甘蓝型油菜与紫罗兰属间杂交的植物遗传学研究

为探索属间杂种的遗传特点以及改良甘蓝型油菜油分品质,进行了甘蓝型油菜和紫罗兰的属间杂交。杂交母本为甘蓝型油菜奥罗（Brassica napusL.cv.oro)。父本为紫罗兰（Motthiola incana(L.)R.Br.)。将授粉7d后的油菜子房切下,消毒后,培养了添加适当植物激素的MS培养基。从750个离体培养的油菜授粉子房中,获得了2粒成熟胚胎,其结籽率为0.26%。将胚胎取出,转接于MS培养基（添加2.0mg/L6-BA和0.1mg/LNAA）,获得了丛生芽,将丛生芽分割为许多单芽,转接到新鲜培养基中,长成了22株小苗,杂种一代植株呈中间性,它的许多性状介于两个亲本之间,一些性状倾向母本,少数性状表现显著的超亲杂种优势,植株结实性差。杂种后代（F2）植株表现多样性,多数植株的性状倾向母本,能育。部分植株表现中间性,育性差,少数植株发育不良,不育,染色体研究表明,杂种一代植株为混倍体。在杂种体细胞中,许多细胞的染色体数为2n=26。为两个亲本的配子染色体数之和。杂种后代（F2）中,倾母植株的染色体数为2n=38。矮小植株的许多细胞具非整倍染色体数。如2n-1=37,2n 1=39。从杂种后代中获得了种子油分品质较好的植株,有可能用于油菜的品质育种。     

玉米胚珠离体受精成功

从未授粉的玉米植株的雌穗上,切除子房上部的三分之一,获得裸露的胚珠。在切口处授以经过消毒的玉米花粉,获得了14粒由胚珠发育的幼嫩种子。在授粉后20—22天幼嫩种子的胚已经成熟,并在果穗块上萌发和生长,现已获得两个植株。其中一株植株上有明显的父本标记的紫色素性状及类似父本的旗叶。根尖细胞染色体2n=20,F_2代有分离,因此证明是胚珠离体受精而来的杂种植株。另一株植株形态、色素、旗叶均与母本相似,染色体2n=20,生长健壮,雄穗很早抽出,但在抽雄后49天才长出弱小的雌穗,未获得种子。     

埃塞俄比亚芥与白菜型、甘蓝型和芥菜型油菜杂种子房培养技术的研究

本文研究了埃芥×白菜型油菜、埃芥×甘蓝型油菜和埃芥×芥菜型油菜杂种子房的离体培养方法。结果表明,三大种间组合授粉子房的适宜离体时间分别在５—１０、７—１２和１０—１７天之间。水解酪蛋白对杂种胚的发育没显示出有利作用,０．２ｍｇ／ＬＢＡ促进了杂种胚的形成。ＭＳ和Ｌ．Ｓ．Ｍ．基本培养基和本培养方法对于埃芥×白菜型油菜和埃芥×甘蓝型油菜杂种子房的离体培养是可行的。     

大白菜(Brassica pekinensis)与甘蓝(B.oleracea)的种间试管受精

通过大白菜胚珠与甘蓝花粉的试管授粉和受精得到了杂种种子。杂交一代的植株形态和花粉发育情况及根尖细胞染色体数均表明为种间杂种。杂种植株具有父母本的特征,某些性状介于双亲之间;花粉粒发育不正常;根尖细胞染色体数为2n=19。本研究为其他十字花科植物的远缘杂交中克服不亲和性提供了依据。     

红菜薹与甘蓝型油菜杂交子房培养研究初报

对甘蓝型油菜和红菜薹种间杂种进行胚胎挽救研究,实验结果表明,采用MS＋（1．0～2．0）mg·L^-1 6-BA＋0．05mg·L^-1 NAA＋0．5％活性炭＋30g·L^-1蔗糖＋7．5g·L^-1琼脂培养基对甘蓝型油菜和红菜薹杂交子房培养效果较为理想;相对于培养基和激素,活性炭对子房培养的影响更加显著。通过对取材时间的研究发现,取授粉后18d子房培养的结籽率最高,15d的次之。而通过对杂种萌发率的研究则表明,授粉后15d的子房培养获得的杂种萌发率最高,为57．03％,18d的最差,仅为38．49％。     

利用染色体加倍技术创建油菜非整倍体

采用秋水仙素染色体加倍技术,获得了纯合黑籽甘蓝型油菜品系NJ230(Brassica napus)的染色体加倍材料(2n=76).对加倍材料连续自交3代,观察加倍材料后代染色体数目及性状变异,结果表明:(1)加倍材料当代(D1)植株矮化;(2)加倍材料自交1代群体(D2)呈现雄性不育、种子颜色等性状变异;(3)加倍材料自交2代后(D3、D4),多数植株染色体数为2n≤38;(4)获得了1个2n=32的黄籽非整倍体系.本实验为油菜非整倍体创建提供了一种可行的方法.     

甘蓝型油菜与诸葛菜属间杂种无性系的变异研究

从形态及细胞学两方面对甘蓝型油菜与诸葛菜属间杂种无性系的变异进行了研究。经过长期继代培养后,杂种在形态上越来越偏向母本甘蓝型油菜,而表现出较少的父本诸葛菜性状,但表现出对等双分枝的新性状。经细胞学观察表明,杂种体内杂种细胞比例下降,而甘蓝型油菜细胞比例大幅度上升并远高于核质杂种细胞（具有油菜细胞质与诸葛菜细胞核）的比例,以至较多的甘蓝型油菜染色体组被遗传下去。在该杂种继代培养中还观察到杂种细胞内的染色体消除及体细胞配对现象。     

4x菜心×2x芥蓝的胚胎发育观察及离体培养获得异源三倍体

对4x菜心×2x芥蓝和4x芥蓝×2x菜心的授粉受精及胚胎发育进行了观察,并对其杂种幼胚进行了离体培养.结果表明,4x菜心×2x芥蓝和4x芥蓝×2x菜心的授粉受精均能完成,但胚胎发育受阻,前者在授粉后11d左右(球形胚时期)胚胎败育,后者在授粉后5d左右(几个细胞的原胚时期)胚囊便干缩坏死. 经子房离体培养,4x菜心×2x芥蓝获得了杂种植株,适宜的培养时期是授粉后6～8d,而4x芥蓝×2x菜心未能培养成功.经形态学观察和核型分析,杂种植株在花色、花大小等方面具双亲特征,染色体数为2n=3x=29,含有菜心的2个染色体组(AA)和芥蓝的1个染色体组(C),为异源三倍体(AAC).     

Ogura CMS紫菜苔×萝卜×甘蓝型油菜杂种的获得及细胞遗传学研究

以OguraCMS紫菜苔×萝卜杂种F1(AR ,2n =19)为母本 ,以甘蓝型油菜 (AACC ,2n =38)为父本进行杂交 ,获得了 4棵杂种植株。其中 1株 (PRN 1)的花色为嵌合体 ,该植株上的花多为黄色 ,但是也有乳白色花 ,另外还有 1朵花甚至 1个花瓣上同时具有黄色和白色区域 ,其余 3株 (PRN 2、 3、 4 )都开白花。PRN 4的花药开花前退化 ,其余 3株都可以看到 3～ 6枚花药 ,能够产生部分花粉 ,但是PRN 2的花粉不能被I2 KI溶液染色。PRN 2具有 4个蜜腺 ,PRN 1和PRN 3具有 2个蜜腺 ,PRN 4无可见蜜腺。在低温下PRN 2叶色正常 ,其余 3株幼叶表现不同程度缺绿。PRN 1的染色体数目为 2n =38,染色体平均配对构型为 14 6 7Ⅰ +10 0 7Ⅱ +1 0 6Ⅲ ,其染色体组构成可能是AACR ;PRN 2的染色体数目为 2n =35 ,染色体平均配对构型为 13 89Ⅰ +8 33Ⅱ +1 33Ⅲ +0 11Ⅳ ,PRN 3的染色体数目为2n =33,染色体平均配对构型为 14 0 0Ⅰ +7 82Ⅱ +1 0 0Ⅲ +0 0 9Ⅳ。PRN 4的染色体数目未能确定。与甘蓝型油菜回交后PRN 1～ 3植株各自产生了一定数量的种子 ,而PRN 4则未产生种子。对这些杂种及其后代的遗传及育种意义进行了讨论     

甘蓝型油菜(Eru CMS)与甘蓝种间杂种的同工酶和蛋白质分析

经胚抢救获得甘蓝型油菜(Brassica napus L.)(Eru CMS)与甘蓝(Brassica oleracea L.var.capitata L.)种间杂种,前期经过流式细胞仪、柱头染色体数目、花粉活力等分析获得一些真杂种。利用电泳法,对真杂种植株的3种同工酶(SOD、EST、COD)和蛋白质进行详细分析,了解了杂种与亲本的同工酶和蛋白质的特性差异。结果表明,杂种与亲本之间的同工酶和蛋白质存在较明显的差异:杂种的SOD、COD的酶带表现为偏父本甘蓝型;杂种的EST的酶带表现为偏母本油菜型;杂种的蛋白质电泳表现为不仅具有双亲的特征蛋白带,也有其自身特征蛋白带。     

Frequency-dependent fitness of hybrids between oilseed rape (Brassica napus) and weedy B. rapa (Brassicaceae)

Fitness of interspecific hybrids is sometimes high relative to their parents, despite the conventional belief that they are mostly unfit. F(1) hybrids between oilseed rape (Brassica napus) and weedy B. rapa can be significantly more fit than their weedy parents under some conditions; however, under other conditions they are less fit. To understand the reasons, we measured the seed production of B. napus, B. rapa, and different generations of hybrid plants at three different densities and in mixtures of different frequencies (including pure stands). Brassica napus, B. rapa, and backcross plants (F(1) ♀ × B. rapa) produced many more seeds per plant in pure plots than in mixtures and more seeds in plots when each was present at high frequency. The opposite was true for F(1) plants that produced many more seeds than B. rapa in mixtures, but fewer in pure stands. Both vegetative and reproductive interactions may be responsible for these effects. Our results show that the fitness of both parents and hybrids is strongly frequency-dependent and that the likelihood of introgression of genes between the species thus may depend on the numbers and densities of parents and their various hybrid offspring in the population.     

Production and analysis of intergeneric somatic hybrids between <Emphasis Type="Italic">Brassica oleracea</Emphasis> and<Emphasis Type="Italic"> Matthiola incana</Emphasis>

The gene pool of Brassica oleracea was enriched via intergeneric somatic hybridization between B. oleracea (2n = 18) and Matthiola incana (2n = 14). One hundred and eighteen plants were obtained from 96 calli. Only four plants (H1, H2, H3 and H4) showed an intermediate phenotype from the parents; among these, H1 and H3 arose from the same callus. Random amplified polymorphic DNA (RAPD), sequence-related amplified polymorphism (SRAP), and cytological analyses confirmed that H1 and H3 were hybrids. The nuclear DNA content of the regenerated plants was determined by flow cytometry. More than half of the plants contained a nuclear DNA content of 1.3 to 3.9 pg/cell, which was higher than the content of B. oleracea but lower than that of M. incana. H1 contained 4.89 ± 0.02 pg of DNA per cell, while H3 nuclear DNA content was estimated at 4.87 ± 0.06 pg/cell. Cytological study of the root-tip cells revealed that the majority of the H1 and H3 hybrid cells contained 28 chromosomes.     

Cytogenetic and molecular characterization of intergeneric hybrids between Brassica napus and Orychophragmus violaceus.

Twenty-two intergeneric hybrids from a cross between Brassica napus (AACC, 2n = 38) cultivar Oro and the ornamental crucifer Orychophragmus violaceus (OO, 2n = 24) were produced without embryo rescue. The plants were classified into three groups based on morphological and cytological observations and RAPD banding patterns. Plants of Group I had morphological traits of both parents and 2n = 29 chromosomes. In these plants, 62.1% of the pollen mother cells (PMCs) had the pairing configuration 1 III + 9 II + 8 I; the remaining PMCs had 10 II + 9 I. The plants possessed 97.6-98.8% B. napus specific and 9.2-11.7% O. violaceus specific RAPD fragments. Plants of Group II exhibited novel morphological traits and possessed 2n = 35, 36, or 37 chromosomes. Plants of Group III were morphologically similar to B. napus and possessed 2n = 19, 37, 38, or 39 chromosomes. Plants of Group II and Group III had 94.1-99.4% B. napus specific RAPD fragments and no O. violaceus specific RAPD fragments. Chromosome fragments were observed in PMCs of most of the F1 plants in all groups. Based on the cytological results and RAPD analysis, it is suggested that genome doubling and chromosome elimination occurred in the intergeneric hybrids of B. napus x O. violaceus.     

Alteration of chromosome behavior and synchronization of parental chromosomes after successive generations in Brassica napus x Orychophragmus violaceus hybrids.

In an earlier study, the progenies of intergeneric hybrids Brassica napus (2n = 38) x Orychophragmus violaceus (2n = 24) were investigated in successive generations (F1-F4) for the cytological phenomenon of parental genome separation during mitotic and meiotic division. In the present study, inbred lines (F5-F8) derived from 1 such hybrid were characterized for morphology, chromosome pairing behaviour, and genome composition. One F5 plant (2n = 31) with slightly yellow petals and 12:19 and 15:16 segregation ratios in its pollen mother cells (PMCs) produced F6 plants with distinct morphological characteristics and wide variations in fertility and chromosome numbers (2n = 25-38). F7 and F8 lines with distinctive morphology and wide ranges in chromsome numbers were established. In PMCs of F7 plants from 4 F6 plants, 0-12 labelled chromosomes from O. violaceus, which predominantly appeared as bivalents, were identified by genomic in situ hybridization. They behaved synchronously with B. napus chromosomes during meiotic division. The results provide molecular cytogenetic evidence of the inclusion of O. violaceus chromosomes in the original hybrids and the cytology in the hybrids documented earlier. They also show that chromosome behaviour was altered and the parental chromosomes became synchronized after successive generations.     

芥菜型油菜与海甘蓝属间杂种的获得与鉴定

通过常规杂交,结合胚胎挽救方法,获得“泸州四棱油菜”(Brassica juncea(L.)Coss.)与海甘蓝(Crambe abyssinica Hochst.ex R.E.Fries)的属间杂种,杂种的诱导率为2.1％。杂种F_1形态分别倾向于双亲之一或介于双亲之间,后期发育延迟,叶子皱缩。F_1的花粉大小变幅很大,同时还具有父本的4沟花粉类型,占10％～15％;花粉育性很低,通过荧光素二醋酸酯(FDA)测定,有活力的花粉平均为18.5％。F_1体细胞染色体数为63,介于双亲染色体数之间,花粉母细胞具有63~I。采用聚丙烯酰胺垂直凝胶电泳,杂种F_1代的同工酶具有父本的特征酶带,这进一步说明杂种的正确性。     

远缘杂交油菜核不育系的创建及其细胞学和形态学研究

在甘蓝型油菜与诸葛菜以及芥菜型油菜与诸葛菜属间杂交后代中分别发现1个和3个不育材料,经杂交和多代近交育成了相应的甘蓝型油菜不育系。通过对核不育系体细胞鉴定表明,所有新发现的不育系染色体数为38,均已恢复到甘蓝型油菜。这些不育系绝大部分花粉母细胞（PMC）在中期Ⅰ、后期Ⅰ和后期Ⅱ 3个时期染色体行为表现正常,但不同时期的PMC均会出现一定比例的异常现象,主要表现为染色体落后或染色体桥等。这些不育系属于单核败育型,不育株与可育株的花器形态差异明显,不育系还存在不同程度的死蕾等特点。通过对花器生长过程的研究,发现不育株雌蕊生长随雄蕊败育进程逐渐加快,而可育株雌蕊生长则存在两个生长缓慢阶段。此外,文章还讨论了这些不育系的应用前景。     

萝卜-芥蓝杂种F_1代创制及杂种鉴定

以萝卜为母本,以芥蓝为父本,采用人工去雄授粉的方法进行杂交,然后通过胚抢救(embryo rescue)得到F1代植株,并利用RAPD技术对杂种F1代幼苗进行了鉴定.RAPD鉴定结果表明:杂种表现出亲本的特异带或者亲本不具备的新谱带,有的还遗失了亲本的特异带或者共有带.     

Studies on the Relationships Between Moricandia and Brassica Species

Moricandia is the only genus with C3-C4 species within the family of Cruciferae. To provide the basic information of transferring C3-C4 and other important characteristics from Moricandia to Brassica crops, the relationships between Moricandia and Brassica species were studied based on crossability and RFLP fingerprinting. The crossability was very low between the two genera in the experiment. There was no hybrid seed obtained between M. arvensis and B. rapa though 8 000 flowers were crossed. 2 989 cross-pollinated ovaries were cultured and also no hybrid embryo was developed. However, four intergeneric hybrid shoots were generated from 105 cultured ovaries in the combination of M. arvensis x B. napus. The nucleus DNA polymorphism of restriction loci was detected with 23 genic DNA clones of B. napus for the samples of B. napus, B. rapa and B. oleracea, M. arvensis and M. nit, ns. A high homology was found between Moricandia and Brassica species. The similarity between M. nitens and B. rapa was even greater than that between B. rapa and B. napus. The close relationships between Moricandia species and Brassica crops, especially European B. rapa, were also detected with 4 beta mitochondria probes. The intensive homology between Moricandia C3-C4 species and Brassica crops evaluated with the RFLP markers revealed the possibility of transferring some important genes from the C3-C4 species to the domesticated species by sexual hybridization or protoplast fusion followed by recombination of homoeologous chromosomes.     

十字花科10属种与油菜萝卜胞质不育系杂交的花粉萌发情况观察

对10属种十字花科植物与油菜萝卜胞质不育系杂交时花粉在柱头上粘合、萌发、花粉管伸长等情况进行观察。结果表明：（1）海甘蓝花粉粒粘合较难;（2）48 h内无瓣焊菜〖WTBX〗(Rorippa dubia)〖WTBX〗、毛果诸葛菜(Orychophragmus violaceus)、桂竹香(Cheiranthus cheiri)、海甘蓝(Crambe abyssinica)花粉管的伸长受阻于花粉萌发启动之时,花粉壁内形成胼胝质塞;播娘蒿、紫罗兰、荠菜花粉管伸长但未进入乳突细胞;芝麻菜花粉管进入乳突细胞而未进入柱头,‘浠水白’(Brassica campestris)、蓝花子有花粉管进入柱头及花柱而未进入胚囊。