形汉逊氏酵母H-OLE1基因的破坏株。遗传学和分子生物学研究表明,破坏株细胞中线性DNA定位串联多拷贝整合到染色体中并置换了fadl突变部位。利用气相色谱分析了ΔH-OLE1破坏株、fadl-2突变株、野生型菌株及含H-OLE1基因转化子的细胞总脂肪酸,发现多形汉逊氏酵母细胞中除18:0→18:1(Δ9)→18:2(Δ9,12)→18:3(Δ9,12,15)这个脂肪酸去饱和主路外,还可能存在其它几个脱饱和反应与延长反应,如16:1(Δ9)→16:2(Δ9,12)→18:2(Δ11,14);16:1(Δ9)→18:1(Δ11)→18:2(Δ11,15)等。 近年维管组织分化研究进展迅速,取得大量可喜结果,也存在许多不足,如细胞分化调节机理,特别是激素诱导的分子机理研究比较薄弱。为建立研究维管组织分化的理想系统,研究嫁接体发育的激素调节机制,在Parkinson和Yeoman发明的离体茎段嫁接系统的基础上,研究了激素对嫁接体发育特别是维管组织分化的影响。 采用不同的嫁接方法,用试管苗对黄瓜离体茎段自体嫁接、亲和性的黄瓜/黑籽南瓜与不亲和性的黄瓜/绿豆离体茎段嫁接组合进行研究,建立了嫁接过程简单、污染率低的试管苗离体茎段嫁接系统。利用往培养基中添加或不加植物激素研究嫁接体发育,发现通过改变培养基中的植物激素,可使亲和的嫁接体难以形成贯通砧木和接穗的维管束桥,也可诱导非亲和性的嫁接体产生维管束桥。初步研究证明利用植物激素可以克服嫁接不亲和性,这一结果是嫁接基础理论研究的一个重要进展,对揭示嫁接亲和性机制具重要意义。由于黄瓜绿豆嫁接组合中,砧木绿豆是可以固氮的豆科植物,研究结果具有潜在的应用前景。 详细地研究了外源IAA和玉米素(ZT)对黄瓜自体嫁接系统中维管束桥形成时间和数目特别是贯通砧木和接穗的管状分子数的影响。当砧木和接穗培养基中都没有添加植物激素时,嫁接接合部难以产生维管束桥,也难以产生贯通的管状分子。当培养基中添加植物激素时,维管束桥数和贯通的管状分子数随激素浓度和种类的不同而不同。本实验的最佳激素条件是:在接穗培养基中加IAA 1.0 mg/L和ZT 0.25 mg/L,在砧木培养基中加ZT 0.25 mg/L。研究表明在试管苗离体茎段自体嫁接系统中,外源激素是嫁接成功的必要条件。试管苗离体茎段嫁接系统是一个理想的研究植物维管组织分化的新系统。 通过对嫁接体发育期接合部及嫁接体各部分IAA、玉米素及玉米素核苷(Z+ZR)的ELISA分析,发现嫁接接合部维管束的再生受IAA和Z+ZR含量的共同调节;连接接穗和砧木维管束桥的分化比维管束的网联要求更高的IAA水平及LAA(Z+ZR)比率。 上述结果为利用嫁接系统研究维管组织分化机理奠定了基础,使进一步研究嫁接体发育的激素调节机理成为可能。
