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1.
小花盾叶薯蓣甙的酶降解 总被引:10,自引:0,他引:10
从小花盾叶薯蓣 (DioscoreaparvifloraC .T .Ting)的新鲜根状茎中分离到一个新的呋甾烷型配糖体 ,命名为小花盾叶薯蓣甙 (parvifloside) (1) ,其结构通过波谱和化学方法鉴定为 :(2 5R)_2 6_O_β_glucopyranosyl_furost_5_en_3β ,2 2 ξ ,2 6_triol 3_O_β_D_glucopyranosyl (1→ 3)_β_D_glucopyranosyl (1→ 4 )_[α_L_rhamnopyranosyl (1→ 2 ) ]_β_D_glucopyra noside。化合物 1在纤维素酶粗酶和 β_葡萄糖苷酶中进行水解 ,得到降解产物 2 - 7。对 1的酶解现象进行了讨论。同时 ,对所分离的甾体皂甙的抗稻瘟霉菌活性进行了初步筛选。 相似文献
2.
从小花盾叶薯蓣(Dioscorea parviflora C. T. Ting)的新鲜根状茎中分离到一个新的呋甾烷型配糖体,命名为小花盾叶薯蓣甙(parvifloside) (1),其结构通过波谱和化学方法鉴定为:(25R)-26-O-β-glucopyranosyl-furost-5-en-3β, 22ξ, 26-triol 3-O-β-D-glucopyranosyl (1→3)-β-D-glucopyranosyl (1→4)-[α-L-rhamnopyranosyl (1→2)]-β-D-glucopyranoside.化合物1在纤维素酶粗酶和β-葡萄糖苷酶中进行水解,得到降解产物2-7.对1的酶解现象进行了讨论.同时,对所分离的甾体皂甙的抗稻瘟霉菌活性进行了初步筛选. 相似文献
3.
黄亚辉 《中国野生植物资源》2010,29(5):50-54
大部分盾叶薯蓣为雌雄异株植物。在湖南省长沙市气候条件下,雄花花期为4月初至9月中。雄花花器小,每日17:30~19:30开放。小孢子母细胞减数分裂过程中,细胞质分裂为连续型,四分体为十字形。花药壁发育过程中,中层两层细胞紧贴,解体较早;绒毡层为腺质绒毡层,兼有部分变形绒毡层特征。 相似文献
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对国内盾叶薯蓣资源概况、分布范围、生态环境、化学成分、品种选育、组织和细胞培养等研究现状进行评述.盾叶薯蓣是我国特有的甾体激素类药源植物,也是世界上薯蓣皂甙元含量最高的资源植物,广泛分布于北亚热带及中亚热带地区.适宜生长区为陕西南部和湖北武当山区,在海拔400~700m、年平均温度16~18℃、年降水量800~900mm、相对强光913~1004μmol·m-2·s-1之间的山地棕壤和山地黄壤等腐殖质深厚的近酸性土壤中生长较为适宜;由于其长期对环境条件的适应,形成了分化显著的生态型,并且在形态特征与遗传特性等方面表现显著,据此已选育出多个栽培品种;组织培养技术是进行种苗生产、品种培育的有效途径,也是工业化皂甙生产的有效途径;薯蓣皂甙主要分布于根状茎中,根状茎主要由周皮、基本组织和散生在基本组织中的维管束三部分组成,周皮细胞的分裂和体积增大使根状茎迅速生长,薯蓣皂甙主要分布于基本组织薄壁细胞中;影响盾叶薯蓣皂甙含量的因素主要有分布区、海拔、土壤、水分、温度、光照等环境因子,也有株间差异、生长时间、生育期、开花时间、根状茎水分含量及形态等自身因子. 相似文献
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6.
为探讨盾叶薯蓣类原球茎形态建成的发育机理及植株移栽成活率高的原因,对盾叶薯蓣离体培养条件下形成类原球茎的形态发生过程进行形态学和石蜡切片组织学观察,并与不定芽的发生进行比较。结果表明:类原球茎是由愈伤组织中致密的卵圆形胚性细胞团分化出芽原基和鳞片叶,随后出现初生增厚分生组织和原形成层(维管束原),其类原球茎形态建成。不定根的发生为内起源,其维管组织与类原球茎的维管组织相连接,故移栽成活率高。而不定芽为愈伤组织表面的胚性细胞分裂产生的分生细胞团分化而来,其不定根通常发生在茎基部形成的愈伤组织表面,故不易成活。 相似文献
7.
利用石蜡切片法对盾叶薯蓣根状茎进行了发育解剖学研究。盾叶薯蓣的二年生根状茎主要由三部分组成:周皮、基本组织和散生在基本组织中的维管束。周皮由木栓层、木栓形成层和椎内层组成;基本组织都由薄壁细胞组成;维管束无束中形成层,属于有限维管束,成熟的维管束由厚壁组织细胞形成的维管束鞘包围。根状茎顶端的原分生组织由3-5个鳞状包被。其衍生细胞分化为原表皮、基本分生组织和散生的原形成层束。以后由它们分化为表皮,基本组织和散生的维管束构成的初生结构,根状茎顶端下方的原表皮内存在初生增厚分生组织。初生增厚分生组织细胞不断向内分裂和其衍生细胞的体积增大,是根状茎能迅速增粗的主要原因。 相似文献
8.
盾叶薯蓣是一种极具开发潜力的药物资源。从根茎繁殖 ,种子繁殖 ,田间管理 ,病虫害防治等几个方面详细总结了盾叶薯蓣的人工栽培技术。 相似文献
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盾叶薯蓣营养器官薯蓣皂甙元含量的动态变化 总被引:2,自引:0,他引:2
利用高效液相色谱(HPLC)法对盾叶薯蓣营养器官特别造根状茎中薯蓣皂甙元含量的动态变化、品种之间的差异以及雌雄株之间的差异进行了研究。结果表明:实生苗根状茎中薯蓣皂甙元的含量,2年生高于1年生;根茎营养繁殖的2年生根状茎中皂甙元的含量高于1年生的含量;花叶品种的含量高于绿叶品种的含量;雄株的含量比雌株的含量高。在地上的缠绕茎和叶中没有检测到薯蓣皂甙元。由根茎繁殖的1年生根状茎前期皂甙元含量增加缓慢,后期增加较快;2年生根状茎盛花期含量最高,开花后期含量最低,随后含量逐渐增加。为此应在花叶品种中选择产量高、抗性强的品种作为栽培品种。合适的采挖期仍以地上缠绕茎枯萎期为宜。 相似文献
10.
为研究新工艺提取盾叶薯蓣薯蓣中薯蓣皂甙元的最佳实验指标,以薯蓣皂甙元得率为评价参数,采用6因素5水平的正交实验,用分光光度法对25种提取方法所得到的薯蓣皂甙元进行比较分析。结果表明,硫酸浓度对薯蓣皂甙元提取的影响最大,在实验室条件下,可采用20g样品加甲醇回流提取4h,回流速度为10min/次,用2.5mol/L的硫酸水解6h,120号溶剂汽油回流提取2h,回流速度为15min/次,能清洁快速提取盾叶薯蓣中的薯蓣皂甙元。 相似文献
11.
短葶飞蓬减数分裂、雄配子体发育过程及其对应的花部形态特征 总被引:1,自引:0,他引:1
运用压片-透明法对短葶飞蓬(Erigeron breviscapus)小孢子母细胞减数分裂、雄配子体的发育过程进行了观察,并探讨了它们与花部形态特征的关系。结果表明,短葶飞蓬小孢子母细胞减数分裂的胞质分裂为同时型,四分体主要为四面体型,成熟花粉为3-细胞型;花序和花蕾形态变化与减数分裂、雄配子体的发育时期具有一定相关性,其中花蕾的长度可有效确定该花蕾中减数分裂与雄配子体发育时期。 相似文献
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A basic developmental framework of the Larix leptolepis Gord male gametophyte is presented in detail by squashing technique. The duration of the meiosis stage was more than 6 months,
and included a long diffuse stage during winter. This long duration of the diffuse appearance of the diplotene stage makes
L.
leptolepis a unique suitable experimental material for studying the structure and function of the diffuse stage of meiosis. In particular,
the processes of desynapsing and unpairing, which so far have received little attention, can be examined in detail. In L. leptolepis, the chromosomes undergo a dramatic structural reorganization during the diffuse diplotene stage. Based on the clearly visible
differences in chromosome morphology, the diffuse diplotene stage was divided into four periods with suggested nomenclature
as follows: schizonema, pre-diffuse diplotene, diffuse diplotene and post-diffuse diplotene. Both simultaneous and successive
microsporogenesis were observed within L. leptolepis, and there was no strict relationship between the microsporogenesis types and the tetrad configurations, which are strongly
influenced by spindle orientation, especially during meiosis II. The mature pollen grain at pollination consists of five cells
aligned in an axial row. The prothallial cells cannot be regarded as senescent cells because they remain capable of division.
S.-G. Zhang and W.-H. Yang have contributed equally to this work. 相似文献
13.
The floral bud of Cornus officinalis Sieb. et Zucc. began to differentiate at the end of April. In the beginning of November, female and male gametophytes reached their maturation. The flowers fell off in the following March. The wall of the microsporangium comprised epidermis, endothecium, two or three middle layers and a single layer of amoeboid tapetum with two nuclei. The extra-tapetal membrane was formed during the later stage of the development of anther. Meiosis of microspore mother-cell was normal and cytokinesis was of the simultaneous type. The tetrad was tetrahedral in shape. The mature pollen grains were 2-celled and 3-colporate. The ovule was unitegminous and tenuinucellate. During the development of the ovule, some special structures were formed, e. g. hypostase and obturator which originated from the integument. A single archesporium differentiated immediately below the nucellar epidermis. It functioned directly as the megaspore mother-celL This cell under went meiosis to form a linear tetrad. The chalazal megaspore was functional. The development of the embryo sac was conformed as the polygonum type. Two polar nuclei fused into the secondary nucleus and 'three antipodal cells degenerated soon after the embryo sac reached its maturation, at that time the female gametophyte had become an embryo sac which consisted of only four cells each with a nucleus just before two months of blooming. The nuclei of some synergids located in the chalazal part of the cells. Contrarily, the micropylar past of the synergids were occupied by a large vacuole. The secondary nucleus was usually located in the chalazal part of the embryo sac. 相似文献
14.
Observed in this paper was the development of the microspore and megaspore, male and female gametophytes in Sinojakia xylocarpa, which is endemic to China. The anther comprises four microsporangia. Microspore wall forms simultaneously after meiotic division in PMCs. The arrangment of microspore in a tetrad is tetrahedral. Bicel lular pollen grains appear at the shedding stage. ‘They are 3-colporate, with irregular min ute-faveolate exine sculpture. The anther wall development is of the dicotyledonous type, and its endothecitum develops slight fibrous thickenings, which also form on some epidermal cells. The tapetum is glandular. The pistil with hollow style is composed of three carpels, and its ovary contains several anatropous ovules. The ovule is unitegmic, tenuinucellar, but no obturator was observed. The archesporial cell functions directly as the megaspore mother cell which forms a linear tetrad, but T-shaped tetrad was found in a few ovules. A Polygonum type embryo sac forms from the functional chalazal megaspore. In the mature embryo sac, the synergids are elongate with a large vacuole at the chalazal end, but the distrihution of vacuoles in the egg cell appears random. Two polar nuclei remain in contact with each other for a spell before the fertilization and the 3 antipodal cells may persist into early postfertilzation stages. Numerous starch gra ins occur in the embryo sac. According to the present embryological studies on Sinojakia xylocarpa and the works on embryogenesis by some early embryologist, authors consider that Styracaceae, Symplocaceae, Sapotaceae and Ebenaceae are rather closely related, and we alsoconsider it reasonable to put the 4 families mentioned above in Ebenales. 相似文献
15.
花生雌雄两性细胞发育关系的研究 总被引:2,自引:0,他引:2
本试验结果表明 ,雌雄配子体形成过程和程序与前人结论相一致 ,但发现 :1 )尽管雌雄蕊同时形成 ,但在雌雄配子形成不同步的情况下 ,花粉和胚囊中的大量淀粉却能同时充实 ,并且同时成熟等待受精。 2 )大孢子母细胞形成比小孢子母细胞迟 0 .7~ 0 .8片展叶 ;雌配子体形成比雄配子体迟 0 .5~ 0 .6片展叶。 3)雌雄两性细胞发育特点不同 ,雄性是小孢子形成快而花粉粒发育慢 ,雌性是大孢子形成慢而胚囊发育快 ,为此在所用时间上 ,花粉粒发育约是小孢子形成的 1 .6倍 ,是胚囊发育的 2 .3倍 ,而大孢子形成约是胚囊发育的 2 .2倍 ,约是小孢子形成的 1 .4倍。 相似文献
16.
Four steroidal saponins were isolated from rhizomes of Dioscorea parvi- flora Ting collected from Yunnan Province. Their chemical structures have been elucidated by means of chemical and spectrometric analyses as gracillin [Ⅰ]; deltonine [Ⅱ]; protogracillin [Ⅲ] and deltoside [Ⅳ]. Deltoside is the first time obtained in pure state from Dioscorea plants. 相似文献
17.
珠毛蟹甲草的大小孢子发生及雌雄配子体发育 总被引:10,自引:0,他引:10
珠毛蟹甲草 ( Parasenecio roborowskii)是菊科千里光族中款冬亚族蟹甲草属的一种植物 ,在藏药上全草入药 ,有治疗哮喘等疾病 〔1〕之功效。本文首次观察了珠毛蟹甲草的大小孢子发生、雌雄配子体的发育 ,旨在为开发与利用该种植物提供有性生殖过程方面的基础资料。1 小孢子发生与雄配子体发育花药有 4个药室。小孢子母细胞来源于花药原基的下表皮细胞。孢原细胞经平周分裂形成初生壁细胞和初生造孢细胞。初生壁细胞平周分裂形成两层 :内层发育为绒毡层细胞 ,外层再分裂一次形成药室内壁与中层 ,成熟的花药壁细胞由表皮、药室内壁、中层和… 相似文献