EMS处理对小麦种子萌发和幼苗生长的影响

甲基磺酸乙酯(EMS)是一种常用的诱变剂,在作物诱变育种上应用广泛。EMS在诱变种子的同时也是一种非生物胁迫,能显著降低种子的发芽率。该实验以小麦‘扬麦15’种子为实验材料,设置了7个EMS浓度处理梯度(0%、0.6%、0.8%、1.0%、1.2%、1.4%和1.6%),每个浓度设置3个处理时间(10 h、12 h、14 h),在种子萌发后测定发芽势和发芽率,并对种子进行生物量测定和形态结构观察,探讨EMS处理对小麦种子萌发和幼苗生长的影响机制。结果表明：(1)随着EMS浓度的提高和处理时间的延长,小麦种子的萌发率逐渐降低;幼苗的生长逐渐变得缓慢,根长和叶长明显变短。(2)随着EMS处理浓度的升高和处理时间的延长,小麦种子胚乳内淀粉体的降解速率变缓。(3)同一处理时间下,EMS的浓度越高,小麦根系越短,根部横截面积、维管束面积以及皮层面积也越小。研究发现,EMS处理会明显降低小麦种子的发芽率,减缓种子贮藏物质的降解速度,抑制小麦根系的生长。     

EMS诱变玉米突变体苗期生理生化特性研究

实验分别选取四种白色突变玉米白1、白2、白3、白4为材料,以诱变的非突变玉米为对照。分析了玉米的代谢特性和抗性。结果表明突变体的代谢及抗性没有非突变体强,但我们也发现,在四种白色突变体中,白2表现突出。白2幼苗根系活力,叶绿素含量,POD、SOD活性,脯氨酸含量均比对照高,而加MDA含量比对照低,说明在四种突变体玉米中白2苗期表现出对环境的适应能力提高,且抗性增强。     

甲基磺酸乙酯对水稻萌发种子的生理效应

用不同浓度的EMS处理预浸泡的水稻种子,对水稻萌发种子细胞内呼吸代谢有明显的影响。低剂量的EMS刺激呼吸,提高细胞色素氧化酶和α-淀粉酶活性,从而促进了种子萌发和幼苗生长。较高剂量的EMS抑制呼吸以及与之有关的细胞色素氧化酶、α-淀粉酶和过氧化物酶等多种酶活性,科子发芽势和发芽率、幼苗生长高度和根系活力也随之下降。实验结果表明,EMS对细胞呼吸以及上述三种酶类活性的影响是导致水稻种子发芽率和幼苗生长高度、根系活力改变的重要生理原因。     

EMS和^60Co对海甘蓝种子萌发及其M1代农艺性状的影响

用ＥＭＳ及＾６０Ｃｏ处理海甘蓝种子,对其萌发种子细胞内呼吸代谢有明显的影响。低浓度的ＥＭＳ或低剂量的＾６０Ｃｏ刺激呼吸,可提高抗坏血酸氧化酶和过氧化物酶的活性,促进种子的萌发和幼苗的生长。较高剂量的ＥＭＳ和＾６０Ｃｏ抑制呼吸,与之有关的抗坏血酸氧化酶和过氧化物酶的活性,种子发芽势和发芽率、幼苗生长高度和根系活力等随之下降,用不同剂量的ＥＭＳ和＾６０Ｃｏ处理海甘蓝种子,对Ｍ１代的产量和抗病性等有一定     

EMS诱变甘蓝型油菜M_2代群体的表型突变研究

利用4种浓度EMS处理甘蓝型油菜NJ7982种子,选取其中诱变效果好的处理(0.4%EMS),研究其后代突变型和突变频率。对4.8万株的M2代群体鉴定结果表明,6种器官性状在群体中均出现了突变。子叶突变性状包括3子叶、子叶黄化等,占群体的0.22%;叶片突变性状包括黄化叶、白化叶、紫色叶、上卷叶、下卷叶等,占0.74%;花器突变性状包括紫色花蕾、死蕾、3花瓣、6花瓣、白色瓣、花瓣黄白镶嵌、花瓣皱缩、完全不育、部分可育等,占9.38%;株型突变性状包括矮秆、紫茎等,占4.98%;角果突变性状包括粗角、长角、紫角等,占2.79%;种皮黄色,占0.40%;总的表型突变频率为18.51%。这些遗传多样性的突变材料,为甘蓝型油菜种质创新及品种遗传改良提供基础性材料。     

蝴蝶兰EMS离体化学诱变及再生植株RAPD检测

用EMS对离体培养的蝴蝶兰类原球茎薄切片进行化学诱变,研究了不同浓度、不同时间诱变处理对类原球茎薄切片生长、类原球茎再生及再生苗生长的影响,并对再生苗DNA进行了RAPD检测。结果表明,诱变剂EMS对类原球茎薄切片生长产生重要影响,部分薄切片褐化死亡,再生类原球茎生长受到抑制,再生苗数量减少,表现出明显的伤害作用,这种伤害作用随诱变剂浓度的加大和处理时间的延长而加重。诱变剂EMS使部分再生苗畸变,叶片皱缩、变厚。并产生2株叶形、叶色突变体。部分再生苗表现出RAPD图谱带型的多态性,暗示DNA序列发生了一定的变异。EMS适合诱变剂量为浓度0．4％处理2d～4d。     

甘蓝型油菜EMS诱变及多分枝和长角突变体分析

油菜是世界上最重要的油料作物之一,同时也是我国食用油和饲用蛋白质的主要来源。采用0.8%甲基磺酸乙酯(ethyl methane sulfonate,EMS)溶液处理甘蓝型油菜玻里马胞质雄性不育系(pol cms)的保持系2B种子,从田间M_2诱变群体中筛选获得1 495个变异株,包括叶色、叶型、早花、株高和株型、雄性不育、裂蕾、花瓣形状和颜色、多分枝和长角等变异性状,占M_2诱变群体的7.4%。对多分枝和长角突变材料的农艺性状进行观察和统计分析,结果表明多分枝突变材料平均一次有效分枝比野生型多1.03倍,单株产量增加41.48%;长角突变材料角果长度为野生型的1.69倍,但果粒数无差异,单株产量提高49.66%。研究结果为今后进一步发掘这些突变性状相关基因,并应用于油菜品种改良奠定了基础。     

甲基磺酸乙酯及^60Co对海甘蓝萌发种子的生理效应

海甘蓝种子经低浓度（０．１％）的甲基磺酸乙酯（ＥＭＳ）或低剂量的（６０ｋＲ）＾６０Ｃｏ处理后,呼吸速率增加,不血酸氧化酶和过氧化物酶活性提高,了萌发和幼苗生长也受到促进。较高２的ＥＭＳ或高剂量＾６０Ｃｏ则抑制呼吸,不血酸氧化酶和过氧化麦活性、种子发芽势和发芽率、幼苗生长率度和根系活力等也随之下降。     

高粱EMS诱变及突变体筛选、鉴定

突变率和突变类型是突变体表型筛选和构建饱和突变体库的重要依据。采用不同时间和不同浓度甲基磺酸乙酯(EMS)处理高粱品种BTx623的种子,突变率和突变类型差异较大。突变类型可分为叶色、叶形、穗型、育性及生育期等,变异类型较丰富。根据处理后种子出苗率、结实率和突变率的情况,最终确定20 h+EMS 0.2%为最佳的诱变处理时间和浓度。但构建饱和突变体库,建议采用多浓度多时间处理方式。     

Investigation on Embryology of Anemarrhena asphodeloides

Anemarrhena asphodeloides Bunge is the only species of Anemarrhena in Liliaceae, which possesses three stamens. The flowers in this species have following features: (1) Crystalliferous cells are present in the perianth and the filament. (2) Epidermal cells of filaments and the inner perianth appears verruciform. (3) In longitudinal section, a number of the multicellular hairs were found in the apex of the inner perianth. The above characteristics of Anemarrhena are possibly important and differ from those of the other genera in Liliaceae. The main aim of the present paper is to deal with the female gametophyte and embryogenesis in Anemarrhena. The development of embryo sac is similar to that of Ornithogalum (Tilton et al., 1981), belonging to the Polygonum type, but there is a short embryo sac haustorium at the antipodal end. Before fertilization the two polar muclei fuse into a secondary nucleus. The filiform apparatus was found in the synergid. The early development of proembryo in Anemarrhena is similar to that of Najas (Hu, 1982). After fertilization the zygote has a short stage of dormancy. When the endosperm has 12-16 free nuclei, the first division of the zygote takes place, forming an apical cell and a basal cell. Then the apical cell undergoes transversal divisions 2 or 3 times, forming a line of three to four cells. The basal cell usually does not further divide. The endosperm formation in Anemarrhena is the Helobial type. The small chalazal chamber is usually ephemeral and 2-4-nucleate, while the large micropylar one may be a multi-nucleate before wall formation.     

The Ultrastructural Aspect of Tapetum and Ubisch Bodies in Anemarrhena asphodeloides

From ontogeny of tapetum in Anemarrhena asphodeloides, the ultrastructnral features of tapetal cells are as follows: 1. The profuse rough endoplasmic reticula are often closely associated with lipid bodies and vesicles, and linking each other into compound organelles. This is one of the striking features in Anemarrhena tapetal cell. 2. After meiosis of the micro- spore mother cell, the tapetal cytoplasm contains a large number of vesicles, in which the electron opaque substances are accumulated. Then they fuse to form a large zone of storage material similar to lipid bodies. Before accumulation of opaque material, these vesicles in the tapetal cytoplasm are larger than those in elaioplast (see Plate II, Fig. 2). 3. During stage of pollen maturation the tapetal cytoplasm becomes disorganized and the cells are almost occupied by the elaioplasts at various degree of development. On the basis of the report of Dickinson (1973), the formation of a pollen coatings of Lilium is different from that of Raphanus. The osmiophilic bodies in the former have originated from membrane lamellae or membranous system of plastid, and those in the latter are formed from the plastid vescles. It is intereting to note that the mode of origin of the plastid osmiophilic bodies in Anemarrhena is rather similar to that of Raphanus than to Lilium. About the origin of the pro-Ubisch bodies in tapetal cytoplasm of Anemarrhena studies revealed that a large number of the medium electron dense bodies appear in the tapetal cytoplasm. This is the first sign of the formation of the pro-Ubisch bodies and its character is very similar to spherosome in many respects. From many ultrasections, it can be seen that the ER profile is closely associated with the pro-Ubisch bodies. Thus we can conclude that the proubisch bodies of Anemarrhena are derived from rough endoplasmic reticulum. Although Heslop-Harrison et al. (1969) has considered that the compound Ubisch bodies do not occur in Lilium, there are prominent aggregation of Ubisch bodies in Anemarrhena, same as reported in Oxalis (Cariel, 1967), Silene (Heslop-Harrison, 1963a) and Helleborus (Echlin et al., 1968). After investigation on certain angiosperm in 1972, Gupta and Nanda have reported that the peritapetal membrane belonging to tapetum of secretory type lies against the inner tang- ential wall; in the plasmodial type of tapetum, it is formed on the outer tangential wall. But in some species of Poaceae and Solanaceae, the peritapetal membrane is formed on both sides of the tapetal cells (Banerjee, 1967; Reznickov & Willemse, 1980). In the secretory tapetum of Anemarrhena, the peritapetal membrane, which do not comply with the conclusion of Gupta & Nanta (1972), is formed on outer tangential wall.     

KT和NAA对知母愈伤组织再分化的影响

以知母愈伤组织为材料,采用单因子试验方法,探讨不同浓度KT和NAA对其再分化的影响。结果表明:知母愈伤组织生根的最佳培养基为MS+KT 2 mg/L;愈伤组织再生芽的最佳培养基为MS+KT 2 mg/L+NAA 1 mg/L;愈伤组织再生苗长高的最佳培养基为MS+KT 2 mg/L+NAA 0.5 mg/L;愈伤组织增殖的最佳培养基为MS+KT 2 mg/L+NAA 1 mg/L。     

知母分蘖一步法快速繁殖体系的初步构建

以知母分蘖为试材,对知母的一步法快速繁殖体系进行了初步研究。结果表明,知母分蘖直接再生植株的最佳培养基是MS+KT 1 mg/L+NAA 0.5 mg/L;知母分蘖愈伤组织诱导和再生的最佳培养基是MS+KT 2 mg/L+NAA 0.5 mg/L。本实验构建了知母分蘖的一步法快速繁殖体系,为知母试管苗的工厂化生产提供了理论和技术基础。     

The apoptotic effect of sarsasapogenin from Anemarrhena asphodeloides on HepG2 human hepatoma cells

Sarsasapogenin, a kind of mainly effective components of Anemarrhena asphodeloides Bunge (Liliaceae) has the effects of being anti-diabetes and improving memory. However, there are few reports focusing on its anti-tumor effects. In this study, the sarsasapogenin was extracted from rhizomes of A. asphodeloides Bunge and applied to inhibit HepG2 human hepatoma cells. MTT assay showed that sarsasapogenin induced a distinct dose- and time-dependent diminution of cell viability with IC(50) of 42.4+/-1.0microg/ml for 48h. Furthermore, sarsasapogenin-induced apoptosis of HepG2 cells was verified by Hoechst 33258 staining, electron microscopy, DNA fragmentation and PI staining. Flow cytometry analysis showed that sarsasapogenin-induced cell apoptosis was through arrest of cell cycle in G(2)/M phase. Hence we proposed that sarsasapogenin could be used as an anti-liver cancer drug for future studies.     

KT和2,4-D对知母愈伤组织再分化的影响

本文探讨KT和2,4-D组合对知母愈伤组织再分化的影响。结果表明：知母愈伤组织再生芽和促进再生苗长高以及愈伤组织增殖的最佳培养基均为MS + KT 4.0 mg/L。单独使用KT或KT与2,4-D组合均可抑制知母愈伤组织生根。     

Identification of nyasol and structurally related compounds as the active principles from Anemarrhena asphodeloides against respiratory syncytial virus (RSV)

Three known phenolic compounds, (-)-(R)-nyasol (= 4,4'-(1Z,3R)-Penta-1,4-diene-1,3-diyldiphenol; 1), its derivative 2, and broussonin A (3)--isolated from the rhizomes of Anemarrhena asphodeloides--were for the first time identified as the active principles capable of efficient respiratory-syncytial-virus (RSV) inhibition. The IC50 values of 1-3 against the RSV-A2 strain, propagated in HEp-2 cells, were determined, their activities being higher than that of the standard antiviral drug ribavirin (IC50 = 1.15 microM). In addition, the known, but inactive, compound 'trans-N-(para-coumaroyl)tyramine' (= (2E)-3-(4-hydroxyphenyl)-N-[2-(4-hydroxyphenyl)ethyl]prop-2-enamide; 4) was isolated from this plant for the first time.     

Investigation on the Development of Male Cametophyte in Anemarrhena Asphodeloides

Anemarrhena asphodeloides is a monotypic genus of Liliaceae, endemic to China and Korea. This genus is characterized by possessing three stamens. From development of male gametophyte, three features of the species are noteworthy. (1) During meiosis of the micros- pore mother cells, the Golgi vesicles are immediately incorporated into the formation of the material of callose wall; The latter lying at the outer tangential is about 4 gm in thickness dining formation of the tetrad. In the outer tangential callose wall there are certain cytoplasmic canals, which are about 0.6 to 1 μm in diameter. During the development of pollen grains, there are a number of other vesicles dispersing in the cytoplasm of the microspores. The activity of these vesicles seems to be involved in accumulation and formation of lipid bodies. But the above vesicles, which were derivxed from Golgi or endoplasmic reticulum, have not been known in this genus. (2) By two-celled stage of pollen grains, the unequal distribution of lipid bodies is very prominent, and they are singular in being placed on the boundary between the plasmalemma of vegetative and generative cells. While the generative cell is delached from the intine of pollen grain, the generative cell is surrounded by the lipid bodies which had been called the corona of them. By the observation of TEM, these lipid bodies come from the cytoplasm of vegetative cell and did not remain a constant surrounding layer. Towards the stage of pollen maturation, the lipid bodies lying oppositely to the nucleus of vegetative cell were gradually dispersed in the cytoplasm. Their function is unknown but the observation shows that some of them move to the plasmalemma of the pollen grain. (3) An important feature of the mature pollen grain in Anemarrhena is that the generative cell does not contain plastids during polle development. On the basis of cytological mechanisms of the plastid inheritance, Hagemann (1983) has classified the angiosperms into four groups of species, of which the Lycopersicum type, Solanum type, and Triticum type belong to the mode of a uniparental maternal inheritance of plastids; while the Pelargonium type represents the mode of biparental inheritance of plastids. Our studies have confirmed that the mode of plastid inheritance in Anemarrhena asphodeloides is similar to Gasteria verrucosa, both show the same mode of plastid inheritance of Lycopersicum type.     

等渗的盐分和水分胁迫对杠柳种子萌发的影响

通过等渗的NaCl和PEG溶液模拟盐分和水分胁迫,设置渗透梯度,在控制条件下对杠柳种子的萌发过程中总萌发率、幼苗鲜重、胚根生长、种子活力、发芽值等指标系统研究,对种子萌发率与渗透势之间关系进行回归分析,主要结果包括：（1）杠柳种子萌发过程中总萌发率、幼苗鲜重、活力指数和发芽值四项指标均随NaCl和PEG溶液的渗透势降低逐渐下降,综合研究活力指数和发芽值表明渗透势≥-0.5 MPa和≤-1.4 MPa时,PEG对种子萌发抑制作用大于NaCl,其他情况相反;（2）杠柳种子逐日萌发率和胚根日变化研究表明,与NaCl相比,PEG推迟杠柳种子萌发,并且对胚根增长抑制作用较大;（3）建立盐分和水分胁迫条件下种子萌发率与渗透势回归方程,发现杠柳种子在PEG胁迫下的萌发临界值和极限值为-1.0和-1.4 MPa,在NaCl胁迫下是-0.9和-1.3 MPa,解除胁迫条件,不同处理的杠柳种子复水萌发率均达到100%。说明杠柳具有良好的耐盐抗旱的特性。