Studies on Morphological Differentiation of Endosperm Plantlets of Chinese Gooseberry in Vitro

The present report deals with the process of embryoid induction and plantlet formation from cell-type endosperm of Actinidia chinensis var. chinensis and A. chinensis var. hispida. The callus was induced from endosperm on MS basic medium supplemented with zeatin 3 ppm, 2,4-D 0.5 ppm and CH 400 ppm and then transferred to differentiation medium of MS supplemented with zeatin 1 ppm and CH 400 ppm. After about half a month, the embryoid appeared from callus and then developed into plantlets. It could be seen from the histological figure 14—15, the embryoid of Chinese gooseberry is linear-shaped and consists of cells arranged in a long line in callus. When the cells regenerated at botk ends of the linear-shaped embryoid, the polarity of the embryoid is easily distinguished. The plantlets produced from embryoid appear rather stout at first and after some time, they changes gradually into normal plantlets.     

A comparative morphological observations of Actinidia chinensis Planch. var. chinensis and A. chinensis Planch. var. hispida C. F. Liang

A comparative observations of the morphology on the stem, winter bud, fruit, pollen grains of A. chinensis Planch. var. chinensis and A. chinensis Planch. var. hispida C. F. Liang have been made and the obvious differences in these aspects are obvious. In stem tissue culture, the frequency of calli induced and plantlets produced of A. chinensis Planch. var. hispida is also higher than that of A. chinensis Planch. chinensis. For this reason we suggest to raise A. chinensis Planch. var. hispida as a newspecies.     

Studies on Stem Tissue Culture and Organgenesis of Aloe vera

tem segments of Aloe vera were cultured on MS medium with different hormones and successfully regenerated into a large number of plantlets via callus-globoid-adventitious bud. In application of various cytokinins, the effect of zeatin on organgenesis was better than kinetm and the enhanced effect was apparent when NAA was combined with zeatin or kinetin on MS medium. The best results were obtained on the medium with zeatin 2ppm+NAA 0.5ppm. With scanning electron microscope and histocytological method the observation showed that the globoid which is a cell mass with hollow on the top originated from the surface of callus. After differentiation of scale primordium twice, the primordium of adventitious bud was formed between scale primordia. Finally, the adventitious bud was developed into plantlet. Therefore the globid can be considered as a proliferation unit producing adventitious bud.     

江西铅山红芽芋脱毒苗球茎愈伤组织诱导及其再生体系的建立

以江西铅山红芽芋脱毒苗为试材,研究不同因素对红芽芋脱毒苗球茎愈伤组织诱导及其再生体系的影响,以期对红芽芋脱毒苗的再生体系进行优化。结果表明,红芽芋脱毒苗球茎愈伤组织诱导的最佳培养基是MS+TDZ 2 mg·L^-1+2,4-D 1 mg·L^-1。红芽芋脱毒苗球茎愈伤组织分化的最佳培养基是MS+TDZ 2 mg·L^-1+NAA 1 mg·L^-1。红芽芋脱毒苗不定芽生根的最佳培养基是1/2MS+NAA 0.5 mg·L^-1+PP₃₃₃ 0.5 mg·L^-1。红芽芋再生苗最好的移栽基质为发酵后的腐锯木屑。红芽芋脱毒苗球茎愈伤组织再生苗移栽时最佳的PP₃₃₃浓度为20～50 mg·L^-1。本试验成功建立了红芽芋脱毒苗球茎愈伤组织的再生体系,为红芽芋脱毒苗转基因的研究和种质创新奠定了基础。     

黄槐叶片培养过程中器官发生的研究

以黄槐（ＣａｓｓｉａｓｕｒａｔｔｅｎｓｉｓＢｕｒｍ．ｆ．）幼嫩叶片为材料,接种于ＭＳ＋ＮＡＡ１ｐｐｍ＋２,４－Ｄ１ｐｐｍ＋６－ＢＡ２ｐｐｍ的培养基上,诱导形成两种形态的愈伤组织,即致密愈伤组织与雪花状愈伤组织．将愈伤组织转移到ＭＳ＋ＮＡＡ：１ｐｐｍ＋６－ＢＡ２ｐｐｍ的分化培养基上．仅致密型愈伤组织经过球状体至不定芽途径形成大量再生植株。扫描电镜及组织细胞学观察表明,致密愈伤组织表层细胞排列紧密,有许多分生细胞团,而雪花状愈伤组织表层细胞薄壁化,分裂能力很低。球状体起源于致密愈伤组织表层的分生细胞团,其细胞有极强的分生能力,顶端可以分化发育成不定芽原基,最后形成不定芽并发育成小植株。球状体可以看成是具有形成不定芽能力的繁殖单位．     

Callus Induction and Organ Differentiation in the Tissue Culture of Begonia fimbristipula Hance

This paper reports the organ differentiation in the tissue culture of Begonia fimbristipula Hance. Three types of regenerated plantlets were obtained: (1) callus differentiation, (2) growth center induced from the aseptic seedling leaf and (3) shoots were differentiated from roots developed from the callus. Callus could be obtained on SH medium as well as on MS basic medium supplemented with 2,4-D (0.1 ppm) +NAA (2.5 ppm) +KT (0.25 ppm). Experiments were carried out to compare the effects of different concentrations of sucrose on callus induction. It was found that the differentiation rate of callus was higher on MS medium than on SH medium. Comparative experiments were also carried out to find out the efficiency of callus differentiation by BA and 2ip at various concentrations. The better differentiation of callus was obtained at the range 0.25—2 ppm of BA, The cytological investigations showed that individual plantlet grown on the leaf was originated from the epidermal cells. According to our study, numerous plantlets can be obtained from a single leaf of aseptic seedlings. It is possible that this technique provides a way of rapid donal propogation of Begonia fimbristipula Hance.     

Organogenesis of Lear Explants of Momordica grosvenori Swingle In Vitro

Leaves of Momordica grosvenori Swingle were used as experimatal material. Plantlets were obtained on MS medium supplemented with 6-BA 1 ppm and IBA 0.5 ppm. Histocytological observations on adventitious bud formation were carried out. After 1 week in culture, mesophyll cells obviously enlarged, cell divisions began in the mesophyll cells near the cut ends of explants, and meristemoids which consisted of small dark stained cells without chloroplasts were produced. Then meristemoids continued to proliferate and redifferentiated into many leaf-shaped bodies. Three weeks after cultivation, adiventitious buds were produced from meristemoids at surface layer of leaf-shaped body. The stem of plantlet was cut off when it reached 2 cm in height, and then was transferred onto MS basic medium supplemented with NAA 0.25–0.5 ppm for rooting. About 10 days after cultivation, vigorous root system was produced from the cut end of plantlets. It is possible that this technique of obtaining whole plants by leaf explant culture provides a method for the multiplication of the good individual plants of M. grosvenori.     

龙凤竹的组织培养

以龙风竹[Pedilanthus tithymaloides（L.）Poit．var．nartus Dressler]茎段为外植体,研究了龙凤竹愈伤组织诱导、植株再生以及试管苗继代保存培养的培养条件。结果表明,龙风竹茎段灭菌的最佳方法是用1．0g·L^-1HgCl2处理4～10min;愈伤组织诱导与分化的最佳培养基为添加1．5mg·L^-1 6-BA和0．10～0．15mg·L^-1 NAA的MS培养基（含有30g·L^-1蔗糖和6g·L^-1琼脂粉,pH5．78～pH5．80）;试管苗生根的最佳培养基为含有0．2mg·L^-1 NAA的生根培养基（1／2MS,含有15g·L^-1蔗糖和6g·L^-1琼脂粉,pH5．78-pH5．80）,试管苗生根率可以达到93．3％;经过炼苗并移栽后,龙风竹试管苗的成活率可达95．0％以上;龙凤竹试管苗的最佳继代保存培养条件为：在含有0．1mg·L^-1 NAA的生根培养基中,于温度15℃、光照强度20μmol·m^-2·s^-1的条件下继代保存。此外,龙凤竹愈伤组织可以直接分化产生大量丛生芽,达到龙凤竹试管苗增殖的目的。     

软枣猕猴桃试管苗叶片和茎段的愈伤组织诱导及植株再生

从软枣猕猴桃试管苗茎段和叶片诱导出愈伤组织并得到再生植株。茎段外植体容易愈伤化,但其愈伤组织难以分化,叶片外植体不易愈伤化,但其愈伤组织容易分化。ＭＳ培养基分别附加ＢＡＰ、Ｋｉｎ、ＴＤＺ或ＣＰＰＵ都不能诱导芽的分化,而ＭＳ附加玉米素能有效地诱导芽分化,其中以２．０ｍｇ／Ｌ玉米素效果最好。     

南美香瓜梨离体培养快速复壮繁殖的研究

南美香瓜梨茎段被移植在ＭＳ基本培养基上,其中添加有ＢＡ６．０（ｍｇ／Ｌ以下单位相同）、ＩＢＡ０．２培养４周后增殖到３．８倍。用其嫩叶切块,在含有２,４—Ｄ０．５,ＢＡ０．２５的ＭＳ培养基上先诱导形成绿色愈伤组织,然后转入含ＢＡ６．０和ＩＢＡ０．２的ＭＳ培养基上,产生丛生不定芽。将２．５～３．０ｃｍ的不定芽切下移入含ＩＢＡ０．５与０．２％活性炭,１／２ＭＳ无机盐的培养基上,２５天后诱导生根,移栽成活率达９０％以上。     

软枣猕猴桃悬浮细胞系的建立及其影响因素

以软枣猕猴桃(Actinidia arguta Planch)叶片为试材,以MS为基本培养基,附加生长素(2.4-D、NAA)和玉米素(ZT)成功地诱导出愈伤组织,结果表明:软枣猕猴桃叶片在MS+ZT 1mg/1+2.4-D3mg/1的情况下能诱导出适合于建立悬浮细胞系的愈伤组织。并研究了愈伤组织生长年龄、激素浓度、肌醇和蔗糖浓度四个方面对建立悬浮细胞系的影响。表明愈伤组织以生长10天时接种活细胞率最高;以MS培养基附加ZT1mg/1+2.4-D3mg/1较好;肌醇以200mg/1圆形细胞频率最高;蔗糖以5%最适。     

Stem Apex Culture and Quality Improvement of Tubercles of Pinellia ternata

Formation of Plantlets was achieved when stem apex of Pinellia ternata Brier. Cultured in vitro on MS medium with KT 0. 5 mg/L + NAA 0.2 mg/L (MSI). With petioles of the plantlet as explants callus could be induced after cultured for a week on MS medium with 2, 4-D 2.0 mg/L + KT 0.5 mg/L (MSII). Calli were subcultured once in every month. After 3--4 months a kind of friable calli could be selected, from which the tubercles could be differentiate and the plantlets formed when transfered onto MSI. But before callus differentiation, a lot of roots were formed on callus. The plantlets could be produced directly from the petiole segment. It was found that the stem growing tip was always covered by the leaf primordium and the former leaf primordium was covered by the latter leaf primordium during the differentiation of the apical bud of tubercle. The frenquency of plantlet differentiation from callus and petioles was over 70%. The rate of regeneration of plantlet on liquid static culture was twice as much as that on solid culture. All plantlets grew well after being transfered into the plot. The fresh weight of tuber-plant was 103 % higher than that of control (cultivated plant come from tubers). The alkaloid content of tubers come from tuberplant was 0. 344%, that of control was 0. 203% and 0. 264% for the wild tuber.     

桂林小花苣苔离体快速繁殖技术

对抗结核植物桂林小花苣苔(Chiritopsis repanda var. guilinensis)进行离体培养与快速繁殖技术研究。结果表明: 桂林小花苣苔叶片外植体的最适初代诱导培养基为MS+0.5 mg·L^–16-BA+0.05 mg·L^–1IBA, pH8.0; 最适继代增殖培养基为 MS+0.1 mg·L^–16-BA+0.05 mg·L^–1IBA, pH6.0, 繁殖系数7.0/35天; 最适生根培养基为1/2MS+0.2 mg·L^–1NAA, pH6.0, 生根率为93.6%。模拟桂林小花苣苔自然生境, 在春季对生根试管苗进行大棚移栽, 成活率达90%。根据上述快繁技术, 理论上每株试管苗每年可繁殖桂林小花苣苔种苗46万株。     

曼陀罗茎段愈伤组织诱导和再生植株的研究

本试验以曼陀罗茎段为外植体,在附加不同植物激素组合的培养基中对愈伤组织的诱导和植株再生进行研究。结果表明:采用修改的MS培养基(除去甘氨酸,维生素B1含量增加至0.5mg/L,pH5.5)附加2mg/L2,4-D可由曼陀罗茎段诱导大量胚性愈伤组织;愈伤组织继代选用0.5mg/L2,4-D为宜;不定芽的诱导采用MS培养基(20g蔗糖,8g琼脂,0.1g水解干酪素) 6-BA(0.5mg/L);幼苗进一步转接至1/2MS IBA(0.2mg/L)生根培养基中,可完成曼陀罗茎段愈伤组织诱导和再生植株的组织培养过程。     

吊钟花的组织培养技术研究

以吊钟花(Enkianthus quinqueflorus Lour.)茎尖及带腋芽的茎段为外植体进行组织培养.结果表明,改良B5培养基(B5大量元素和钙盐+MS有机物、铁盐、微量元素)最有利于吊钟花的培养,外植体在改良B5+2,4D- 1 mg L-1的培养基中,愈伤组织诱导率可达100%.在含BA 1～2 m L-1+NAA0.1～0.5 mg L-1培养基中,可诱导产生不定芽.继代培养以改良B5+BA 1 mg L-1+NAA0.5 mg L-1培养基的增殖系数最高.生根培养基以1/2MS+IBA2 mg L-1为最佳,生根率可达80%以上.试管苗移栽成活率为90%以上.     

红叶石楠离体植株再生频率的影响因素研究

以红叶石楠带芽茎段及叶片为外植体,分析激素和培养条件等因子对愈伤组织诱导及植株再生的影响。结果表明,MS+0.10mg/L 2,4-D+0.50mg/L NAA+0.50mg/L 6-BA+0.50mg/L KT为最佳愈伤组织诱导培养基,暗培养的愈伤组织诱导率高于光培养,其愈伤组织诱导率可达100%(带芽茎段)和98%(叶片)。MS+0.50mg/L IBA+2.00mg/L 6-BA+2.00mg/L KT为最佳分化增殖培养基,分化率91%以上,增殖倍数6.8以上,均达到最高。1/2MS+0.50mg/L IBA+0.01mg/L NAA为最佳生根培养基,生根率92%,生根量4.4根/株,均达到最高。     

阳桃的组织培养与快速繁殖

以阳桃茎段为材料进行组培快繁。结果表明：阳桃离体培养的细胞分裂素以ZT的效果最好,其次是BA,KT最差;植物生长调节物质是NAA最好,其次是IBA、IAA;较适宜的植物生长调节物质配比为BA 0．5mg L^-1 NAA 0．2mg L^-1 GA 0．2mg L^-1,增殖系数高达3．7,而且畸苗率较低(23．3％)。生根培养基以1／2MS IBA 0．2mg L^-1 IAA 0．1mg L^-1效果好,生根率达87．1％,蔗糖浓度以2．0％一3．0％为宜。     

‘香槟’月季的组织培养和试管开花诱导

本文对‘香槟’月季（80sachinensis‘Xiangbin’）的组织培养技术和诱导试管开花进行了研究。结果表明：以茎段为外植体能诱导获得无菌苗,适宜的启动培养基为MS＋6-BA1．0mg-L-1＋IBA0．1mg·L-1,幼芽继代增殖的最佳培养基是MS＋6．BA1．0mg·L-1。＋IBA0．1～0．2mg·L-1,诱导生根的适宜培养基为1／2MS＋NAA0．3mg·L-1,生根率达80．0％。诱导试管开花的适宜培养基为MS＋6．BA0．5mg·L-1＋NAA0．1mg·L-1最适宜的诱导试管开花的蔗糖含量是30g·L-1;在三角瓶中培养,试管花可以正常开放,在培养瓶中培养花芽不能正常开放;MS培养基中增加2倍磷的含量,可以提高花芽诱导率,为25．O％;诱导试管开花的最适培养条件为温度21℃,光照强度80～100μmol·m-2．s-1,光照时间16h—d-1。     

廊坊杨3号快繁和转基因的再生系统

对杂交杨树新品种廊坊杨3号（Populus langfangensis 3,(P. deltoides (“Shan Hai Guan”)×((P. simonii × pyramidalys)₁₂×Ulmus pumila) 的离体叶片和茎段在附加BA、NAA、IBA和2,4-D的MS培养基上的直接和间接的器官分化、愈伤组织形成和植株再生进行了研究。叶柄和叶片最容易在叶脉处直接诱导生芽。从叶片直接诱导生芽的激素条件为1～2 mg·L^-1 BA和0.5 mg·L^-1 IBA,最高生芽率可达90%。2,4-D促进愈伤组织的形成。由愈伤组织诱导生芽的激素条件为0.3～0.5 mg·L^-1 BA 和 0.02 mg·L^-1 IBA或NAA,生芽率达76%。较好的生根条件为0.1 mg·L^-1 BA和0.2～0.5 mg·L^-1 IBA,生根率可达67％。以上再生条件为廊坊杨3号的转基因育种和无性快繁技术提供了可能。     

珍稀濒危植物蒙古扁桃的组织培养及植株再生

对珍稀濒危植物蒙古扁桃进行组织培养获得再生植株。实验结果表明,在MS培养基上蒙古扁桃幼苗茎尖,茎切段和叶片等外植体均可以脱分化形成愈伤组织,并进一步分化形成再生植株。器官的脱分化与再分化决定于培养基中的激素种类及其浓度。诱导愈伤组织形成的最适培养基为MS＋6－BA0.8mg/L NAA0.1mg/L,芽分化诱导最适培养基为MS＋6－BA0.8mg/L,诱导生根的最适培养基是MS＋IBA0.5mg/L。