文心兰原球茎液体增殖培养研究

以茎尖诱导形成的原球茎(protocorm-like bodies,PLBs)为外殖体,采用液体培养方式比较了不同浓度的激素配比、蔗糖浓度和添加不同量的新鲜椰汁对文心兰PLBs增殖的影响,并比较了相同培养基成分时液体培养PLBs增殖、分化成苗和固体培养PLBs增殖和分化成苗的差异。试验结果表明:不同浓度的外源激素及其配比对文心兰PLBs增殖生长影响较大,6-BA0.5 mg/L Ad 0.05 mg/L NAA0.05 mg/L的激素组合比较适合文心兰PLBs增殖;蔗糖浓度对文心兰PLBs增殖的影响也较大,适合文心兰PLB在液体培养条件下增殖的蔗糖浓度为7.5 g/L;添加5%新鲜椰汁不仅对文心兰PLBs增殖有促进作用,而且能改善PLBs的质量;适合文心兰PLBs增殖的培养基为MS 6-BA0.5 mg/L Ad 0.05 mg/L NAA0.05 mg/L 5%椰汁 蔗糖7.5 g/L。文心兰PLBs在5周内的增殖生长曲线呈倒"V"字形,第3周的增殖速度达最高峰,而固体培养基PLBs增殖速度较慢,生长曲线几乎成直线。液体增殖的PLBs分化成苗较固体培养增殖的PLBs差。     

杂交兰类原球茎增殖中芽分化的控制和快速繁殖

以‘玉女杂交兰’为材料,研究了培养时间、活性炭、切块大小和外源生长调节物质对类原球茎增殖和分化的影响。结果表明,培养时间、活性炭和切割处理对类原球茎增殖和分化影响显著,在培养基中添加活性炭或对类原球茎进行切割均能有效控制增殖过程中的芽分化。将类原球茎切成直径2~3 mm的小块接种到培养基MS＋1.0 mg.L-16-BA＋0.2 mg.L-1NAA＋0.3 g.L-1AC＋30 g.L-1蔗糖＋5.5 g.L-1琼脂中培养40 d,类原球茎增殖率为384.23%。将增殖后的类原球茎接种到培养基1/2MS＋1.5 mg.L-16-BA＋0.1 mg.L-1NAA＋20 g.L-1蔗糖＋5.5 g.L-1琼脂中培养40 d,芽分化率为463.06%。将分化的芽转入培养基1/2MS＋0.5 mg.L-1NAA＋0.5 g.L-1AC＋20 g.L-1蔗糖＋100 g.L-1土豆汁＋5.5 g.L-1琼脂中培养,生根率为100%,平均根分化数为2.80条.株-1。以泥炭土为基质,组培苗的移栽成活率可达97.78%。     

Efficient in vitro regeneration of fireweed,a medicinal plant

Epilobium angustifolium L. (fireweed) is a medicinal plant that has been used to treat diarrhea, mucous colitis, irritable-bowel syndrome, skin problems, prostate problems, menstrual disorders, asthma, whooping cough, and hiccups. A highly efficient and rapid regeneration system via multiple shoot formation was developed for fireweed. Explants (leaf, petiole, root, and stem segments) excised from sterile seedlings were cultured on medium supplemented with different concentrations and combinations of various plant growth regulators. Explant browning, a major problem for regeneration, was overcome by adding 100 mg/l ascorbic acid to all prepared media containing growth regulator combinations. Root explants formed more shoots than other explants. Best shoot proliferation was obtained from root explants cultured on media with 0.1 mg/l BA and 0.5 mg/l IAA. Regenerated shoots were transferred to rooting media containing different concentrations of IAA, IBA, NAA or 2,4-D. Most shoots developed roots on medium with 0.5 mg/l IAA. Rooted explants were transferred to vermiculate in Magenta containers for acclimatization and after 3 weeks they were planted in to plastic pots containing potting soil and maintained in the plant growth room.     

Plant regeneration through protocorm-like bodies induced from rhizoids using leaf explants of <Emphasis Type="Italic">Rosa</Emphasis> spp.

A new protocol for plant regeneration via protocorm-like bodies (PLBs) induced from rhizoids that developed from leaf explants of Rosa spp. (R. canina L., R. multiflora var. cathayensis Rehd. et Wils., and R. multiflora f. carnea Thory.) has been established. Rhizoids were induced from calli of leaf explants incubated under dark conditions on Murashige and Skoog (MS) medium containing 1.5 mg/l 2, 4-D. PLBs developed from the tip of rhizoids cultured under light conditions on (1/2) MS medium containing 20 mg/l TDZ. About 90, 17 and 93% of rhizoid formation were achieved for the above-mentioned Rosa spp., respectively using this protocol. The frequency of PLB clusters formation and the number of PLB clusters per explant reached 50% and 5.1 for R. canina, 46.7% and 0.8 for R. multifolra var. cathayensis, 46.7% and 4.2 for R. multiflora f. carnea, respectively. PLB clusters regenerated on MS medium supplemented with 2 mg/l 6-BA, 0.1 mg/l IBA, and 0.1 mg/l GA(3). The best result of regenerated plantlets per leaf explant achieved via PLBs for the three Rosa spp. mentioned above was 3.6, 0.1, and 1.2, respectively. Environmental scanning electron microscope and histological studies revealed that rhizoids were structurally different from roots grown in vitro, and PLBs developed from proembryos.     

The effect of ethylene inhibitors （AgNO3, AVG）, an ethyleneliberating compound （CEPA） and aeration on the formation of protocorm-like bodies of hybrid Cymbidium （Orchidaceae）

Protocorm-like bodies （PLBs） or thin cell layers （TCLs） derived from PLBs of hybrid Cymbidium Twilight Moon ＇Day Light＇ can induce new or neo-PLBs on Teixeira Cymbidium （TC） medium, which contains 0.1 mg/L a- naphthaleneacetic acid, 0.1 mg/L kinetin, 2 g/L tryptone and 20 g/L sucrose, and is solidified with 8 g/L Bacto agar. This study aimed to assess the response ofneo-PLB formation to an ethylene-liberating compound （2-chloroethylphosphonic acid （CEPA））, to two ethylene inhibitors （silver nitrate （AgNO3） and aminoethoxyvinylglycine （AVG））, and to aeration （made possible by using Milliseal~ or autoclaved filter paper）. AgNO3 at 1 or 2 mg/L in TC medium significantly increased the fresh weight of PLBs while 1 mg/L of AgNO3 also showed a significant increase in the number ofneo-PLB from both half-PLBs and from tTCLs. In contrast, AVG and CEPA inhibited neo-PLB formation. Neo-PLB formation from half-PLB or TCL explants in the presence of aeration resulted in significantly lower neo-PLB weight. The use of AgNO3 and aeration are alternative means to mass produce neo-PLBs for micropropagation purposes.     

石斛兰转ACS反义基因抗性原球茎及转化植株的筛选与鉴定

该试验就石斛兰转化ACS(1-氨基环丙烷-1-羧酸合成酶)反义基因的不同筛选方法和筛选处理对抗性原球茎筛选的影响,以及石斛兰转基因植株的再生与鉴定进行研究.结果表明:(1)石斛兰原球茎经带有gus报告基因和ACS反义基因的农杆菌LBA4404侵染共培养5d后除菌,采用逐渐提高选择压浓度的延迟筛选,并在低选择压浓度下切割而高选择压浓度下不切割的处理方式为抗性原球茎的最佳筛选途径,抗性原球茎获得率可达14.97％.(2)抗性原球茎繁殖时应逐渐降低选择压浓度,且在低选择压浓度下进行切割处理,繁殖倍数达到1.15倍,且原球茎生长势好.(3)抗性原球茎在1/2 MS+0.5 mg/L 6-BA培养基中的分化率达到73.85％;107株无根小苗培养于1/2 MS+1.0 mg/L NAA+50.0 mg/L Km(卡那霉素)+100.0 mg/L Cef(头孢霉素)培养基中进行生根培养,共获得了13株具有卡那霉素抗性的转化植株,转化效率达到12.15％.(4)转化植株经报告基因产物GUS组织化学检测和gus的PCR检测,证实带ACS反义基因的T-DNA已整合进石斛兰基因组中,且转基因植株在形态上与未转基因植株无明显差别,3株转基因植株移栽2个月后均已成活.     

Micropropagation of the Thai orchid <Emphasis Type="Italic">Grammatophyllum speciosum</Emphasis> blume

Protocorm-like bodies (PLBs) were induced from shoot tips of Grammatophyllum speciosum, a Thai orchid. The highest frequency of PLBs (93%) were observed on explants incubated on 1/2-Murashige and Skoog (MS) liquid medium containing 2% (w/v) sucrose without any plant growth regulators (PGRs). Tests with different carbon sources compared to sucrose revealed that maltose promoted the highest relative growth of G. speciosum PLBs (7-fold increase), while trehalose and sucrose yielded 5-fold and 4-fold increases, respectively. In 1/2 MS liquid medium, addition of 15 mg/l of chitosan promoted a 7-fold increase in PLB growth while 25 mg/l promoted a 4-fold increase. However, the relative growth rate in solid culture was significantly lower than that in liquid culture. In addition, chitosan supplementation in solid medium promoted shoot formation but not rooting. Plantlet regeneration was induced using a combination of NAA and BA supplementation in 1/2 MS solid medium with optimum induction shoot and root formation at 2.0 mg/l NAA and 1.0 mg/l BA. Using this protocol, approximately 8 months was required to obtain a hundred plantlets from one shoot tip. The plantlets showed no changes in ploidy when tested by flow cytometry.     

Use of protocorm-like bodies for studying alkaloid metabolism in <Emphasis Type="Italic">Pinellia ternata</Emphasis>

Highly differentiated tissue masses known as protocorm-like bodies (PLBs) have been commonly used for plant regeneration. In this study the potential use of PLBs for studying alkaloid metabolism in the Chinese medicinal herb Pinellia ternata (Thunb.) Breit. was investigated. Tuber, leaf, and petiole explants of P. ternata were incubated on Murashige and Skoog (MS) (1962) basal medium containing different combinations of α-naphthaleneacetic acid (NAA) and 6-benzyladenine (BA). It was observed that 0.5 mg/L NAA and 1.0 mg/L BA induced the highest frequency of undifferentiated PLBs from tuber explants; whereas, a combination of 0.2 mg/L NAA and 1.0 mg/L BA was best suited for inducing undifferentiated PLBs from leaf and petiole explants. When these PLBs were subcultured on solid MS medium containing 0.6 or 1.2 mg/L abscisic acid (ABA), ABA promoted proliferation of PLBs, but inhibited their germination. To elicit alkaloid biosynthesis, suspension cultures of PLBs were established in half-strength MS (1/2 MS) liquid medium supplemented with 0.6 mg/L ABA. Water extracts of PLBs collected from suspension cultures contained guanosine and inosine, two important alkaloids of P. ternata. Levels of guanosine concentrations were tenfold higher in tuber-derived PLBs compared to those in field-grown tubers; whereas, those of inosine were slightly lower in PLBs compared to those from field-grown tubers.     

寒兰的快速繁殖技术

以寒兰(CymbidiumkanranMakino)根状茎为外植体,采用B5基本培养基,并附加不同浓度的6-BA、NAA、TDZ(苯基噻二唑基脲-thidiazuron)和S-3307(优康唑-uniconazole),对类原球茎的诱导、继代增殖、分化、生根等进行研究。结果表明:诱导类原球茎的最佳培养基为B5 TDZ0.50mgL-1 NAA0.25mgL-1,诱导率98.3%;继代增殖的最佳培养基为B5 S-33071.0mgL-1 NAA0.2mgL-1 蔗糖3.5%,增殖系数9.4;类原球茎分化的最佳培养基为B5 S-33070.75mgL-1 6-BA1.0mgL-1 NAA0.4mgL-1,分化率87.8%;最佳的生根培养基为1/2B5 NAA0.2mgL-1 活性炭0.05%,生根率达100%。     

In vitro induction and proliferation of protocorm-like bodies (PLBs) from leaf segments of <Emphasis Type="Italic">Phalaenopsis bellina</Emphasis> (Rchb.f.) Christenson

An in vitro culture procedure was established to induce protocorm-like bodies (PLBs) from leaf segments of the Phalaenopsis bellina (Rchb.f.) Christenson directly from epidermal cells without intervening callus on ½ strength modified Murashige and Skoog (MS) (in Physiol Plant 15:473–497, 1962) medium supplemented with 1-Naphthaleneacetic acid (NAA; 0, 0.1, 1 mg/l) and Thidiazuron (TDZ; 0, 0.1, 1, 3 mg/l). The best response was established at 3 mg/l TDZ which induced 78% of leaf segments to form a mean number of 14 PLBs per explant after 16 weeks of culture. No PLBs were found when leaf segments were cultured on ½ strength modified MS media supplemented with 0.1 and 1 mg/l NAA. The best induction percentage for auxin: cytokinin combination was at the combination of NAA and TDZ at 1.0 and 3.0 mg/l which gave 72% induction with 9 PLBs per explant. Semi-solid ½ strength MS and liquid Vacin and Went (VW) (in Bot Gaz 110:605–613, 1949) medium were used in order to find the highest survival and number of PLBs proliferation after 3 months in culture. Half strength MS showed an average of 9 PLBs in comparison with VW with an average of 5.3 PLBs per explants. Histological observations revealed that the regenerated PLBs were generally formed from the epidermal layers of the posterior regions of the leaf segments. Scanning electron micrograph of PLBs showed the origin of newly formed PLB from the peripheral region of leaf segments.     

In Vitro Culture and Regeneration of Solanum khasianum and Extraction of Solasodine

Leaf explants of Solanum khasianum regenerated on MS medium containing 2, 4-D (3 mg/l) and kinetin (1 mg/l). Shoots could be induced from these calli on medium containing BAP (3 mg/l) alone. Rhizogenesis of these shoots occurred when transferred to medium containing 2 mg/l NAA. The yield of solasodine — a pharmaceutically important compound, from 4-month-old callus tissue was remarkable at 2 per cent of dry weight.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of North American ginseng (<Emphasis Type="Italic">Panax quinquefolius</Emphasis> L.)

North American ginseng (NAG) (Panax quinquefolius L.) is a medicinally important plant with multiple uses in the natural health product industry. As seed propagation is time-consuming because of the slow growth cycle of the plant, in vitro propagation using a bioreactor system was evaluated as an effective approach to accelerate plant production. An efficient method was developed to multiply nodal explants of NAG using liquid-culture medium and a simple temporary immersion culture vessel. The effects of plant growth regulators, phenolics, and chemical additives (activated charcoal, melatonin, polyvinylpolypyrrolidone, and ascorbic acid) were evaluated on in vitro-grown NAG plants. The highest number (12) of shoots per single node was induced in half-strength Schenk and Hildebrandt basal medium containing 2.5 mg/l kinetin, in which 81% of the cultured nodes responded. In a culture medium with 0.5 mg/l α-naphthalene acetic acid (NAA), roots were induced in 78% of the explants compared to 50% with a medium containing indole-3-acetic acid. All of the resulting plants appeared phenotypically normal, and 93% of the rooted plants were established in the greenhouse. Phenolic production increased significantly (P < 0.05) over a 4-wk culture period with a negative impact on growth and proliferation. Activated charcoal (AC; 50 mg/l) significantly reduced total phenolic content and was the most effective treatment for increasing shoot proliferation. Shoot production increased as the phenolic content of the cultures decreased. The most effective treatment for NAG development from cultured nodal explants in the bioreactor was 2.5 mg/l kinetin, 0.5 mg/l NAA, and 50 mg/l AC in liquid culture medium. This protocol may be useful in providing NAG tissues or plants for a range of ginseng-based natural health products.     

大花蕙兰四倍体的离体诱导和鉴定

采用组织培养方法研究了秋水仙素处理对大花蕙兰类原球茎增殖、分化和四倍体诱导的效应.结果表明,秋水仙素处理明显抑制类原球茎的增殖和分化,提高类原球茎褐变率和死亡率;在试验浓度和时间范围内,秋水仙素浓度越高,处理时间越长,抑制作用越强,解除抑制作用所需的继代次数越多.所有秋水仙素处理均能诱导出四倍体,但不同处理的四倍体诱导率不同,当处理浓度为0.05%、时间为5 d时,四倍体诱导率最高,为23.7%.二倍体及其四倍体的气孔保卫细胞长度和气孔密度均存在极显著的差异.四倍体植株比二倍体矮,茎部较粗壮,株型紧凑,叶片颜色浓绿、质地变硬.秋水仙素处理和组织培养相结合是创建大花蕙兰多倍体的有效方法.     

建兰类原球茎体生长、发育过程中扫描电镜观察

建兰(Cymbidium ensifolium)类原球茎体(PLB)培养在含3％蔗糖和不含蔗糖的1/2 MS_0培养基中生长,比较连续光照、8h光照和黑暗条件下原球茎生长发育的动态进程。扫描电镜观察表明:原球茎表面布满密集的发育程度不同的分生区,随继代培养进程,形成分株更多的丛生形原球茎,连续光照促进分生区的增殖,黑暗不利于分生区的发育,在无糖源培养基中生长的PLB,分生区的细胞伸长,发育呈管状结构,这种结构丧失分生能力。在原球茎顶端分化叶原基,并可分化类似气孔的保卫细胞。     

In vitro propagation of threatened terrestrial orchid, Malaxis khasiana Soland ex. Swartz through immature seed culture

Rapid in vitro propagation of the terrestrial orchid, M. khasiana through immature seed culture was achieved. Immature seeds of 8-9 week after pollination (WAP) cultured on MS medium (2% sucrose) supplemented with 500 mgl(-1) casein-hydrolysate and 1 microM N6-benzyladenine (BA) exhibited germination of 75% seeds after 107 days of culture and subsequently supported the development of PLBs. Subsequent culture on MS medium enriched with 6 microM of indole-3-acetic acid (IAA), 18 microM each of BA and kinetin induced multiple shoots and plantlets. Transfer of PLBs to MS medium with 0.1% activated charcoal (AC) facilitated rapid proliferation of PLBs, while AC at 0.2% favored shoot bud induction and rhizome enlargement. The plantlets, developed on medium with IAA, BA and kinetin, after hardening in vitro for 8-10 weeks were planted in community pots and transferred to poly-house. The plantlets showed 65% survival under field conditions.     

Differentiation of potato (Solanum tuberosum L.) plants from cultured leaf protoplasts

Through induction of totipotent stage in cultured cells plants were regenerated from protoplast derived callus colonies of potato. Growing of the plants in vitro with optimal aeration and pretreatment of the leaves in dark and cold prior to protoplast isolation has improved the protoplast yield and frequency of cell division. Protoplasts of four potato genotypes have started to divide within 2-5 days after plating them into culture medium containing 2,4-D (0.2 mg/l); ZEA (0.5 mg/l); and NAA (1 mg/l) as growth regulators. Embedding of the cells into agarose proved to be favourable to avoid cell browning and to increase colony formation. The series of hormone treatments based on complex action of NAA and BAP promoting colony growth and greening, ZEA and IAA inducing shoot redifferentiation, and GA3 plus NAA supporting shoot elongation and rooting, finally resulted in high frequency of plant regeneration from microcolonies.     

In Vitro Propagation and Conservation of Dendrobium lituiflorum Lindl Through Protocorm-Like Bodies

Axillary buds obtained from 5-month-old in vitro growing plants of Dendrobium lituiflorum Lindl were cultured in Murashige and Skoog (MS) medium supplemented with different concentrations of 2,4-D. Fastest initiation (13.3 days) of protocormlike bodies (PLBs) was observed in cultures containing MS medium supplemented with 0.5 mg l^?1 2,4-D. Maximum explant response of 83% was also observed in the same medium. PLBs obtained in MS medium containing 0.5 mg l^?1 2,4-D showed maximum regeneration potential of seedlings (19 explant^?1) when subcultured in MS medium. Well developed shoots and roots of the seedlings were obtained in the medium containing 0.5 mg l^?1 each of NAA and BAP, in combination. Encapsulated PLBs of D. lituiflorum could be stored at 8°C for 90 days with 80% regeneration. However, it was observed that regeneration potential of encapsulated PLBs reduced with further storage. Seventy seven per cent hardened plants survived and bloomed after 2.5 years of hardening.     

大叶种胡椒实生苗茎尖培养和合子胚培养研究

利用各种表面消毒方法对采自海南岛三个地区的胡椒大田植株的外植体进行消毒试验,由于内源性污染,除胡椒成熟种子外,其它各种大田外植体的表面消毒均未能成功。以胡椒成熟种子无菌萌发的实生苗茎尖作外植体,在1/2MS(MS或B5)+1.5mg/LBA+0～0.2mg/LIAA(或NAA)上可实现丛生芽增殖。茎尖水平或竖直接种方法显著影响茎尖的增殖;水平接种茎尖的生长和增殖效果优于竖直茎尖接种方式。茎尖增殖率随BA浓度的增加而提高,但BA浓度大于2.0mg/L时会使苗芽的质量降低,愈伤组织产生严重,苗芽细小,抽出不明显,颜色发黄甚至变白。附加或不附加100mg/LAdSO4对丛生芽增殖没有明显影响。生根培养基以1/2MS+1.0mg/LIBA+0.5～1.0mg/LIAA为最优,生根率可达100%;在细沙∶土∶椰糠(1∶1∶1)的基质中常规炼苗,成活率可达98%以上。液体纸桥法对胡椒种胚进行培养,在不附加任何生长调节物质的培养基(MS、B5或SH)上只产生单苗,而在附加不同种类和不同浓度的生长调节物质的培养基上则诱导形成愈伤组织,但未能实现分化;以胡椒无菌萌发的实生苗胚轴和叶片切段作外植体进行培养,较易诱导产生愈伤组织,但难以实现分化。