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1.
水稻籼粳杂种生殖障碍的基因定位分析 总被引:7,自引:0,他引:7
籼稻(Oryza sativa L.ssp.indica)与粳稻(O.sativa ssp.japonica)杂交优势明显但存在生殖隔离。生殖障碍主要表现为胚囊败育、花粉败育、开花时花药不开裂和雌雄异熟。应用具有137个标记位点的籼、粳杂交(“窄叶青8号”/“京系17”)F_1花药培养获得的127个双单倍体(DH)群体构建的RFLP图谱,对控制籼、粳杂种小穗败育的基因座位进行了定位研究。结果在第1、3、4、5、6、7、8、12染色体上检测到10个基因座位,其中第3、12染色体上的2个不育基因位点stj-3和stj-12与同一杂交组合F_2分离群体中发现的异常分离热点处于相同的染色体区段。Ssj-6的基因加性效应为负值,有增加籼、粳亲和性的作用;其余的不育基因座位皆有增加籼、粳杂种不育性的作用。 相似文献
2.
水稻籼粳杂交胚囊败育的遗传分析和基因定位 总被引:5,自引:0,他引:5
利用DH系构建的分子图谱及DH系衍生的2个回交群体定位了引起籼粳杂种胚囊败育的2个互补的主效基因esa-1(E1或e1位点)和esa-2(E2或e2位点),它们分别位于第6和第12染色体.在不育基因位点,籼稻基因型为E1E1e2e2,粳稻基因型为e1e1E2E2,杂交后代中基因型为E1E2,E1e2,e1E2的雌配子体正常发育,携带e1e2基因型的雌配子体表现败育.胚囊育性受配子体基因型控制,孢子体遗传背景影响胚囊败育基因的表达. 相似文献
3.
用绵恢725、蜀恢527和蜀恢881三个籼型恢复系、1个美国稻Lemont和1个爪哇稻香大粒作母本, 与1个日本特早熟粳稻Kitaake杂交, 研究了5个杂种F1及其亲本的光合生理表现。结果表明, 在高光通量密度(Photosynthetic flux density, PFD)条件下, 5个杂种F1净光合速率(Pn)明显高于双亲或双亲之一, 推测亲本与杂种F1之间不同的Pn同叶片中Rubsico活性有关。杂种F1的比较中, 在表观量子效率(j)、羧化效率(CE)、CO2补偿点(G)等方面, 籼粳亚种间杂种F1(绵恢725/Kitaake、蜀恢527/Kitaake、蜀恢881/Kitaake)对2个亚种内杂种F1香大粒/Kitaake(粳爪交)、Lemont/Kitaake(不同生态型的粳粳交, 美国稻属于特殊粳稻)具有明显的优势, 而蜀恢881含有粳型血缘, 蜀恢881/Kitaake也比典型籼粳亚种间杂种F1 绵恢725/Kitaake、蜀恢527/Kitaake优势稍逊一筹。5个杂种F1因为具有不同的遗传差异而表现出不同的光合优势, 在这方面, 典型籼粳亚种间杂交蜀恢527/Kitaake、绵恢725/Kitaake要优于其他杂交种, 说明亲本间遗传差异越大, 其杂种F1的光合优势越强。 相似文献
4.
水稻亚种间杂种F1光合特性研究 总被引:4,自引:0,他引:4
用绵恢725、蜀恢527和蜀恢881三个籼型恢复系、1个美国稻Lemont和1个爪哇稻香大粒作母本,与1个日本特早熟粳稻Kitaake杂交,研究了5个杂种F1及其亲本的光合生理表现.结果表明,在高光通量密度(Photosynthetic flux density,PFD)条件下,5个杂种F1净光合速率(Pn)明显高于双亲或双亲之一,推测亲本与杂种F1之间不同的Pn同叶片中Rubsico活性有关.杂种F1的比较中,在表观量子效率(ψ)、羧化效率(CE)、CO2补偿点(T)等方面,籼粳亚种间杂种F1(绵恢725/Kitaake、蜀恢527/Kitaake、蜀恢881/Kitaake)对2个亚种内杂种F1香大粒/Kitaake(粳爪交)、Lemont/Kitaake(不同生态型的粳粳交,美国稻属于特殊粳稻)具有明显的优势,而蜀恢881含有粳型血缘,蜀恢881/Kitaake也比典型籼粳亚种间杂种F1绵恢725/Kitaake、蜀恢527/Kitaake优势稍逊一筹.5个杂种F1因为具有不同的遗传差异而表现出不同的光合优势,在这方面,典型籼粳亚种间杂交蜀恢527/Kitaake、绵恢725/Kitaake要优于其他杂交种,说明亲本间遗传差异越大,其杂种F1的光合优势越强. 相似文献
5.
6.
普通栽培稻籼粳亚种间杂种结实率低是开展亚种间杂交育种和杂种优势利用的主要障碍。这一障碍是杂种花粉和胚囊的不育性引起的。不育性曾经认为是两者染色体在结构上存在微小的差异所致,但F_1植株减数分 相似文献
7.
研究表明,尽管(小偃7430×烟农15)和(小偃7430×鲁麦1号)两个杂种F_1花粉母细胞减数分裂过程非常紊乱,但小孢子能正常发生,其可育花粉分别为87.95%和86.80%,能够满足传粉受精的需要。(小偃7430×烟农15)杂种F_1 91.20%的雌配子体发育正常,其中80.35%发生了正常的双受精。无论在发育正常的种子中,还是瘪小或中途停止发育的种子中,胚的分化基本能够完成,但在正常受精的子房中仅有12.10%的胚乳能正常发育。因此胚乳败育是导致八倍体小偃麦与普通小麦杂种F_1自交结实率降低的主要原因。 相似文献
8.
以2个籼稻品种和2个粳稻品种及其籼粳杂种一代为材料,通过水培试验研究了硅对籼粳亚种间杂种雌雄配子育性和结实率的影响。结果表明:4个水稻亲本的育性正常,而亚种间杂种‘台中65’/‘广陆矮4号’和‘穞稻’/‘秋光’F1花粉育性分别为40.1%和50.3%,小穗育性分别为25.8%和40.3%;其F1胚囊具有正常的卵细胞、助细胞、极核及反足细胞,胚囊败育率分别为5.33%和3.33%。加硅处理F1每个柱头上花粉粒多于25粒的小花数分别占90%和90.5%,而不加硅处理高于20粒的小花数仅占8%和10%;加硅处理F1花粉离体萌发率分别为75.15%和76.23%,小穗的结实率分别达到65.5%和68.7%,而不加硅处理的分别为46.7%和48.13%,小穗结实率分别只有25.8%和40.3%,且加硅处理极显著高于不加硅处理。研究表明,水稻籼粳杂种存在半不育现象,并主要由花粉半不育和花药开裂性差造成;硅肥能促进杂种F1植株的花药开裂,明显增加柱头上花粉粒数目,并促进花粉萌发,显著提高小穗的结实率。 相似文献
9.
水稻广亲和性遗传的主基因一多基因混合模型分析 总被引:13,自引:2,他引:13
籼、粳亚种间的F1一般表现为半不育,这限制了籼、粳杂种优势的利用。广亲和基因的发现及其遗传研究有助于揭示这种半不育现象的遗传本质,使克服籼、粳亚种间F1的半不育成为可能。本研究采用主基因-多基因混合遗传模型,分析了籼、粳杂交组合3037/02428的P1、P2、F1、B1、B2和F2六世代材料。研究结果显示:广亲和性的遗传除受单个主基因控制外还受多基因的影响。在利用广亲和基因克服亚种间的半不育性时不仅要考虑主基因对育性的作用,也不能忽视多基因对育性的影响。 相似文献
10.
以台中65等基因F_1不育系为遗传测验种,测定了栽培稻(O.sativa)45个品种在3个F_1不育基因座的基因型和等位基因的分化度。在S-E3基因座上,除Dular带有S_i/S_i基因型外,其余被测品种均带有S_i/S_i基因型。在S-E2和S-E5基因座上,籼型品种带有高频率的S_i基因,而粳型品种带有高频率的S_i基因。S_i和S_i均具有不同的分化度。籼型品种携带的S_i基因和粳型品种携带的S_i基因具有较高的分化度。中间型品种和广亲和品种的等位基因分化在S-E2基因座上与粳型品种相似,而在S-E5基因座上与籼型品种相似。此外,分析了各类型品种相互杂交F_1杂种在S-E2和S-E5基因座的杂合率、杂合度和杂合性。与籼/粳杂种相比,中间型品种(包括广亲和品种)与籼型和粳型品种杂交,F_1杂种均具有较低的平均杂合性,从而表现出较高的亲和性。因此,无论是杂种不育性还是杂种亲和性均由花粉不育基因控制。花粉不育基因也称为特异亲和基因。 相似文献
11.
在小麦(Triticum aestivum L.)雌配子体发育过程中,胚囊周围邻近的珠心细胞退化降解,并出现很高的酸性磷酸酶反应,特别是合点部分最强。电镜细胞化学定位也表明退化珠心细胞质中有强烈的酸性磷酸酶活力,它们存在于多层环状的胞质结构中,而远离胚囊的非退化珠心细胞中无上述结构,酸性磷酸酶活性仅出现于液泡中。认为珠心细胞的退化是一种自溶现象。从功能大孢子至七细胞胚囊期,胚囊内部胞质酸性磷酸酶活性很低,合点与珠孔两端的反应强度无明显区別。后期成熟胚囊阶段,反足细胞中出现强烈酸性磷酸酶活性,中央细胞次之,而助细胞及卵细胞中很弱。 相似文献
12.
竹节参雌配子体发育的研究 总被引:2,自引:0,他引:2
本文报道了竹节参(Panax japonicus C.A.Mey)雌配子体(胚囊)的发育过程。竹节参大孢子母细胞减数分裂产生线形排列的大孢子四分体。胚囊发育属蓼型,由合点端大孢子发育而成。游离核胚囊时期,胚囊珠孔端的细胞器种类和数量都较胚囊合点端多;胚囊合点端相邻的珠被细胞中有含淀粉粒的小质体,与胚囊珠孔端相邻的退化中的非功能大孢子中则有含淀粉粒的大质体和大类脂体。成熟胚囊中,反足细胞较早退化;极核融合成次生核;卵细胞高度液泡化,细胞器数量较少;助细胞则有丰富的细胞器和发达的丝状器。PAS反应表明,受精前的成熟胚囊中积累淀粉粒。次生核受精后,很快分裂产生胚乳游离核,到几十至数百个核时形成胚乳细胞。卵细胞受精后则要经过较长的休眠期。 相似文献
13.
Calcium changes during megasporogenesis and megaspore degeneration in lettuce (<Emphasis Type="Italic">Lactuca sativa</Emphasis> L.) 总被引:1,自引:1,他引:0
Yi Lan Qiu Ru Shi Liu Chao Tian Xie Scott D. Russell Hui Qiao Tian 《Sexual plant reproduction》2008,21(3):197-204
Potassium pyroantimonate was used to localize loosely-bound calcium in young ovules of lettuce (Lactuca sativa L.) during megasporogenesis to investigate the relationship between ionically available calcium and megaspore degeneration.
At the megasporocyte (megaspore mother cell) stage, few calcium precipitates were located in the ovule. Following meiosis
in the megasporocyte, a linear tetrad of four megaspores is formed, with three of the four megaspores degenerating from the
micropylar end inward. Only the chalazal-most megaspore continues to develop, becoming the functional megaspore. A decrease
in amount of calcium precipitates in the megaspore, particularly in the nucleus, precedes the breakdown of the micropylar
megaspores, which subsequently undergo structural disintegration and loss of recognizable cellular features. A partial recovery
of calcium precipitates occurs during later degeneration. The functional megaspore retains a consistently higher concentration
of calcium precipitates during development, which is retained in the developing embryo sac. This, to our knowledge, is the
first report related to calcium dynamics during megaspore degeneration, and may facilitate future research aimed at elucidating
the mechanisms of megasporogenesis. 相似文献
14.
以水稻雌性不育材料FS-1为试验材料,采用石蜡连续切片技术对FS-1及其亲本藤坂5号幼穗发育中期的胚囊进行观察,结果表明(1)亲本的胚囊都能正常发育分化,成为功能健全的雌配子体,而FS-1的胚囊却普遍发生败育,在胚囊原来的区域充满了胚囊残迹和解体的珠心细胞.(2)败育基本上发生在功能大孢子发生期,近合点端的大孢子和珠孔端的三个大孢子都发生解体,实验中未发现二核、四核或八核的败育胚囊,我们初步认为,FS-1胚囊败育发生在功能大孢子发生期. 相似文献
15.
LIU Xiang-Dong LU Yong-Gen ZHU Hong-Liang XU Xue-Bin FENG Jiu-Huan XU Shi-Xiong 《植物学报(英文版)》2004,46(7):829-838
APⅣ is a rice mutant that develops poly-egg apparatus in its embryo sac. All the eggs that make up the poly-egg apparatus can be fertilized respectively resulting in the development of polyembryony. The routes taken in the development of polyembryony appear to fall mainly into three variant polygonum pattern types, designated as 5-2-1 , 5-3-0 and 6-2-0 types. Out of the embryo sacs of APⅣ studied about 50% exhibited variant polygonum type with associated abnormal nuclear behavior and microtubule organizational changes. Some of the major abnormal features shown by the three variant polygonum types were described and they included the following: For the 5-2-1 type At the beginning of the four-nucleate embryo sac development, one pair of nuclei became located to the micropylar end and the other pair to the chalazal end. As embryo sac further developed, long connecting microtubule (MT) bundles that existed between the two nuclei in the chalazal end play a role in the movement and positioning of that nucleus. As a result of the activities of these MT, one of the nuclei in the chalazal end moved to the micropylar end resulting in the micropylar end having three nuclei and the chalazal end only one. For the 5-3-0 type In the two-nucleate embryo sac of the 5-3-0 type, one nucleus remained at the micro-pylar end, while the other one became located near the central region. In the four-nucleate embryo sac, the pair of nuclei aligned in parallel to the micropylar-chalazal axis often having one of its nuclei relocated to the micropylar end as a result of associated MT activities. For the 6-2-0 type All the nuclei in the megaspore, two- and four-nucleate embryo sacs became located to the micropylar end. At the early stages of the eight-nucleate embryo sac development, the two nuclei in the central region of the embryo sac (originally at the micropylar end) became polar nuclei. All the other nuclei remained at the micropylar end were surrounded by reticulate MT. The relationship between abnormal behavior of nuclei and MT organi-zation in the development of rice embryo sac was discussed. 相似文献
16.
用焦锑酸盐沉淀法对鹤顶兰(Phaius tankervilliae)胚囊发育过程中的Ca2+状态进行超微细胞化学定位。观察结果发现:功能大孢子时期,珠孔端的胚囊壁上开始出现小颗粒的Ca2+沉淀,但功能大孢子细胞内未见明显的Ca2+标记;四核胚囊时期胚囊壁上的Ca2+沉淀明显增多,液泡膜上有Ca2+沉淀出现,珠孔处的Ca2+沉淀颗粒较大;成熟胚囊时期,胚囊壁上的Ca2+沉淀进一步增多,且胚囊内Ca2+分布明显增多,且极性明显,珠孔端助细胞、卵细胞比合点端反足细胞有更多的Ca2+沉淀。鹤顶兰成熟胚囊内Ca2+积累的来源有:(1)在胚囊成熟前主要由珠被细胞、珠细胞通过胞间连丝向胚囊运输;(2)以沉淀有大量Ca2+的小泡形式跨过胚囊壁进入胚囊。 相似文献
17.
本文对普通栽培稻不同品种类型间杂种小穗败育的细胞学基础及雌性败育的过程进行了研究,结果表明:(1)引起杂种小穗败育的原因有胚囊败育、花粉败育、开花时花药不开裂和雌雄异熟。其中胚囊败育而丧失受精能力是引起低结实率的最重要的因素,开花时花药不开裂和雌雄异熟在一定程度上形成了雌雄性细胞时间和空间的隔离屏障。(2)杂种植株的所有大孢子母细胞都能进行正常的减数分裂,形成四个大孢子,败育主要发生在靠近合点端的功能大孢子分化形成胚囊的早期,有的功能大孢子在进行第一次有丝分裂前便萎缩解体,多数走向败育的功能大孢子能完成一次或二次有丝分裂,形成二核或四核败育胚囊。败育的共同特征是无液泡的分化,细胞质少或退化,在败育胚囊残迹部位,解体的珠心细胞和萎缩的胚囊残渍混杂垛叠。已受精的杂种子房没有观察到胚及胚乳发育的异常。籼粳杂种胚囊败育频率较高。 相似文献
18.
水稻雌性不育材料FS-1胚囊败育的细胞学观察 总被引:1,自引:0,他引:1
以水稻雌性不育材料FS-1为试验材料,采用石蜡连续切片技术对FS-1及其亲本藤坂5号幼穗发育中期的胚囊进行观察。结果表明:(1)亲本的胚囊都能正常发育分化,成为功能健全的雌配子体,而FS-1的胚囊却普通发生败育,在胚囊原来的区域充满了胚囊残迹和解体的珠心细胞。(2)败育基本上发生在功能大孢子发生期,近合点端的大孢子和珠孔端的三个大孢子都发生解体,实验中未发现二核,四核或八核的败育胚囊,我们初步认为,FS-1胚囊败育发生在功能大孢发生期。 相似文献
19.
Studies on the formation and development of the embryo sac of the apomictic material of Pennisetum squamulatum Fresen indicated that normal archesporial cell did form with consequent development of a megaspore mother cell and later meiotic division to give rise to a triad. But invariably the megaspore mother cell and the triad underwent degeneration after formation. During the period of formation or degeneration of the megaspore or the triad a number of nucellar cells around the degenerated sexual cell became much enlarged. Frequently, one of the enlarging nucellar cells near the micropylar end became vacuolated and then developed into an aposporous uninucleate embryo sac, which underwent two further mitotic divisions to form an aposporous four-nucleate embryo sac, where the four nuclei remained in the micropylar end. Thus in the mature aposporous embryo sac there were one egg cell, one synergid and one central cell (containing two polar nuclei). Antipodal cells were completely lacking. The pattern of development of the aposporous embryo sac resembles the panicum type. There were two types of embryo formed during apomictic development namely ( 1 ) The pre-genesis embryo--embryo formed without fertilization, 1 to 2 days before anthesis, and (2) The late-genesis embryo--derived from the unfertilized egg cells, 3 to 4 days after anthesis. In the late-genesis embryo type, the egg cell divided after the secondary nucleus has undergone division to form the endosperm nuclei. All egg cells developed vacuoles before they differentiated into embryos. The development of the aposporous embryo followed the sequence of the formation of globular, pearshaped embryo and full stages of differentiation. The unfertilized secondary nucleus divides to form free endosperm nuclei after being stimulated by pollination. The development of the endosperm belongs to the nuclear-type. 相似文献
20.
鹤顶兰胚囊发育过程中微管变化的共焦显微镜观察 总被引:3,自引:0,他引:3
光镜的观察确定了鹤顶兰(Phaius tankervilliae (Aiton) Bl.)胚囊发育属单孢子蓼型。应用免疫荧光标记技术及共焦镜观察了胚囊发育过程中微管分布的变化。当孢原细胞初形成时,细胞内的微管呈网状分布。之后,孢原细胞体积增大发育为大孢子母细胞。大孢子母细胞延长,进入减数分裂Ⅰ。微管由分裂前的网状分布变为辐射状排列。二分体的两个细胞内的微管分布一样,呈辐射状。四分体的近珠孔端的3 个大孢子解体,细胞内的微管消失。靠合点端的功能大孢子内有许多微管呈网状分布。当功能大孢子进入第一次有丝分裂时,细胞内的微管由网状变为辐射状,从核膜伸展至周质。再经两次有丝分裂形成八核胚囊。在核分裂之前微管一般是呈网状分布并紧包围着核。在分裂期间二核和四核胚囊都呈极性现象,微管系统也呈极性分布。微管在八核胚囊内的分布变化情形特别复杂。首先,八核分别作不同程度的移动,其中两个核移向胚囊中央,珠孔端和合点端的3 个核分别互相靠拢,形成3 个区,即中央区、反足区和卵器区。胚囊未形成区时,8 个核都被网状分布的微管包围着。当胚囊明显分成区时,反足区内的微管仍作网状分布。中央区的微管分布则趋疏松,形成篮形结构,包围着液泡和两个极核。在 相似文献