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1.
芥菜型油菜与诸葛菜属间杂种F1的可育性研究 总被引:2,自引:0,他引:2
通过胚胎救的快速繁殖,首次成功地获得了芥菜型油菜与诸葛菜的远缘杂种。杂种植株具有期望的染色体数2n=30,具有较好的结实性,花粉萌发率为42.8%。对杂种F1的细胞学观察表明:杂种细胞内存在染色体组分割机制,可形成n=18和n=12的大小配子,从而导致杂种可育的结果。 相似文献
2.
甘蓝型油菜-埃塞俄比亚芥二体附加系植株形态及细胞学鉴定 总被引:3,自引:0,他引:3
从甘蓝型油菜品种“3-63-4-5-1”与埃塞俄比亚芥品种“Dodolla”杂种F1植株开放受粉获得的F2群体中筛选出一株半不育、矮杆、甘蓝型油菜类型植株,经连续4个世代自交、分离鉴定出一个二体附加系“92I1096”。细胞学观察结果,其根尖细胞染色体数2n=40,比其母本甘蓝型油菜(2n=38)多两条额外染色体。花粉母细胞(PMCs)减数分裂中期(MI)染色体构型平均为0.47I+19.77Ⅱ, 相似文献
3.
利用自花结实的4D缺体小麦作母本,与中2、中5及中1001等八倍体小偃麦杂交,获得的杂种F1植株除4D缺体×中5育性极低外,其余组合略低于普通小麦×八倍体小偃麦的自交结实率。杂种F1体细胞2n=48。4D缺体×中2的F1花粉母细胞减数分裂MI染色体配对的平均构型为18.81(15-22)Ⅱ+0.57(0-3)Ⅲ+0.11(0-2)Ⅳ+8.23(6-10)Ⅰ。观察结果同时表明:(1)单价体的分布在每个PMC中以8为众数;(2)单价体之中的两个在多数的PNCs中能形成次级联合配对,说明4D与4E染色体具有部分同源关系;(3)杂种F1多数花粉母细胞中多价体的出现表明八倍体小偃麦中E染色体组具有促进部分同源染色体配对的基因。 相似文献
4.
从获得4倍体(亚洲棉×司笃克氏棉)×陆地棉2(A2E1)×2(AD)1杂交种子(AD)1A2E1到BC3F1植株,历时了10a时间。该组合涉及到3个亲本棉种之间的亲缘关系,特别是E1染色体组与A2和(AD)1两组之间的亲缘关系较远,导致杂种低世代(F1和BC1F1)雌、雄高度不育。表现在花粉几乎全部败育,发育不正常的胚囊达90%以上。直至BC3F1的群体中还有10%的不育株。可育株的花中仍有约25%不育花粉和35%发育不正常的胚囊。此组合必须经过多次回交、自交及自然恢复过程(越冬),方能最后获得雌、雄育成恢复正常的后代。 相似文献
5.
异源三倍体水稻原生质体培养及植株再生 总被引:4,自引:0,他引:4
本试验利用二倍体栽培稻品种8204,染色体组型为AA,2n=24作为母本,四倍体小粒野生稻染色体组型为BBCC,2n=4x=48作父本杂交,获得异源三倍体杂交种,染色体组型为ABC。F1根尖检查,染色体数目为2n=3x=36。用该异源三倍体杂交种的纪穗诱导愈伤组织,经长期继代培养进行原生质体游离,获得了再生植株白化苗。试验结果表明,用琼脂糖包埋法保进原性质体再生愈伤组织。分化培养基用玉米素,激动素 相似文献
6.
小麦杂交育种F1组合的量化选择方法 总被引:1,自引:0,他引:1
本文提出了F1组合评选的两种量化方法-最小平方和(LSS)法与最小绝对值和(LSA)法,分别以SS=n∑iWi(F1i-Ii)^2/max(F1i-Ii)^2)和SA=n∑iWi(│F1i-Ii?/max│F1i-Ii│)度量F1组合多个性状表现与育种目标接近程度,SS或SA值越小,则F1组合越好,采用LSS法,LSA法32个小麦高产育种F1组合进行了分析,以F2实际选择情况时验证,结果表明,LS 相似文献
7.
棉属[AG]与[AD]两个复合染色体组种间杂种的同工酶与核型研究 总被引:3,自引:0,他引:3
利用聚丙烯酰胺凝胶电泳法对人工合成的[AG]复合染色体组的异源四倍体与[AD]复合染色体组的陆地棉、海岛棉、夏威夷棉、黄褐棉的种间杂种F1及其亲本进行了过氧化物酶同工酶和细胞色素氧化酶同工酶分析,并对三元杂种[A2×G1] ×[AD]1及其亲本进行了核型分析。结果表明:(1)异源四倍体的基因转移到了杂种后代,并得以表达;( 2)三元杂种[A2 × G1] ×[AD]1的核型公式为 2n= 4x= 52= 2M + 44m(SAT)+6sm(SAT),属于1B类型。 相似文献
8.
棉花杂种优势与几种生理生化指标的相关性 总被引:12,自引:0,他引:12
对8个陆地棉杂种及其亲本的四种生理生化指标进行了测定,并研究了这些指标与杂种产量优势的相关性,结果表明:幼芽匀浆互补法对F1皮棉超亲优势、中亲优势的预测相符率分别为87.5%和75.0%;杂种萌动种子ATP含量普遍高于双亲平均值。超亲优势、中亲优势与杂种ATP含量及双亲ATP含量的平均值均呈正相关,且中亲优势与杂种ATP含量相关显著(r=0.7188,P〈0.05);杂种产量优势与盛蕾期、盛花期的 相似文献
9.
以陆地棉(C.hirsutum)为母本,野生种辣根棉(C.armourianum)做父本杂交,对杂种一代的部分形态性状遗传、花粉粒的育性、成熟胚囊、自然授粉和用陆地棉回交后结实率进行了比较研究。结果表明,三倍体(陆地棉×辣根棉)F1的形态性状居双亲的中间类型占观察性状的40.9%,偏父性状占31.8%,偏母性状占22.8%。绝大多数花粉无生活力,仅0.4%有弱的生活力。在开花前一天的成熟胚囊中,异常胚囊占观察胚珠的91.2%,正常胚囊占8.8%。杂种一代自然授粉或用陆地棉回交可获得极少量种子,从而证明三倍体(陆地棉×辣根棉)F、少数胚囊发育比较正常和具极少数可育花粉。 相似文献
10.
本文研究了原产澳大利亚的稀毛棉(G.pilosum)、皱壳棉(G.costulatum)、杨叶棉(G.populifolium)的核型。稀毛棉的核型公式为2n=2x=26=16m(4sat)+10sm,皱壳棉为2n=2x=26=16m(4sat)+10sm,杨叶棉为2n=2x=26=18m(4sat)+8sm。随体均有两对,一对位于第11对染色体的长臂上,另一对位于第13对染色体的短臂上。平均臂比和长度比分别为稀毛棉1.53和2.51、皱壳棉1.55和2.31、杨叶棉1.49和2.37,其核型均属于Stebbins的2B类型。对称系数稀毛棉为26.04,皱壳棉为27.93,杨叶棉为28.32。三者彼此之间的核型重合率均在90%以上。核型的同质性说明三者在起源上有很好的一致性 相似文献
11.
杂种优势是自然界的一种普遍现象,但在杂交水稻育种实践中也时常发现杂种劣势现象,为了更好地阐明杂交育种理论和揭示品种本质有必要对杂种劣势的遗传机理进行更深层次的研究。本研究旨在通过两个韩国粳稻品种(Aranghyangchalbyeo和Sanghaehyangheolua)及其正反交后代(F1,F2)特性的比较,解析水稻杂种劣势的表型、类别及其遗传模式。形态学分析表明,正反交F1植株的劣势表现均明显、稳定且不受环境影响,主要农艺性状的中亲劣势值均为负值,其中F1的株高、分蘖数和结实率与亲本相比显著降低(P<0.01);F1劣势表现从发芽后第5d开始,地下部的劣势表现比地上部更为明显。细胞组织结构观察表明,分蘖盛期F1劣势植株叶片发育正常,而其根部气腔发育较亲本迟缓,从而阻碍了地上部与地下部的通气情况,因此也影响了整个植株的正常生长。遗传学分析发现,该劣势组合成熟期F2群体中正常与劣势植株呈现7:9的分离,结合分蘖盛期该F2群体株高的分离模式,推断该杂种劣势的表型是由两个互补的显性基因控制。该研究结果为揭示杂种劣势的多样性及分子遗传机制提供了新思路。 相似文献
12.
B. S. Ahloowalia 《Euphytica》1982,31(1):103-111
Summary Aneuploid plants of perennial ryegrass (Lolium perenne L.) with 2n=15 to 30 chromosomes were obtained by crossing a near-triploid (2n=3x+1=22) with a diploid or on open-pollination with diploids and tetraploids. Aneuploids occurred with a frequency of 83% in near triploid × diploid progeny and 92% on open-pollination with diploid and tetraploid plants. Aneuploid plants with 15 to 18 chromosomes resembled diploids in morphology and those with 19 to 30 chromosomes were akin to tetraploids. Meiotic studies suggested that most aneuploid plants resulted from transmission of aneuploid egg cells (n=8 to 23). Aneuploid plants with 2n=27 to 30 chromosomes in the progeny of 22×14 cross originated from unreduced egg cells. Plants with 19 to 21 chromosomes were recovered only by immature seed culture. Aneuploid plants with 26 to 30 chromosomes and triploids (2n=21) had higher pollen fertility and bigger seeds than plants with 15 to 22 chromosomes. 相似文献
13.
Z. Zwierzykowski E. Zwierzykowska A. Slusarkiewicz-Jarzina A. Ponitka 《Euphytica》1999,105(3):191-195
Anther culture was used to generate progeny from pentaploid F1 hybrids of Festuca arundinacea (2n = 6x = 42) with Lolium multiflorum
(2n = 4x = 28). Of 6360 anthers cultured, 676 green and 3460 albino plantlets were regenerated. Large differences in the anther
culture response were observed among the F1 hybrids with the regeneration efficiency ranging from 0 to 28.8 green plants per
100 anthers cultured. All regenerants were less vigorous than the F1 hybrids and considerable morphological variation was
present in such characters as plant height, leaf length and width, and the type and length of inflorescences. Among 295 plants
which flowered during the first growing season only 38 were male fertile with pollen stainability ranging from 7.7% to 84.7%.
Chromosome numbers in 170 analyzed regenerants ranged from 14 to 42 and fell into three groups: 14 to 21, 28, and 30 to 42.
The experiment demonstrated that generation of large populations of androgenic progeny was feasible.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
14.
Summary Nine japonica × indica F1 hybrids of rice involving 6 indica and 3 japonica tropical varieties, were large scale anther cultured. The frequency of callusing anthers averaged 18.7%. The microspore-derived calli produced green plants with a mean frequency of 8.7%. Albino plants represented 61% of the shoot forming calli. Monitoring of the green and albino plant regenerating capabilities of calli arising between week 4 and week 8 of incubation of the anthers showed no increase of the albino/green ratio and a slow decrease of the shoot forming ability of the transferred calli after the sixth week of culture. Spontaneous doubled haploids (SDH) represented 46% of the regenerated green plants in 4 hybrids. However, a high frequency of partially sterile regenerants was noticed among 132 SDH plants generated from a hybrid. 相似文献
15.
人工合成的双二倍体在遗传和植物育种中有重要作用。为探讨远缘杂交后代双二倍体育性提高及其细胞学稳定的分子机制,利用ALFP、MASP技术对节节麦-黑麦杂种及其双二倍体S1~S4代的基因组变异进行了分析。该双二倍的S1~S4代体细胞染色体数2n = 28的植株的比例从57.1%提高到92.5%,2n = 28的植株的花粉母细胞减数分裂中期二价体平均数目从11.7提高到12.25,平均结实率从24.5%提高到51.3%。利用两套分别扩增重复序列和单拷贝序列的酶切引物组合EcoR I/Mse I (E-M)、Pst I/Mse I (P-M)对节节麦–黑麦杂种F1和双二倍体S1~S4代扩增表明,基因组序列变异主要发生于F1代,且以序列消除为主。E-M和P-M引物扩增带中, 节节麦基因组在F1代的序列消除带数占各代总消失带数的70.00%和52.95%,而在黑麦基因组为96.88%和81.64%。MSAP分析表明节节麦和黑麦杂种和加倍能够导致节节麦和黑麦基因组序列甲基化状态改变,以甲基化为主,仅发生在F1和S1代。在S2~S4代中没有检测到甲基化变异。 相似文献
16.
杂种劣势是存在于自然种群之间的一种合子后生殖障碍,水稻杂种劣势的研究有利于探讨种间、亚种间和亚种内杂交不亲和原因,对建立新的杂种优势利用模式具有重要的理论及实践意义。本研究旨在通过对三个韩国粳稻劣势亲本"Aranghyangchalbyeo"(CH7)、"Sanghaehyangheolua"(CH8)和"Shinseonchalbyeo"(CH9)及其杂交后代(F1, F2)的生物学特征、特性进行比较,解析水稻粳稻亚种内杂种劣势的遗传模式;同时利用单倍型分析和图位克隆比对,探明CH8和CH9两个劣势亲本中所携带的劣势相关基因序列差异。结果表明,携带劣势基因的亲本自身生长正常,但正反交后F1表现稳定且明显的杂种劣势,F2群体中劣势植株与正常植株呈现9:7的分离,推断该杂种劣势的表型由两个互补的显性基因控制;劣势亲本CH8第1号染色体携带了稀有的劣势基因Hwc1;劣势亲本CH9不携带Hwc1和Hwc2基因,可能携带了其他劣势基因。该结果为揭示杂种劣势的基因多样性及分子遗传机制提供了科学依据。 相似文献
17.
大豆细胞质遗传芽黄突变体的发现 总被引:10,自引:1,他引:10
本研究新发现一个大豆芽黄突变体NJ89-3。该突变体典型表现为,从第一对真叶开始,新生叶表现明显黄化,但随叶片充分伸展定形,逐渐变为正常绿色。植株最后一张叶片充分伸展定形后,芽黄植株与正常绿色植株并无明显区别。研究表明NJ89-3的芽黄性状由细胞质基因突变引起,属细胞质遗传,建议将此细胞质基因命名为cyt-Yv。 相似文献
18.
Three hybrid plants with different combinations of D and R genomes were produced from crosses between Aegilops squarrosa (2×: and 4×) and Secale cereale (2× and 4×) using embryo culture. Production frequencies of mature hybrids, having the genomes DR, DDR and DDRR, were 2.0%, 5.2% and 2.2 %, respectively, of florets pollinated. Amphidiploids were obtained directly from the cross between tetraploid parents. The majority of their morphological features were intermediate between those of the parents but, as with rye, the rachis was tough. Diploid and triploid hybrids were completely seed-sterile, whereas the amphidiploid had an average self-fertility of 4.5 % with a range of 0 to 45 %. The somatic chromosome numbers of diploids, triploids and amphidiploids were 2n = 14, 21 and 28, respectively. At meiotic metaphase I, the mean chromosome associations were 0.01 III + 0.26 II + 13.4 I in diploids, 6.96 II + 7.1 I in triploids, and 10.5 II + 7.9 I in amphidiploids. In diploids, pairing between D and R chromosomes was observed in the form of end-to-end types without chiasmata. Homologous pairing between D chromosomes was predominant in plants having two sets of D genomes. Amphidiploids showed a diploid-like chromosome behaviour. Homoeologous pairing was not observed in either triploids or amphidiploids. 相似文献
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20.
为了探索栽培稻与药用野生稻种间杂种体内异源基因组重组引起的DNA甲基化变异规律,及其生物学效应,利用甲基化敏感扩增多态性(MSAP)技术对辽粳944、药用野生稻及其杂种F_1不同发育时期的叶片和小穗基因组DNA甲基化水平和模式的遗传变异特点进行了分析。结果表明,辽粳944、药用野生稻及其杂种F_1的叶片和小穗DNA的甲基化水平表现出相同的变化趋势,即随着生长发育的进行,DNA甲基化水平呈下降趋势,各组织的全甲基化率均显著高于半甲基化率(P=0.000);杂种在分蘖期、减数分裂期及开花期叶片DNA平均总甲基化率、全甲基化率和半甲基化率分别为20.19%,16.06%及4.13%,其甲基化水平高于双亲;而杂种在减数分裂期、小孢子发育期及花粉成熟期小穗DNA平均总甲基化率、全甲基化率和半甲基化率分别为17.38%,13.67%及3.71%,均比辽粳944高,而比药用野生稻低;杂种小穗的半甲基化率显著高于辽粳944(P=0.015)。杂种叶片和小穗DNA的甲基化模式均有5种类型。经过对94个甲基化特异片段的序列分析,有38个片段的序列与已知或假定功能的基因具有同源性。为进一步研究栽培稻与野生稻种间杂种不育机理奠定了基础。 相似文献