烟草毛状根多倍体诱导及其植株再生

为了提高烟草的烟碱含量,采用发根农杆菌遗传转化和人工染色体加倍技术,进行了烟草毛状根及其多倍体诱导、植株再生及其烟碱含量测定。结果表明,发根农杆菌ATCC15834感染烟草叶片外植体8 d后产生白色毛状根,15 d后所有叶片外植体产生毛状根。毛状根能在无外源激素的MS固体和液体培养基上自主生长。PCR扩增结果显示发根农杆菌Ri质粒的rol B和rol C基因以及冠瘿碱合成酶基因已在烟草毛状根基因组中整合并得到表达。烟草毛状根多倍体诱导的最适条件为0.1%的秋水仙素溶液处理36 h,其多倍体诱导率为64.71%。经秋水仙素加倍的烟草毛状根多倍体植株再生的最适宜培养基为MS+6-BA 2.0 mg/L+NAA0.2 mg/L。与对照(二倍体非转化植株)相比,烟草二倍体毛状根再生植株的顶端优势减弱,腋芽增多,叶片变窄;而烟草毛状根多倍体再生植株茎更粗,节间变短,叶色更深,叶片的宽度和厚度均较对照明显增大。根尖细胞染色体压片观察证实,所获得的烟草毛状根多倍体再生植株为四倍体,其根尖细胞染色体数约为4n=96。盆栽实验表明,烟草二倍体毛状根植株和多倍体毛状根再生植株比对照植株延迟约21 d开花。GC-MS检测表明,烟草毛状根多倍体再生植株的烟碱含量比对照及二倍体毛状根再生植株显著提高,分别约为对照及二倍体毛状根再生植株的6.90倍和4.57倍。     

秋水仙素诱导天山雪莲四倍体的研究

利用组织培养附加秋水仙素的方法对濒危药用植物天山雪莲(Saussurea involucrata Kar.et Kir.)进行多倍体诱导,结果表明:(1)与种子作材料相比,采用秋水仙素处理无菌苗是获得天山雪莲多倍体植株的最佳途径.(2)二倍体植株的叶片薄、平展、较细长、色绿、尖齿不明显、根细长;经秋水仙素处理诱导得到的植株叶片变宽、变肥厚、叶色深绿,尖齿明显、根短粗.(3)染色体计数、气孔分析及流式细胞仪倍性综合检测表明,诱导得到的多倍体变异苗为纯合四倍体.     

彩色马蹄莲品种‘Parfait’多倍体诱导及其生物学特征变化

以彩色马蹄莲品种‘Parfait’（Zantedeschiahybrid‘Parfait’）离体丛生芽块为实验材料,对其多倍体诱导过程中秋水仙素和二甲基亚砜（DMSO）浓度以及浸泡时间进行分析,并比较了多倍体与二倍体植株在叶形指数、气孔特征、叶绿素含量和染色体数的差异,最终通过回归分析确定最佳诱导条件。结果显示：随秋水仙素质量体积分数的提高及浸泡时间的缩短,各处理组的丛生芽存活率逐渐增加且均低于对照,而多倍体诱导率逐渐降低且均显著高于对照。综合考虑丛生芽存活率和多倍体诱导率等因素,根据回归分析确定‘Parfait’多倍体诱导的最佳条件为：丛生芽块在含质量体积分数0.20%秋水仙素和体积分数0.10%DMSO的MS液体培养基中浸泡24h,多倍体诱导率可达50.02%。比较分析结果表明：多倍体植株的叶片长度、厚度和长宽比分别为二倍体植株的1.23、1.19和2.93倍,保卫细胞的长度和宽度以及每气孔叶绿体数分别为二倍体植株的1.90、1.96和2.03倍,叶绿素a和总叶绿素含量分别为二倍体植株的1.28和1.17倍;但多倍体植株的叶宽和气孔密度均较小,分别仅为二倍体植株的42.08%和61.55%。除叶绿素b含量外,多倍体植株的其他生物学特性均与二倍体植株差异显著。染色体计数结果显示：获得的多倍体大多为四倍体,染色体数为2n=64,同时还得到了一些嵌合体和六倍体。研究结果表明：彩色马蹄莲品种‘Parfait’多倍体植株的多数生物学特性优于二倍体植株,且其对环境的适应性更强。     

紫锥菊多倍体诱导与鉴定

本实验以紫锥菊愈伤组织上刚分化出的不定芽为材料,用不同浓度秋水仙素溶液对其进行诱导,确定最佳处理浓度和处理时间,并对诱导的多倍体与二倍体进行形态、显微、染色体及过氧化氢酶(CAT)活性的比较鉴定.结果表明:0.025%秋水仙素浓度处理24h的诱导效果最好,诱导率达42.85%;多倍体植株叶片肥厚、根粗壮,气孔面积极显著地大于二倍体植株,染色体数从24～28条不等,CAT平均酶活性是二倍体的2.1倍.     

同源四倍体铁皮石斛的生长及多糖积累

通过秋水仙素诱导铁皮石斛多倍体,以外观形态、气孔、染色体数目筛选多倍体植株,分析多倍化对铁皮石斛多糖累积及生长的影响。结果表明,同源四倍体铁皮石斛茎、叶及原球茎的多糖含量分别是二倍体的1.31、1．83及1．95倍,但生长速度显著或极显著低于对照。ISSR分析显示,同源四倍体植株产生较明显的基因变异。     

甜叶菊同源四倍体离体诱导及鉴定

用不同浓度秋水仙素溶液处理甜叶菊不定芽,诱导同源四倍体,并进行解剖学、染色体鉴定和流式细胞仪鉴定倍性。结果表明:(1)用0.20%的秋水仙素溶液浸泡甜叶菊不定芽12h,同源四倍体诱导率最高,可达32.14%。(2)同源四倍体植株与二倍体(对照)相比,其气孔、叶片等均表现巨大性,且叶片变厚、叶色浓绿、叶片皱缩。(3)对照植株染色体2n=2x=22,四倍体植株染色体2n=4x=44;流式细胞仪倍性鉴定结果显示,对照DNA相对含量为100,四倍体DNA相对含量为200。(4)该研究共鉴定出48株甜叶菊同源四倍体植株,为进行倍性植株的诱导奠定了技术基础,为进一步开展甜叶菊同源四倍体新品种的选育提供了实验材料。     

墨兰‘绿墨素’×大花蕙兰‘世界和平’F1代多倍体诱导初报

该研究以墨兰‘绿墨素’(Cymbidium sinense‘Lv mosu’)和大花蕙兰‘世界和平’(Cymbidium hybridum‘Shijieheping’)杂交兰F1代原球茎为材料,采用浸泡法研究不同浓度秋水仙素和不同处理时间诱导植株加倍的效果。结果表明:0.03%秋水仙素处理72 h,诱导变异率为36%,死亡率为36%,诱导效果最佳;多倍体植株与二倍体植株相比,表现为植株根部木质化加剧,植株矮壮,叶色深绿,叶片变厚、变宽,叶面粗糙,少部分有双叶脉、叶尖开裂、叶片扭曲,生长缓慢等;且多倍体植株气孔大,气孔密度减小;经流式细胞仪分析,二倍体墨兰×大花蕙兰F1代植株的荧光通道值为88,多倍体植株荧光通道值是176,多倍体植株为四倍体。该研究结果为培育兰花新品种奠定了基础。     

秋水仙碱诱变甜菊多倍体的研究

用０．１％秋水仙碱溶液处理甜菊实生苗生长点,可诱变产生甜菊多倍体（四倍体）植株,用８次点滴处理,诱变率可达３１．２５％。染色体数鉴定表明：四倍体甜菊染色体数是２ｎ＝４４,而二倍体甜菊染色体数是２ｎ＝２２．形态学和解剖学的观察表明,四倍体比二倍体甜菊植株的茎矮壮,叶片增大,长度增长２．１倍,宽度扩大２．３倍,叶片加厚１．７倍,叶色更浓绿,叶片气孔数减少,气孔变大。叶片糖苷含量测定表明：四倍体的叶片含量为１５．７％,而二倍体的叶片含量为１０．８％,前者比二倍体叶片含量提高４．９％。     

毛泡桐同源四倍体的诱导

在含有不同浓度秋水仙素双层培养基上以叶片作外植体诱导毛泡桐同源四倍体植株,用变异植株根尖细胞染色体计数和成熟叶片中单细胞DNA含量测定的方法进行倍性分析。结果表明,在16个试验组合中,预培养6d的毛泡桐叶片经20mg·L-1秋水仙素处理72h的四倍体诱导率可达20%。     

库拉索芦荟的多倍体诱导及其变异初报

在组织培养条件下,对库拉索芦荟（Aloe vera L.)用秋水仙素进行染色体加倍的诱导处理,结果表明：用含0.06%秋水仙素处理12h后诱变频率可达50％,其效果最佳。经秋水仙素诱导的加倍群体与正常二倍体植株比较,植株的大多数叶片变厚,叶色变深,叶片变大,气孔增大而单位叶面积气孔数减少。对变异材料进行细胞学研究所发现,体细胞中期染色体为2n=4x=28,为4倍体。未加倍前的二倍体为2n=2x=14。检测中也发现有少数植株有2n=14和2n=28两种细胞型的情况。     

秋水仙碱诱导重瓣大岩桐(Sinningia speciosa)多倍体的研究

以重瓣大岩桐叶片为外植体,经秋水仙碱处理得到大量的多倍体植株。在培养基中加入秋水仙碱２０ｍｇ Ｌ＾－１处理一周,可使重瓣大岩桐的诱变率达到６２．５％,对再生植株进行形态学观察表明,多倍体植株比二倍体的茎粗壮,叶片增大,加厚。细胞学鉴定四倍体染色体数为２ｎ＝４ｘ＝５２,而二倍体的染色体数为２ｎ＝２６。     

A novel life cycle arising from leaf segments in plants regenerated from horseradish hairy roots

Summary Horseradish (Armoracia rusticana) hairy root clones were established from hairy roots which were transformed with the Ri plasmid in Agrobacterium rhizogenes 15834. The transformed plants, which were regenerated from hairy root clones, had thicker roots with extensive lateral branches and thicker stems, and grew faster compared with non-transformed horseradish plants. Small sections of leaves of the transformed plants generated adventitious roots in phytohormone-free G (modified Gamborg's) medium. Root proliferation was followed by adventitious shoot formation and plant regeneration. Approximately twenty plants were regenerated per square centimeter of leaf. The transformed plants were easily transferable from sterile conditions to soil. When leaf segments of the transformed plants were cultured in a liquid fertilizer under non-sterile conditions, adventitious roots were generated at the cut ends of the leaves. Adventitious shoots were generated at the boundary between the leaf and the adventitious roots and developed into complete plants. This novel life cycle arising from leaf segments is a unique property of the transformed plants derived from hairy root clones.     

中国桔梗多倍体诱导与鉴定

在离体培养条件下,比较了不同浓度、不同处理时间的秋水仙素对中国桔梗（Platycodon grandiflorus A．CD）进行染色体加倍的诱导效果。结果表明：用含0．1％秋水仙素处理40h后诱导频率可达50％,诱导效果最佳。经秋水仙素诱导后形成的多倍体植株与原二倍体植株比较,在形态上,多倍植株叶片变宽变大,叶色变深,茎变粗且节距长,气孔增大而单位叶面积气孔数目减少。对变异植株进行细胞学研究发现,体细胞中期染色体数目为2n=4x=36,而原二倍体的染色体数目为2n=2x=18,基数x=9,因此,变异植株（2n=4x=36）为四倍体。前者的核型公式为2n=4x=14m＋20sm＋2st,核型属于2B;后者的核型公式为2n=2x=7m＋10sm＋1st,核型也属于2B。检测发现有少数个体有非整倍体变异。     

田埂报春多倍体诱导及其形态学研究

在离体培养条件下,比较不同浓度、不同处理时间的秋水仙素对田埂报春进行染色体加倍的诱导效果。结果表明:0.08%秋水仙素处理48h的诱变效果最佳,诱变率高达56%。经秋水仙素诱导后形成的多倍体植株与原二倍体植株比较,在形态上,四倍体植株表现出多倍体特征,叶片变厚,叶形指数减小,保卫细胞增大,单位面积气孔数减少,叶绿体数明显增多。对变异植株进行细胞学研究发现,体细胞中期染色体数目为2n=4x=36,而原二倍体的染色体数目为2n=2x=18,基数x=9,因此,变异植株(2n=4x=36)为四倍体。前者的核型公式为2n=4x=8L+12M2+4M1+12S,核型属于1A;后者的核型公式为2n=2x=4L+6M2+2M1+6S,核型也属于1A。检测发现少数个体有非整倍体变异。     

Physiology of Polyploid Plants: Water Balance in Autotetraploid and Diploid Tomato under Low and High Salinity

Diploid and autotetraploid plants of the cultivated tomato Lycopersicon esculentum cv. Lukullus (Luk) were studied under low and high salinity. Polyploids had a higher water content than diploid plants. Water content in both plant types decreased under salinity, the decrease being smaller in the polyploid plants. Dry weight of whole young plants decreased in both diploid and polyploid plants under salinity, the decrease being smaller in the latter. Transpiration of whole plants, grown in control solution, was lower in polyploid than in diploid plants and decreased more under salinity in the latter. Rate of change of water loss of detached drying leaves was similar in diploid and polyploid plants. Leaves of control diploid plants, however, lost more water per unit leaf area during the phase of stomatal closure apparently due to higher stomatal density. Polyploid plants had fewer but more open stomata per unit leaf area, under both control and saline conditions. Root pressure, determined only under control conditions, seemed to be higher in polyploid plants. No difference in Cl^? concentration per unit leaf dry weight was found between diploid and polyploid plants grown in either control or NaCl solution.     

The effect of B chromosomes and T-DNA on chromosomal variation in callus cells and regenerated roots of Crepis capillaris

The chromosome behaviour has been compared in three Crepis capillaris callus culture lines and the roots regenerated from these calli. The calli were obtained from explants derived from plants without and with two B chromosomes and the hairy roots were obtained from plants transformed with Agrobacterium rhizogenes. Cytological studies demonstrated that the presence of additional DNA as B chromosomes or as T-DNA had an influence on the numerical and structural variability of the standard chromosome in long-term callus cultures and in regenerated organs. The callus with two B chromosomes displayed higher levels of polyploidyzation than callus without B chromosomes. The roots regenerated from both these calli were only diploid, while roots regenerated from transformed callus were also polyploid. This revised version was published online in June 2006 with corrections to the Cover Date.