高等植物胚胎的发育生物学研究——Ⅵ.粳稻胚分化发育期间一些大分子物质的动态

鉴测了粳稻胚的发育进程及不同分化发育时期中DNA、RNA、蛋白质、淀粉含量和鲜重、干重、细胞数的变化。 开花后6～13天(胚分化第一到第四叶原基期间)胚细胞数增加时,DNA、RNA含量迅速上升。此后细胞数和DNA、RNA含量都趋于稳定,但RNA在18～25天再次增长。每胚蛋白质和干重基本上随RNA含量相应地变化。 每毫克胚于重的核酸和蛋白质含量在13天出现明显的转折。平均每细胞的DNA含量在整个发育期保持稳定,RNA第一阶段的增长只持续到分化完成的前夕,而蛋白质在25天以前一直增加。 胚内淀粉的累积在整个胚形成期呈现三段斜率不同的直线。以单位干重表示时则在8天左右和21天出现两个高峰,先于RNA和蛋白质两次积累的高峰。 在大分子物质的变化与胚胎发育进程相互关系并与籼稻比较的基础上,将稻胚发育划分为原胚期、分化期、成熟期和休止期。     

水稻种子发育过程中Poly(A)RNA和蛋白质水平的变化

我们用[~3H]—Poly(U)饱和杂交的方法分析了水稻种子发育过程中Poly(A)含量和Poly(A)RNA水平的变化。胚乳发育过程中,Poly(A)含量和Poly(A)RNA水平均于开花后11天达到高峰,比蛋白质高峰出现时间约早10天。随着胚乳的成熟,蛋白质水平在开花后6～21天持续增长。但 Poly(A)含量和Poly(A)RNA水平却急剧下降。因此,在胚乳发育早期合成的Poly(A)RNA中,可能有部分不是直接用于蛋白质的合成。在胚的发育过程中,Poly(A)含量和Poly(A)RNA水平分别出现三次高峰。开花后30天,每胚含有5.94ng Poly(A)RNA,约占胚总RNA的0.097％,为稻胚中贮存的mRNA存在提供了一个直接的证据。     

莲种子的极端高温耐性与抗氧化酶活性的变化

莲（Nelumbo nucifera Gaertn．）种子是一种长寿命和耐极端高温的种子．莲和玉米（Zeamays L．）种子的含水量分别为0．103和0．129gH20／g干重,随着在100℃处理时间的延长,种子的含水量、萌发率和由存活种子产生的幼苗鲜重逐渐降低．100℃处理15min时,玉米种子的萌发率为零;但莲种子被处理24h时,其萌发率仍然为13．5％．50％的玉米和莲种子被100℃处理致死的时间（T50）分别为6min和14．5h．随着100℃处理时间的延长,莲胚轴的相对电解质渗漏明显增加,总叶绿素含量显著下降,当在100℃处理时间短于12h时,莲下胚轴的亚细胞结构保持完整;当处理时间长于12h时,细胞逐渐发生质壁分离、内质网变得不清晰、核和核仁降解、大多数线粒体膨胀、脂质颗粒在细胞边界积累,最后细胞器和质膜降解．此外,莲胚轴和子叶的丙二醛（MDA）含量在100℃处理的0～12h内下降,然后增加：玉米胚和胚乳的MDA含量在100℃处理的5～10min内增加,然后有所下降．莲胚轴和子叶的超氧物歧化酶（SOD）、谷胱甘肽还原酶（GR）和胚轴的过氧化氢酶（CAT）活性在100℃处理初期增加,然后下降;而莲胚轴和子叶的抗坏血酸过氧化物酶（APX）、脱氢抗坏血酸还原酶（DHAR）和子叶的CAT活性随100℃处理时间的延长而逐渐下降．玉米胚和胚乳中的SOD,DHAR以及胚的GR活性在100℃处理初期增加,然后下降;玉米胚和胚乳中的APX,CAT和胚乳的GR活性随100℃处理时间的延长迅速下降,与种子萌发率下降的趋势相同,莲胚轴和子叶的SOD,APX,CAT,GR和DHAR活性下降缓慢,而在玉米胚和胚乳中这些酶的活性则迅速降低。     

荞麦胚和胚乳的发育及贮藏营养物质的积累

荞麦原胚期,胚乳为游离核期。球形胚晚期,胚乳开始细胞化。心形胚期,胚囊中部形成一层“开放细胞”。鱼雷形胚期,胚囊中部有５－７层胚乳细胞。子叶弯曲胚期,胚乳全部形成胚乳细胞,具传递细胞特征的合点胚乳吸器形成。胚乳细胞的初始垂周壁来自于自由生长壁和胞质分裂形成的细胞板;初始平周壁由自由生长垂周壁分友相接形成,及有丝分裂的细胞板形成。开花后９ｄ,胚乳细胞积累淀粉,比胚细胞积累早６ｄ。开花后１５ｄ,胚乳最     

长豇豆胚和胚乳的发育及营养物质积累

长豇豆(Vigna sesquipedalis (L.)Fruwirth)开花前7—10小时传粉,开花后8—10小时完成双受精。合子期珠孔端及合点部位胚囊的周界壁有壁内突。胚发育属柳叶菜型。胚柄的基部细胞及基部区域外层细胞的外切向壁发生壁内突。成熟胚中胚柄宿存。开花后9—16天为子叶细胞中淀粉积累期,开花后12—18天为蛋白质积累期。胚乳发育为核型,珠孔端胚乳细胞化,合点端保持游离核状态。胚乳外层细胞为传递型细胞,珠孔端的胚乳细胞形成折叠细胞群,亦有壁内突。心形胚期胚乳开始退化解体,成熟胚期胚乳完全消失。     

大麦胚和胚乳发育的相关性及贮藏营养物质的积累

大麦(Hordeum vulgare L.)开花后1d,见合子及退化助细胞,游离核胚乳尚未形成;开花后2～3d,胚为5及10个细胞,胚乳为游离核期;开花后4及5、6d,胚为梨形及长梨形,胚乳达细胞化期;开花后8d,胚为胚芽鞘期,糊粉层原始细胞产生;开花后10d,胚具1叶,糊粉层1～2层;开花后13d胚为2叶胚,亚糊粉层发生;开花后17d,3叶胚形成,糊粉层多为3层并停止分裂,菱柱形及不规则胚乳细胞分化;开花后21～29d,胚为4叶胚,胚乳进一步分化;开花后33d,胚为5叶成熟胚,胚乳亦成熟。淀粉、蛋白质在胚中积累始于开花后13d。在盾片中由基向顶发生,在胚芽鞘及叶原基中,首先在顶端出现。成熟盾片顶端的淀粉消失。开花后6d,胚乳开始积累淀粉;开花后10d,糊粉层及胚乳细胞积累蛋白质。开花17d后胚乳的蛋白质体多聚集,29d后蛋白质体显著减少。开花后17d,在盾片及糊粉层细胞中检测到油脂。果长或果长与稃片长之比和盾片长可作为不同发育期胚和胚乳的形态指标。     

长喙毛茛泽泻胚中营养物质的积累与消耗

长喙毛茛泽泻是一种水生濒危植物。它的种子中没有胚乳,营养物质以淀粉和帽白体的形式贮藏在胚中。胚不同部位物质积累情况差异较大,下胚轴和子地细胞中的淀粉,蛋白体数目多,体积大,胚芽和胚根分生细胞中只贮藏有少量的淀粉粒和蛋白体。     

毛竹种子形成过程中形态解剖学特征

为揭示毛竹(Phyllostachys edulis)种子生长过程中胚、胚乳、果皮及种皮的发育规律,以桂林海洋山一带的开花毛竹为材料,采集并固定不同时期的开花毛竹种子,使用石蜡制片法制片,显微镜观察胚、胚乳、果皮与种皮的结构变化。结果表明：(1)毛竹花后1 d完成受精并形成合子,合子休眠时长约为5 d。经过原胚阶段、胚芽鞘阶段、幼胚生长阶段及成熟胚阶段,花后40 d的胚发育基本成熟,其发育类型为禾本型。(2)胚乳发育早于胚的发育,其发育类型为核型胚乳,历经游离核、细胞化、细胞分化及成熟4个阶段。在细胞分化阶段胚乳细胞分化形成淀粉胚乳细胞以及糊粉层细胞,淀粉胚乳细胞主要积累淀粉粒,糊粉层细胞主要积累矿质元素、脂类及蛋白质等。(3)花后1 d的果皮细胞及珠被细胞形状规则、内含物丰富、结构完整;花后10～20 d,内、外果皮及珠被细胞层数递减,形状发生改变,中果皮细胞开始出现淀粉粒;花后20～60 d,随着胚乳细胞营养物质的积累及体积的增大,向外产生机械压力,中果皮细胞逐步消解仅剩残留的细胞壁;外果皮细胞呈长条形,细胞壁加厚,与残留的中果皮细胞壁组成保护结构;皮层在种子发育过程中主要起到合成...     

不同芸豆品种种子发育过程中贮藏蛋白积累研究

以半蔓生型奶花芸豆(Y09)和直立型奶花芸豆(Y06)为材料,通过SDS-PAGE分析研究了开花后种子形成过程中贮藏蛋白(SP)的积累规律.结果表明:2个芸豆品种开花后种子形成过程中,子叶、胚蛋白积累变化趋势基本一致,但其变化幅度存在显著差异,其中,在开花后20d内,半蔓生型芸豆Y09的籽粒蛋白积累量大于直立型芸豆Y06,但在开花后25~40d,Y06籽粒蛋白积累量显著高于Y09;两芸豆品种的子叶和胚均含有丰富的贮藏蛋白(SP)(14.4~97.4kD),其中子叶的41.0、43.9、39.4kD3种蛋白含量较高,约占子叶总蛋白含量(光密度)50%以上,而胚蛋白亚基分布相对均匀;两品种的子叶、胚中蛋白亚基差异较小,只有个别亚基存在差异.     

喜树种子萌发和幼苗发育过程中喜树碱含量的变化

在喜树种子萌发过程中 ,胚乳中喜树碱含量始终最高 ,但呈降低趋势 ;种皮中喜树碱含量较低 ,呈波动型上升 ;子叶和胚轴中喜树碱含量变化不明显。种子萌发后 ,随着幼苗的发育 ,子叶中喜树碱含量逐渐升高 ,出现最大值后迅速下降 ,胚轴、根和真叶中喜树碱含量持续降低 ,幼苗发育到一定时间后趋于稳定     

切除上胚轴对绿豆子叶衰老逆转及其核酸和蛋白质代谢的效应

在绿豆子叶衰老达到不归点(萌发后5～6d)前切除上胚轴可使开始衰老的子叶中核酸和蛋白质含量回升,衰老短期逆转。衰老不归点后的子叶中核酸和蛋白质变化的主要特征是:丧失了较多的核主带DNA、25S、18S rRNA以及大部分可溶性蛋白质组分,一种小分子DNA 组分完全消失。不归点前切除上胚轴可使上述核酸和蛋白质组分明显增加,表明子叶衰老的逆转可能与这些重要功能物质的回升有关。在切除上胚轴的茎顶涂抹IAA,能阻止子叶核酸和蛋白质回升,也消除了切除上胚轴对子叶裹老的逆转作用。     

Changes in extreme high-temperature tolerance and activities of antioxidant enzymes of sacred lotus seeds

Sacred lotus (Nelumbo nucifera Gaertn. ‘Tielian’) seed is long-lived and extremely tolerant of high temperature. Water content of lotus and maize seeds was 0.103 and 0.129 g H2O [g DW] ?1, respectively. Water content, germination percentage and fresh weight of seedlings produced by surviving seeds gradually decreased with increasing treatment time at 100℃. Germination percentage of maize (Zea mays L. ‘Huangbaogu’) seeds was zero after they were treated at 100℃ for 15 min and that of lotus seeds was 13.5% following the treatment at 100℃ for 24 h. The time in which 50% of lotus and maize seeds were killed by 100℃ was about 14.5 h and 6 min, respectively. With increasing treatment time at 100℃, relative electrolyte leakage of lotus axes increased significantly, and total chlorophyll content of lotus axes markedly decreased. When treatment time at 100℃ was less than 12 h, subcellular structure of lotus hypocotyls remained fully intact. When treatment time at 100℃ was more than 12 h, plasmoly-sis gradually occurred, endoplasmic reticulum became unclear, nuclei and nucleoli broke down, most of mitochondria swelled, lipid granules accumulated at the cell periphery, and organelles and plas-molemma collapsed. Malondialdehyde (MDA) content of lotus axes and cotyledons decreased during 0-12 h of the treatment at 100℃ and then increased. By contrast, the MDA content of maize embryos and endosperms increased during 5-10 min of the treatment at 100℃ and then decreased slightly. For lotus seeds: (1) activities of superoxide dismutase (SOD) and glutathione reductase (GR) of axes and cotyledons and of catalase (CAT) of axes increased during the early phase of treatment at 100℃ and then decreased; and (2) activities of ascorbate peroxidase (APX) and dehydroascorbate reductase (DHAR) of axes and cotyledons and of CAT of cotyledons gradually decreased with increasing treat-ment time at 100℃. For maize seeds: (1) activities of SOD and DHAR of embryos and endosperms and of GR of embryos increased during the early phase of the treatment at 100℃ and then decreased; and (2) activities of APX and CAT of embryos and endosperms and of GR of endosperms rapidly decreased with increasing treatment time at 100℃. With decrease in seed germination, activities of SOD, APX, CAT, GR and DHAR of axes and cotyledons of lotus seeds decreased slowly, and those of embryos and endosperms of maize seeds decreased rapidly.     

Studies on the Nucleic Acid and Protein Content in the Cotyledon Cells of Lotus Using Fluorescent Imaging System with a Scientific grade Charge Coupled Device

Enzyme dissociated cotyledon cells were obtained from red lotus ( Nelumbo sp. ) on the 5th day and 20th day after fertilization respectively. DNA, RNA and total protein content of individual 5 d and 20 d cell were measured correlatively by microfiuorescent imaging system with a cooled scientific-grade Charge coupled deviced (CCD) camera. The results showed that DNA content of the 20 day cell has become polyploidized from 4C to 8C approximately. The window analysis indicated that relative content of RNA and total protein of the 20 day cell was more than 11 times that of the 5 day cell in the same 4C DNA window respectively. The multiple in-creased of RNA and total protein content was about the same as that of DNA in 2 DNA windows (4C and 8C) of the 20 day cell. These data showed that the enormous accumulation of storage proteins in the cotyledon cells of red lotus depends on both DNA ploidy and selective expression of the subunit genes of the storage proteins during the developmental process.     

STUDIES ON THE SOLUBLE CARBOHYDRATES AND CARBOHYDRATE PRECURSORS IN GERMINATING SOYBEAN SEED

The total soluble carbohydrate fraction of the cotyledons and embryo axis of germinating soybean seedlings declined rapidly during the first 3 days of germination. This depletion began earlier in the embryo axis than in the cotyledon. The total carbohydrate content of the cotyledons of plants grown in light and plants grown in dark was approximately the same for the first 7 days of germination. Between day 9 and 13 the total carbohydrate content of the cotyledons of soybean seedlings grown in dark was higher than that of plants grown in light. The reducing sugar content of light-grown soybean cotyledons increased approximately 5-fold during the first 9 days of germination, whereas that of dark-grown soybean cotyledons increased more slowly during this interval. Reducing sugars in the embryo increased during the early stages of germination until they approximately equalled the total carbohydrate. Between day 4 and 13, oil was depleted more rapidly in the cotyledons of seedlings grown in light than those grown in the dark. The reserve carbohydrates of soybean embryos and cotyledons consisted primarily of low molecular weight oligosaccharides, particularly sucrose, stachyose, and raffinose. These compounds decreased rapidly during germination. The isocitritase activity in the cotyledons of germinating soybean seeds increased rapidly for the first 6 days of germination and then decreased for the next 7 days. The isocitritase activity of plants grown in the dark was higher than that of the plants grown in light at all stages of development, particularly between day 7 and 11.     

用荧光影像系统研究莲子叶细胞中核酸和蛋白质的含量

用酶解法解离受精后５ ｄ 和２０ ｄ 的红莲（ Ｎｅｌｕｍｂｏ ｓｐ．） 子叶细胞,应用冷却型科学级电荷偶联装置（ＣＣＤ） 摄像式显微荧光影像系统对单个５ ｄ 细胞和２０ ｄ 细胞的ＤＮＡ、ＲＮＡ和总蛋白相对含量进行了相关测量。实验结果表明：２０ ｄ 细胞ＤＮＡ成为多倍化,为４Ｃ～８Ｃ水平。视窗分析表明：同一４ＣＤＮＡ 视窗中,２０ ｄ 细胞比５ ｄ 细胞的ＲＮＡ和总蛋白含量增加１１ 倍以上。２０ ｄ 细胞的两个ＤＮＡ视窗（４Ｃ和８Ｃ） 中,随着ＤＮＡ倍性的增高,ＲＮＡ 和总蛋白含量也以大致上相应的倍数增高。这些数据表明：红莲子叶贮存蛋白的大量积累既与ＤＮＡ 倍性有关,又与发育过程中贮存蛋白亚基基因选择性的表达有关     

Changes in a Leaf-growth Substance in Cotyledons and Primary Leaves during the Growth of Dwarf Bean Seedlings

The growth of etiolated dwarf bean leaf disks in darkness wasused to assay leaf-growth substances extracted from plant tissuesand separated on chromato-grams. A leaf-growth substance, with the same Rf value in isopropanol/ammoniaas gibberellic acid, was found in the acidic fraction of extractsfrom dwarf bean primary leaves and cotyledons. Neither neutralnor basic leaf-growth substances were found in primary leafextracts. The amount of leaf-growth substance per cotyledon reached amaximum at the 4th day in cotyledons, whether bean plants weregrown in the light or dark. Primary leaves of dwarf bean plantsgrown in the light reached their maximum content of leaf-growthsubstance later than the cotyledons; the time of maximum contentcoincided with the maximum growth-rate of the primary leaves.Leaf-growth substances did not accumulate in primary leavesof plants grown in the dark.     

山黧豆胚胎发育过程中ODAP和一些大分子物质含量的变化

应用微量分析方法检测了山黧豆胚胎发育过程中ODAP毒素含量和核酸、蛋白质、糖类等大分子物质含量变化。结果表明：每粒种子的ODAP含量随着胚的发育而增加。每粒种子DNA量随着细胞的迅速分裂而增加,R、蛋白质、淀粉含量随着胚的发育而成倍地增加,当进入心形胚时这些物质的增加更为迅速。如以每克干重中的含量来表示,那么ODAP,DNA及可溶性糖含量则随胚的发育而下降,其它大分子物质含量在胚发育前期升高;进入心形胚时,这些物质达到最高峰;到鱼雷胚时,这些物质含量开始下降;直到胚基本分化完全时,降到最低点;只有酸性蛋白质含量一直保持增长。     

Changes in extreme high-temperature tolerance and activities of antioxidant enzymes of sacred lotus seeds

Sacred lotus (Nelumbo nucifera Gaertn. ‘Tielian’) seed is long-lived and extremely tolerant of high temperature. Water content of lotus and maize seeds was 0.103 and 0.129 g H₂O [g DW] ⁻¹, respectively. Water content, germination percentage and fresh weight of seedlings produced by surviving seeds gradually decreased with increasing treatment time at 100°C. Germination percentage of maize (Zea mays L. ‘Huangbaogu’) seeds was zero after they were treated at 100°Cfor 15 min and that of lotus seeds was 13.5% following the treatment at 100°C for 24 h. The time in which 50% of lotus and maize seeds were killed by 100°C was about 14.5 h and 6 min, respectively. With increasing treatment time at 100°C, relative electrolyte leakage of lotus axes increased significantly, and total chlorophyll content of lotus axes markedly decreased. When treatment time at 100°C was less than 12 h, subcellular structure of lotus hypocotyls remained fully intact. When treatment time at 100°C was more than 12 h, plasmolysis gradually occurred, endoplasmic reticulum became unclear, nuclei and nucleoli broke down, most of mitochondria swelled, lipid granules accumulated at the cell periphery, and organelles and plasmolemma collapsed. Malondialdehyde (MDA) content of lotus axes and cotyledons decreased during 0 −12 h of the treatment at 100°C and then increased. By contrast, the MDA content of maize embryos and endosperms increased during 5–10 min of the treatment at 100°C and then decreased slightly. For lotus seeds: (1) activities of superoxide dismutase (SOD) and glutathione reductase (GR) of axes and cotyledons and of catalase (CAT) of axes increased during the early phase of treatment at 100°C and then decreased; and (2) activities of ascorbate peroxidase (APX) and dehydroascorbate reductase (DHAR) of axes and cotyledons and of CAT of cotyledons gradually decreased with increasing treatment time at 100°C. For maize seeds: (1) activities of SOD and DHAR of embryos and endosperms and of GR of embryos increased during the early phase of the treatment at 100°C and then decreased; and (2) activities of APX and CAT of embryos and endosperms and of GR of endosperms rapidly decreased with increasing treatment time at 100°C. With decrease in seed germination, activities of SOD, APX, CAT, GR and DHAR of axes and cotyledons of lotus seeds decreased slowly, and those of embryos and endosperms of maize seeds decreased rapidly.     

The Control of Food Mobilization in Seeds of Cucumis sativus L. VI. The Production of Starch

During germination and early seedling growth of cucumber, cotyledonarylipid and protein reserve material mobilization is controlledthrough a cotyledon/axis, source/sink relationship. Earlierwork has shown that some cotyledonary lipid breakdown is ableto occur even in the absence of the embryonic axis. This studyshows that such breakdown is probably a consequence of the formationof a transitory starch store. Excised cucumber cotyledons accumulatelarge amounts of starch following the accumulation of reservebreakdown products which can no longer be utilized in the absenceof the axis and represents a mechanism in the issue to regulatethe concentration of osmotically active substances such as sucroseand glucose. The starch content of both attached and excisedcotyledons increased during the experimental period. In theformer case, however, the increase was very small and starchlevels fell subsequently, while in the later instance the increasecontinued, reaching a maximum at day 8 after which it stabilizedat this elevated level. The increase in starch content is mostclosely correlated with an increase in the activity of boundADPG-starch synthase although soluble ADPG-starch synthase activityalso increases during the experimental period. Cucumber, Cucumis sativus, starch, food mobilization, germination, ADPG-starch synthase     

山黧豆胚胎发育过程中ODAP和一些大分子物质含量的变化

应用微量分析方法检测了山黧豆胚胎发育过程中ODAP毒素含量和核酸、蛋白质、糖类等大分子物质的含量变化。结果表明:每粒种子的ODAP含量随着胚的发育而增加。每粒种子DNA量随着细胞的迅速分裂而增加,R、蛋白质、淀粉含量随着胚的发育而成倍地增加,当进入心形胚时这些物质的增加更为迅速。如以每克干重中的含量来表示,那么ODAP、DNA及可溶性糖含量则随胚的发育而下降,其它大分子物质含量在胚发育前期升高,进入心形胚时,这些物质达到最高峰;到鱼雷胚时,这些物质含量开始下降,直到胚基本分化完全时,降到最低点;只有酸性蛋白质含量一直保持增长。