玉米愈伤组织对草丁膦的抗性及氨基酸对这种抗性的影响

将玉米（ＺｅａｍａｙｓＬ．）（Ｐ９１０×Ｚ３１）愈伤组织接种于含不同浓度草丁膦及不同氨基酸的Ｎ６培养基上,测定愈伤组织重量增长及ＮＨ＋４积累水平。统计结果表明,当培养基中草丁膦浓度为４ｍｇ／Ｌ时,愈伤组织重量增长最低;浓度为８ｍｇ／Ｌ时,ＮＨ＋４积累水平达最高。综合考虑这两种因素,在培养基上选择转化体的草丁膦浓度以６ｍｇ／Ｌ为宜。在含有草丁膦的选择培养基上,Ｌ精氨酸和Ｌ谷氨酸能通过代谢调节显著降低玉米愈伤组织中的ＮＨ＋４浓度;而Ｌ脯氨酸虽明显促进玉米愈伤组织在选择培养基上的重量增长,但并不降低玉米愈伤组织中的ＮＨ＋４浓度     

玉竹的组织培养与快速繁殖

以玉竹[Polygonatum odoratum (Mill.) Druce]根状茎、叶片和茎段为外植体,于附加不同激素配比的MS培养基中诱导愈伤组织、不定芽和不定根,探讨增殖培养和植株再生的条件.结果表明,叶片和茎段外植体诱导愈伤组织和芽的分化率很低;而根状茎外植体易于培养,有较高的诱导率和增殖倍数,其愈伤组织、不定芽和不定根的诱导率分别可达87%、90%和99%以上.适宜根状茎外植体愈伤组织诱导的培养基为MS+1.0 mg/L 6-BA+0.5 mg/L NAA,有利于增殖和丛生芽分化的培养基为MS+2.0 mg/L 6-BA+0.5 mg/L IBA和MS+3.0 mg/L 6-BA+0.1 mg/L NAA,而1/2MS+3.0～5.0 mg/L NAA适宜诱导试管苗生根培养.试管苗的移栽成活率可达85%以上.     

Effects of brassinosteroid on cotton regeneration via somatic embryogenesis

Brassinolide (BR), which is the most biologically active brassinosteroid, was used to examine the potential effect of hormone on cotton somatic embryogenesis. Ten-day-old cotton (Gossypium hirsutum L., cv. Cooker) seedlings were used for explant source and hypocotyls were removed and cultured on MS basal medium with B₅ vitamins supplemented with 1 mg/L 6-benzylaminopurine + 0.5 mg/L kinetin for callus induction. After one month proliferating calli pieces were collected and cultured on MS basal medium containing various concentrations of BR (0.1, 0.5, 1.0 μM) with their controls. BR treatments were negatively effective on the fresh weight of calli when compared to control. Differential somatic embryogenesis maturation rates due to BR treatment were observed. Somatic embryogenesis was stimulated especially for transition to cotyledonary phase at 0.5 mg/L BR. Histological preparations from embryogenic calli and somatic embryos at different stages of development revealed the spontaneous polyploidisation during early somatic embryogenesis on BR-treated calli. Present results suggest that BR negatively effected calli growth, however, had a stimulating role in maturation of somatic embryos.     

甘蓝型油菜与芝麻菜体的细胞杂交

为拓宽油菜育种的基因资源库, 改良油菜品种, 以甘蓝型油菜(Brassica napus)花油3号下胚轴和芝麻菜(Eruca sativa)下胚轴为材料分离制备原生质体; 然后采用PEG-高Ca2+-高pH法进行原生质体融合, 当PEG浓度为35%, 原生质体融合密度为5×105个/mL时, 融合25 min时, 融合率可达18.2%。融合后在培养密度为1×105个/mL时, 以附加1.0 mg/L 2,4-D +0.5 mg/L 6-BA+0.5 mg/L NAA+ 200 mg/L肌醇+300 mg/L水解酪蛋白的改良的KM8p为融合体培养基, 以0.1 mol/L 蔗糖+0.2 mol/L葡萄糖+0.2 mol/L甘露醇作渗透稳定剂进行液体浅层培养, 效果较好, 愈伤组织再生率最高为6.8%。将融合体再生的小愈伤组织转移至培养基(B5无机盐+0.087 mol/L蔗糖+0.2 mg/L 2, 4-D+0.5 mg/L NAA+0.2 mg/L 6-BA+ 0.5% Agar, pH 5.8)上增殖培养, 待愈伤组织长至直径为3~5 mm时, 及时将其转至分化培养基(MS无机盐+0.087 mol/L 蔗糖+0.1 mg/L IAA+0.8 mg/L 6-BA+0.8% Agar, pH 5.8)中诱导不定芽再生, 芽分化率为35.7%。当不定芽长为2~3 cm时, 将其切下转入附加0.5 mg/L IBA+0.2 mg/L 6-BA的1/2MS生根培养基中诱导生根, 14 d左右即可形成再生植株, 生根率可达88%。同时, 以紫外线(60 μW/cm2)照射芝麻菜原生质体, 进行不对称融合, 照射2 min的获得了愈伤组织和再生植株, 照射4 min的只获得愈伤组织, 而照射5 min以上的没有获得愈伤组织, 但其愈伤组织再生、增殖及植株再生均不如对称融合。从细胞学鉴定的21块杂种愈伤组织上再生出16株杂种植株。     

甘蓝型油菜与芝麻菜体的细胞杂交

为拓宽油菜育种的基因资源库, 改良油菜品种, 以甘蓝型油菜(Brassica napus)花油3号下胚轴和芝麻菜(Eruca sativa)下胚轴为材料分离制备原生质体; 然后采用PEG-高Ca2+-高pH法进行原生质体融合, 当PEG浓度为35%, 原生质体融合密度为5×105个/mL时, 融合25 min时, 融合率可达18.2%。融合后在培养密度为1×105个/mL时, 以附加1.0 mg/L 2,4-D +0.5 mg/L 6-BA+0.5 mg/L NAA+ 200 mg/L肌醇+300 mg/L水解酪蛋白的改良的KM8p为融合体培养基, 以0.1 mol/L 蔗糖+0.2 mol/L葡萄糖+0.2 mol/L甘露醇作渗透稳定剂进行液体浅层培养, 效果较好, 愈伤组织再生率最高为6.8%。将融合体再生的小愈伤组织转移至培养基(B5无机盐+0.087 mol/L蔗糖+0.2 mg/L 2, 4-D+0.5 mg/L NAA+0.2 mg/L 6-BA+ 0.5% Agar, pH 5.8)上增殖培养, 待愈伤组织长至直径为3~5 mm时, 及时将其转至分化培养基(MS无机盐+0.087 mol/L 蔗糖+0.1 mg/L IAA+0.8 mg/L 6-BA+0.8% Agar, pH 5.8)中诱导不定芽再生, 芽分化率为35.7%。当不定芽长为2~3 cm时, 将其切下转入附加0.5 mg/L IBA+0.2 mg/L 6-BA的1/2MS生根培养基中诱导生根, 14 d左右即可形成再生植株, 生根率可达88%。同时, 以紫外线(60 μW/cm2)照射芝麻菜原生质体, 进行不对称融合, 照射2 min的获得了愈伤组织和再生植株, 照射4 min的只获得愈伤组织, 而照射5 min以上的没有获得愈伤组织, 但其愈伤组织再生、增殖及植株再生均不如对称融合。从细胞学鉴定的21块杂种愈伤组织上再生出16株杂种植株。     

Plant Regeneration from Cell Supension Derived Protoplasts of Heracleum moellendorffii

Heracleum moellendorffiz Hance is a herb belonging to Umbelliferae used in traditional medicine in China. The young stem-nodes were induced for callus formation on MS medium containing 1 mg/L 2,4-D. After subcultured for about five months, the embryogenic calli were used for cell suspension culture. The protoplasts were prepared from this suspension by digestion with enzyme mixture containing 1. 5% cellulase Onozuka R-10 +0. 3% macerozyme R-10 + 0. 5% snailase + 5 mmol CaCl2 + 0. 6 mol/L mannitol, at pH 5.8, and cultured in modified MS and modified N6 media with 0.3 % agarose. They divided after 3 days and developed into small cell colonies after about 2 weeks. From this time on, the glucose concentration in the culture media was decreased to 0. 2 mol/L,which led to futher growth of the colonies to small calf . After a period of proliferation on solid medium with 0. 5 mg/L 2,4-D, the calli were transferred to a medium with 0. 1 mg/L zeatin on which somatic embryos differentiated and developed to plantlets     

基因枪法获得逆境诱导转录因子DREB1A转基因小麦的研究

以小麦品种H6756和藁城8901作为基因枪转化的靶材料,取其护颖至雌雄蕊原基形成期的幼穗,用含逆境诱导转录因子DREB1A和bar基因的质粒pAHC25轰击胚性愈伤组织,在分别含有5mgL和10mgLBasta溶液的培养基上进行筛选。得到的抗性愈伤组织在不含Basta溶液的培养基上再生培养,获得218棵再生植株。田间涂抹浓度为100mgL的Basta溶液检测后,对抗性植株作PCR检测,获得54棵再生植株。通过对其中20株T1代的PCR和Southern杂交分析,已获得14株含DREB1A和bar基因的转基因小麦植株,其中H675613株,藁城89011株。     

海甘蓝愈伤组织再生植株的研究

海甘蓝种子在附加有２～５ｍｇ／Ｌ６－ＢＡ＋０１ｍｇ／ＬＮＡＡ的ＭＳ培养基上,幼苗生长健壮。幼苗的下胚轴和子叶柄在ＭＳ＋１ｍｇ／Ｌ２,４－Ｄ＋０５ｍｇ／Ｌ６－ＢＡ的培养基上可以获得较好的愈伤组织。将来源于下胚轴的愈伤组织培养于含有０５ｍｇ／ＬＮＡＡ,２ｍｇ／Ｌ６－ＢＡ的ＭＳ培养基上分化出的丛生芽状态最好。最佳生根培养基为１／２ＭＳ＋０５ｍｇ／ＬＢＡ。     

枸杞原生质体培养及高效成株体系的建立

由枸杞髓部组织诱导出胚性愈伤组织,并由此愈伤组织建立起稳定的细胞悬浮系。从悬浮细胞游离的原生质体在改良KM培养基(1.5 mg/L 6_BA,0.5 mg/L NAA和0.5 mg/L 2,4_D)中进行液体浅层培养,3～4 d后出现第一次分裂,第7 d统计分裂频率为50.3%,15 d左右可形成细胞团,3～4周后形成肉眼可见的愈伤组织,愈伤组织植板率为1.25%。将细胞团转移到液体分化培养基(MS+6_BA 1.5 mg/L+2,4_D 0.2 mg/L) 8～10 d可形成大量胚状体,及时将胚性愈伤组织块转移到固体分化培养基上(MS+6_BA 0.2 mg/L),可形成大量绿芽,分化率54.17%。绿芽在生根培养基（MS+NAA 0.2 mg/L）可形成完整植株,移栽后成活良好。     

Selection of NaCI Tolerant Calli and Regeneration of Plants in Maize

The embryonic calli produced from immature embryos of inbred “Huangzhao-4” of maize, that had been maintained for half a year, were transferred to media supplemented with different NaC1 concentrations (5, 10, 15, 20, 25, 30g/L) for callus selection. NaCl tolerant calli were established through three generations of selections. The growth and frequency of survival calli were affected significantly by NaCl concentration. The proliferetion of NaCl-tolerant calli was relatively good on medium containing of 10g/L NaC1. From these calli, plant lets could be produced on differentiation medium. On medium supplemented with 10g/L of NaC1 the plantlets could normally grow to transplantation. In NaCl-tolerant calli cultured on medium containing 10g/L of NaC1, the contents of free amino acids, free proline, Na+, K+ were 18.0%,87.3%,661.9%,25.5% respectively higher than those in un-selected calli grown on subculture medium, but Ca2+ content decreased significantly. On medium containing 10g/L of NaC1, cells and their organelles in NaCl-tolerant calli had normal morphology and structure, and vigorous metabolism, but in un-selected calli, the majority of cells turned to wards dying. Although tolerant plants regenerated and their filial ones had grown in non-salted soil, their progenies retained the property tolerance, but showed segregation of the degrees of tolerance. In 10g/L NaC1 solution, the seeds of progenies from one plant regenerated could germinate normally, and grow into healthy seedlings. Therefore, the NaCl-tolerant calli and plantlets that we have obtained NaCl-tolerant variants.     

紫色大花矮牵牛组织培养与植株再生

矮牵牛叶片外植体在MS+6-BA 1.0mg/L+NAA 0.1mg/L培养基上培养3周后产生致密的浅绿色愈伤组织;转入芽分化培养基MS+6-BA 0.5mg/L+4-PU 0.5mg/L+NAA 0.1mg/L 1周后,从愈伤组织表面不断分化产生幼芽;待幼芽长至3cm时转接至生根培养基1/2MS+NAA 1.0 mg/L+GA₃0.5mg/L中生根,长成完整植株。     

Leaf callus induction and suspension culture establishment in lychee ( Litchi chinensis Sonn.) cv. Huaizhi

This study reports a protocol for leaf callus induction and suspension culture establishment in lychee cv. Huaizhi. The results showed that 12-day-old leaf explants cultured under a photoperiod of 16/8 h with their adaxial side touching the medium were the optimum conditions for leaf callus induction. Globular embryos were formed when the induced calli were kept on the callus induction medium without 2,4-D for 24 weeks. Friable calli were induced after 2–3 subcultures at 4 weeks intervals on the Murashige and Skoog medium supplemented with 3 mg/L IAA and 2 mg/L BAP. Suspension culture was established when these friable calli were subcultured six times in liquid callus induction medium.     

Organogenesis and Plantlet Formation from Organ- and Seedling-Derived Calli of Rice (Oryza sativa)

Callus was induced in different somatic organs of Oryza sativa L. Specific minimum 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations in the medium were necessary for the induction of callus from different organs while high levels of 2,4-D (6–10 mg/l) induced callus formation in each organ tested. The optimum 2,4-D concentration for callus induction and growth for root-derived calli was 2 mg/l and for leaf-derived 6 mg/l. Root and shoot organogenesis were induced in both root- and leaf-derived calli by sub-culturing to a medium lacking 2,4-D. Root organogenesis occurred at a higher frequency than shoot organogenesis. Shoot organogenesis rarely occurred in calli without differentiated roots. Increased age of callus cultures almost completely inhibited shoot development. The addition of the cytokinin 6-γ,γ-dimethylallyl-amino purine partially restored the potential for shoot organogenesis. Whole plants were easily recovered from the calli and grown to maturity with some plants exhibiting phenotypic abnormalities.     

农杆菌介导的高效玉米遗传转化体系的建立

为了建立玉米高频再生及高效遗传转化体系, 对影响玉米胚性愈伤组织诱导的11个因素及影响胚性愈伤分化的9个因素用正交实验方法进行研究。结果显示, 基因型对胚性愈伤诱导有极显著影响。6-BA、培养基、AgNO3、2,4-D、ABA对胚性愈伤诱导的影响达到显著水平。多重比较分析显示ABA 2 mg/L每间隔1代添加对胚性愈伤诱导率有显著影响。在影响分化的因素中, 基因型和6-BA浓度表现出极强的主效应, NAA、培养基、KT、2,4-D对分化产生显著影响。Southern blotting 分析表明, 25 mg/L潮霉素选择压下抗性愈伤率作为转化体系优化指标是可靠的。在影响转化效率的因素中, acetosyringone (AS)使用浓度因基因型不同而表现出敏感度差异, 共培养温度24~25℃、农杆菌浓度和浸泡时间0.7 OD×15 min, 以及pH值5.5~6.2是最高转化率的优选组合。在整合后的玉米遗传转化体系中, 黄早4和综31自交系以抗性愈伤率为指标的GUS基因稳定转化率分别达到48.6%和46.2%。     

稀有植物裸果木的组织培养及植株再生

对稀有植物裸果木进行组织培养研究,在MS培养基上裸果木的下胚轴脱分化形成愈伤组织,并进一步分化形成再生植株。激素种类及其浓度是器官脱分化与植株再生的决定因素。诱导下胚轴形成愈伤组织的最适培养基为MS 1mg／L 6-BA 0．5mg／L NAA;芽分化诱导的最适培养基为MS 1 mg／L6-BA;生根的最适培养基为不含任何激素的1／2MS培养基。     

Haploid Plant Regeneration from Protoplast Cultures of Durum Wheat (Triticum durum Desf.)

Haploid suspension callus cultures from embryos of durum wheat (Triticum durum Desf. ) × maize (Zea mays L. ) crosses were used for protoplast isolation. Experimental results from enzyme digestion showed large numbers of viable protoplasts released from both suspension culture and solid culture of callus cut into small pieces of 1 mm in size prior to incubation in an enzyme solution containing 2.0% cellulase RS and 0.5 % pectolyase Y-23. Division frequency of protoplasts isolated from suspension cultured callus was quite different from that of solid cultured callus, however, the former being 5.20%, and the latter less than 1.0% when cultured on KM8p medium containing 1.0 mg/L 2, 4-D using LMP (low melting point) agarose embedding method. Embryogenic ealli could be selected out from protoplast-derived microcalli after 2 to 3 subcultures. Plants could be regenerated from protoplast-derived embryogenic calli after 20 days of culture on differentiation medium I (MS basal medium supplemented with 0.2 mg/L 2, 4-D, 1.0 mg/L BAP, 0. I mg/L NAA, 3 %/4 su- crose, 200 mg/L casein hydrolysate, 146 mg/L glutamine, 300 mg/L aspartic acid) and (components were the same as I without 2, 4-D) respectively. The plant regeneration frequency was about 20%. Chromosome count of root tip cells of 4 plants of the 22 protoplast- derived plants sampled at random revealed haploid in nature (2n= 2x= 14).     

Plant Regeneration from Protoplasts of Talinum paniculatum

The protoplasts of Talinum paniculaturn (Jaeq.) Gaertn. were isolated from leaves and calli. The mesophyll protoplasts did not undergo normal division and lived one week at the longest in culture. However, the callus protoplasts, cultured in P4 medium (K8p+2, 4-D 0.2 mg/L, NAA 1.0 mg/L, ZT 0.5 mg/L, coconut milk 50 mL/L, glucose 0.5 mol/L), underwent first division after 3 d of culture. The division frequency was 36.7 % after 7 d of culture. The regeneration frequencies of callus were 0.31% in liquid culture and 0.34% in double-layer culture. Shoots differentiated on regeneration media and rooted on R3 and R7 media. Mature plants were obtained 2～3 months after transplanting the protoplast-derived plantlets into flower pot or successive subculturing in test tubes. The results also indicated that: (1) Too long a period of callus culture in liquid medium or in solid proliferation medium was unfavorable to differentiation. (2) Low concentration of 6-BA in medium was suitable for callus differentiation. (3) GA3 promoted development of young adventitious bud. (4) Multi-effect triazole significantly strengthened sprout and root development in test tube cultures.     

Callus Culture and Gentiopicroside Formation in Gentiana manshurica Kitag.

Suitable medium for callus growth and gentiopicroside formation of Gentiana manshurica Kitag. was studied employing orthogonal design and monofactorial experiment. The results showed that combination of NAA 1 mg/L +KT 0.5 mg/L was best for callus growth, while NAA lmg/L, is the suitable phytohormone for gentiopicroside formation. B5 medium was suitable for callus growth while MS medium was suitable for gentiopicroside formation. The experiment of orthogonal design indicates that NH4+/NO3-, K+, Ca2+ and sucrose were the factors significantly affecting fresh weight, dry weight and gentiopicroside content of callus. However, the level of some factors for callus growth was different from that for gentiopicroside formation. In 18 different media, No. 7 was best for callus growth and No.10 medium was best for gentiopicroside formation.     

新疆天山雪莲体胚诱导与分化研究

以新疆天山雪莲的叶片为外植体,分别用不同配方培养基诱导愈伤组织,后进行体胚诱导和分化培养形成再生雪莲植株.结果表明,诱导愈伤组织的最适培养基为MS 2,4-D 0.5 mg/L BA 1.5 mg/L,诱导率可达到100%;愈伤组织转移至MS 2,4-D 0.5 mg/L BA 1.5 mg/L培养基进行继代培养,增殖后的愈伤组织转移到MS 2,4-D 0.2 mg/L的液体培养基后成功诱导出雪莲体胚,出胚率达40%;将体胚接至MS ABA 0.5 mg/L培养基后,结果分化生长出大量的再生雪莲幼苗.     

In vitro plant regeneration from quality protein maize (QPM)

Breeding efforts to obtain more nutritious maize materials aimed at alleviating dietary deficiencies in developing countries have resulted in an improved maize germplasm known as quality protein maize (QPM). Quality protein maize has higher contents of tryptophan, lysine, and leucine than common maize, but suffers from some major agronomic drawbacks found in common inbred maize lines, such as susceptibility to insect pests and fungal and bacterial diseases and herbicide sensitivity. The development of a reproducible and efficient protocol for tissue culture of QPM is expected to solve some of these deficiencies. In this work, we have evaluated different formulations for in vitro induction of morphogenic responses in three QPM lines developed by the International Maize and Wheat Improvement Center (CIMMYT): CML (CIMMYT maize line)-145, CML-176, and CML-186. Only CML-176 and CML-186 have proven to be responsive to the in vitro conditions considered in this work, with CML-176 showing the highest efficiency in regenerable callus formation and growth. N6C1 medium was found to be efficient for in vitro culture of QPM, whereas no plants could be regenerated by using MPC medium. From CML-176 embyogenic calli cultured on N6C1 medium, we were able to regenerate up to 0.3 plants per 500 mg fresh weight (FW) callus. Further modifications in this experimental protocol, including the replacement of 3,6-dichloro-o-anisic acid with 2,4-dichlorophenoxyacetic acid and modification of the N6C1 vitamin balance, significantly increased the regeneration response of the induced calli, with up to 16.8 and 9.3 plants recovered per 500 mg FW callus for CML-176 and CML-186, respectively.