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1.
矮沙冬青雌配子体及胚胎发育研究   总被引:5,自引:0,他引:5  
周江菊  唐源江  廖景平   《广西植物》2006,26(5):561-564
矮沙冬青子房单心皮1室,边缘胎座,弯生胚珠,胚珠具双珠被、厚珠心。大孢子孢原细胞发生于珠心表皮下,大孢子母细胞减数分裂形成直线排列的四分体,合点端大孢子具功能,并按蓼型胚囊发育,雌配子体成熟于4月中旬。双受精后,胚乳发育为核型。在矮沙冬青大孢子发生、雌配子体和胚胎发育过程中未发现异常现象,因此认为矮沙冬青濒危不存在雌性生殖结构与发育过程异常的内在因素。  相似文献   

2.
采用石蜡切片技术对深山含笑大、小孢子的发生和雌、雄配子体发育进行观察:深山含笑花药4室,花药囊壁由5-7层细胞构成,腺质绒毡层,小孢子胞质分裂为修饰性同时型,四分体有四面体型、对称型,偶有交叉型,成熟花粉为2细胞型;胚珠倒生、双珠被、厚珠心,大孢子四分体直线型排列,合点端为功能大孢子、雌配子体发育方式为蓼型。从雌、雄配子体发育时间的先后来看,深山含笑春季雌、雄配子体能正常发育,雄蕊先熟,雄蕊和花瓣凋谢后雌蕊大孢子母细胞才形成。而秋季开花的深山含笑,花药中小孢子在孢原细胞或初生造孢细胞期停止发育,花粉败育;雌蕊胚珠珠心组织也未见大孢子母细胞发育,开花后雌蕊随花柄凋落。该研究为深山含笑生殖发育和杂交育种积累了资料。  相似文献   

3.
利用常规石蜡制片法研究了海桐大、小孢子发生及雌、雄配子体发育的过程。结果显示:(1)小孢子母细胞减数分裂过程中的胞质分裂为连续型,四分孢子为以四面体形为主,四分孢子后期部分小孢子壁皱缩;(2)花药壁由4层结构组成,由外到内为表皮、药室内壁、中层和绒毡层;(3)海桐具多个胚珠,单珠被,薄珠心,胚珠类型为倒生胚珠。大孢子母细胞减数分裂主要形成线形排列的4个大孢子,还具有少有的十字形排列,功能大孢子位于合点端;(4)胚囊发育属单孢型的蓼型,成熟的雌配子体为四细胞五核胚囊。  相似文献   

4.
羊草大、小孢子发生与雌、雄配子体发育的观察   总被引:5,自引:0,他引:5  
卫星  申家恒 《西北植物学报》2003,23(12):2058-2065
利用常规石蜡制片技术研究了羊草大、小孢子发生及雌、雄配子体发育过程。主要结果是:(1)花药壁由4层结构组成,最外层为表皮,其次为药室内壁,1层中层,最内层绒毡层为分泌型;(2)小孢子母细胞减数分裂过程中的胞质分裂为连续型,四分孢子为左右对称型;(3)成熟花粉粒为3细胞型,具单萌发孔;(4)羊草为单子房、单胚珠,双珠被、薄珠心、倒生型胚珠,大孢子母细胞减数分裂形成线型或T型排列的4个大孢子;合点端大孢子具功能;(5)具有双孢原,双大孢子母细胞、双大孢子四分体和双胚囊的情况;(6)胚囊发育为蓼型,反足细胞经无丝分裂形成4~6个细胞的反足细胞群;(7)同一朵花中,前期雄蕊的发育早于雌蕊的发育,后期当花粉成熟时,雌配子体也达到成熟,雌雄蕊发育趋于同步。  相似文献   

5.
甘阳英  徐凤霞 《广西植物》2017,37(4):517-523
荔枝科是被子植物的基部类群之一,依兰属是番荔枝科较为原始的类群,其有性生殖过程,特别是胚胎发生与发育的研究结果,可以补充被子植物胚胎学原始特征的相关基础资料。该研究利用常规石蜡切片技术,对依兰胚珠、大孢子和雌配子体的发生发育过程进行了观察。结果表明:依兰的胚珠为倒生胚珠、厚珠心、三层珠被,第三层珠被(中间珠被)发生在大孢子母细胞时期,于外珠被与内珠被之间、胚珠合点端两侧发生并隆起;雌配子体为蓼型。此外,依兰的个别胚珠中存在双雌配子体现象,且两个雌配子体均由大孢子母细胞发育而来,大小、形状相近,呈线形排列。该研究结果对于揭示原始被子植物胚胎发育特征具有重要意义。  相似文献   

6.
刺五加大、小孢子发生和雌、雄配子体发育的观察   总被引:11,自引:0,他引:11  
刺五加Eleutherococcus senticosus(Rupr.et Maxim.)Maxim.雄株的小孢子发生和雄配子体发育过 程正常,大孢子发生和雌配子体发育过程多不正常。雄花具5个花药,花药4室,药壁发育属双子叶型, 腺质绒毡层,绒毡层细胞多具2核。小孢子母细胞经减数分裂形成四面体形四分体,其胞质分裂为同时 型。成熟花粉为3细胞型。子房下位,5室;每室有上胚珠和下胚珠,上胚珠退化,下胚珠倒生、具单珠 被、厚珠心;大孢子母细胞经减数分裂形成线形或“T”形四分体,偶尔有2个并列或串联的四分体或在 四分体之上又出现孢原细胞。其功能大孢子位置不确定。雌配子体发育中异常现象较多。开花时,雌 配子体主要为反足细胞退化后的四细胞胚囊。刺五加雌株的小孢子母细胞不能进行减数分裂或减数分 裂不正常,不能形成四分体。开花时,药室空瘪,无花粉形成。其大孢子发生和雌配子体发育过程正常, 大孢子母细胞减数分裂形成线形或“T”形四分体,合点端大孢子为功能大孢子,胚囊发育属蓼型。开花 时,雌配子体主要为七细胞八核或七细胞七核胚囊,其卵器尚未发育成熟。刺五加两性株的小孢子发生 过程无异常,但雄配子体发育过程有部分异常;开花时,药室内有或多或少的空花粉,且花粉粒大小悬 殊,大的直径达35μm,小的仅15~18 μm。两性株的雌蕊发育大部分正常,也有一些异常胚囊形成。开 花时,雌配子体主要是七细胞八核胚囊、七细胞七核胚囊和反足细胞退化后的四细胞胚囊,其卵器也未发育成熟。  相似文献   

7.
本论文研究了小盐芥(Thellungiella halophila)大孢子发生和雌配子体发育过程及该阶段与花蕾、花、果实外部形态的相关性。结果如下: 小盐芥雌蕊由2心皮组成, 侧膜胎座, 每室胚珠多数, 弯生, 双珠被, 薄珠心。孢原细胞位于珠心表皮之下, 直接起大孢子母细胞的功能。大孢子四分体线形排列, 合点端大孢子为功能大孢子, 胚囊发育为蓼型。  相似文献   

8.
为弄清罗汉果(Siraitia grosvenorii)大孢子发生、雌配子体发育过程与花部形态特征、胚珠的关系,运用石蜡切片法对罗汉果子房进行了显微观察。结果表明,罗汉果的胚珠倒生,双珠被,厚珠心,大孢子四分体呈线型排列,合点端一个大孢子分化为功能大孢子,成熟胚囊为蓼型。花蕾形态、胚珠变化与大孢子发生、雌配子体的发育时期具有一定相关性,当子房长度为7.0 mm≤L<9.0 mm,珠心呈椭圆形时,约有45.83%的大孢子母细胞处于减数分裂时期。因此,依据罗汉果花部形态可有效确定大孢子发生与雌配子体发育的时期。  相似文献   

9.
防风大、小孢子发生与雌、雄配子体发育的研究   总被引:3,自引:3,他引:0  
利用常规石蜡制片法研究了防风大、小孢子发生及其雌、雄配子体的发育过程。主要结果是:(1)小孢子母细胞减数分裂过程中的胞质分裂为同时型,小孢子四分体为四面体形;(2)成熟的花粉粒为三细胞型,具3个孔沟;(3)花药壁发育类型为双子叶型。花药壁由4层结构组成:最外层为表皮,其内分别为药室内壁、1层中层、绒毡层,绒毡层为分泌型;(4)防风的子房为2室,每室1胚珠,单珠被,薄珠心,倒生型胚珠。大孢子母细胞经减数分裂形成线形排列的4个大孢子,合点端大孢子具功能;(5)大孢子发生过程中,具有多个孢原细胞及多个大孢子母细胞的现象,但通常只有一个大孢子母细胞能继续发育;(6)胚囊发育属于蓼型;(7)防风的花为极端的雌雄蕊异熟,雄蕊的发育早于雌蕊的发育。  相似文献   

10.
籽银桂雌雄配子体的发育研究   总被引:2,自引:0,他引:2  
利用石蜡切片和扫描电子显微镜技术。研究了南京地区银桂品种群的‘籽银桂’雌雄配子体的发育过程。雄蕊的孢原细胞在8月中旬出现。花药壁的发育为基本型,分泌型绒毡层。小孢子母细胞减数分裂为同时型。形成的4个小孢子四分体呈典型的四面体型。成熟花粉粒即雄配子体为二核花粉粒。籽银桂为倒生胚珠。单珠被,薄珠心。珠被内层细胞特化为珠被绒毡层。在胚珠合点端。有承珠盘结构。在9月中旬,雌蕊的孢原细胞开始分化出来。孢原细胞直接发育成大孢子母细胞,然后大孢子母细胞减数分裂形成大孢子。‘籽银桂’的胚囊发育类型为蓼型。成熟胚囊即雌配子体由2个助细胞、1个卵细胞、1个中央细胞(2个核)和3个反足细胞组成。  相似文献   

11.
For more than a century, the common ancestor of flowering plants was thought to have had a seven-celled, eight-nucleate Polygonum-type female gametophyte. It is now evident that not one, but in fact three, patterns of female gametophyte development and mature structure characterize the common ancestors of the four most ancient clades of extant angiosperms: Amborella-type, Nuphar/Schisandra-type and Polygonum-type. The Amborella-type female gametophyte is restricted to a single extant species, Amborella trichopoda, and at maturity consists of eight cells and nine nuclei. Development of the Amborella-type gametophyte is essentially identical to the Polygonum-type except that there is an additional and asynchronous cell division at the micropylar pole prior to maturation that produces a third synergid and the egg cell. The Nuphar/Schisandra-type female gametophyte is four-nucleate and four-celled and at maturity contains a typical three-celled egg apparatus and a central cell with a single haploid polar nucleus. This type of gametophyte appears to be universal among extant members of the Nymphaeales (including Hydatellaceae) and Austrobaileyales. Based on explicit reconstruction of character distribution and evolution, the Polygonum-type female gametophyte is certain to be representative of the common ancestors of monocots, eudicots, magnoliids, Ceratophyllaceae, and Chloranthaceae. There are compelling biological reasons to suggest that the four-celled, four-nucleate female gametophyte (as found in Nymphaeales and Austrobaileyales) is ancestral among angiosperms, with transitions to Polygonum-type female gametophytes separately in the Amborellales and in the ancient angiosperm clade that includes all angiosperms except Amborella, Nymphaeales, and Austrobaileyales. Subsequent to the evolution of a seven-celled, eight-nucleate Polygonum-type female gametophyte in the Amborellales, we hypothesize that a peramorphic increase in egg apparatus cell number took place and led to the unique situation in which there are three synergids in Amborella trichopoda.  相似文献   

12.
The monosporic seven-celled/eight-nucleate Polygonum-type female gametophyte has long served as a focal point for discussion of the origin and subsequent evolution of the angiosperm female gametophyte. In Polygonum-type female gametophytes, two haploid female nuclei are incorporated into the central cell, and fusion of a sperm cell with the binucleate central cell produces a triploid endosperm with a complement of two maternal and one paternal genomes, characteristic of most angiosperms. We document the development of a four-celled/four-nucleate female gametophyte in Nuphar polysepala (Engelm.) and infer its presence in many other ancient lineages of angiosperms. The central cell of the female gametophyte in these taxa contains only one haploid nucleus; thus endosperm is diploid and has a ratio of one maternal to one paternal genome. Based on comparisons among flowering plants, we conclude that the angiosperm female gametophyte is constructed of modular developmental subunits. Each module is characterized by a common developmental pattern: (1) positioning of a single nucleus within a cytoplasmic domain (pole) of the female gametophyte; (2) two free-nuclear mitoses to yield four nuclei within that domain; and (3) partitioning of three uninucleate cells adjacent to the pole such that the fourth nucleus is confined to the central region of the female gametophyte (central cell). Within the basal angiosperm lineages Nymphaeales and Illiciales, female gametophytes are characterized by a single developmental module that produces a four-celled/four-nucleate structure with a haploid uninucleate central cell. A second pattern, typical of Amborella and the overwhelming majority of eumagnoliids, monocots, and eudicots, involves the early establishment of two developmental modules that produce a seven-celled/eight-nucleate female gametophyte with two haploid nuclei in the central cell. Comparative analysis of ontogenetic sequences suggests that the seven-celled female gametophyte (two modules) evolved by duplication and ectopic expression of an ancestral Nuphar-like developmental module within the chalazal domain of the female gametophyte. These analyses indicate that the first angiosperm female gametophytes were composed of a single developmental module, which upon double fertilization yielded a diploid endosperm. Early in angiosperm history this basic module was duplicated, and resulted in a seven-celled/eight-nucleate female gametophyte, which yielded a triploid endosperm with the characteristic 2:1 maternal to paternal genome ratio.  相似文献   

13.
Restionaceae are characterized by Polygonum-type development, a well-developed hypostase, the presence of starch grains in the mature female gametophyte, and a thick nucellus that is uniseriate at the micropylar end. Flagellaria indica differs in these characters. In general, proliferation of antipodals occurs in South African taxa of Restionaceae but not in Australasian taxa. The presence of multiplied antipodals is the usual condition in the allied family Poaceae, but the sporadic occurrence of this character in Restionaceae cannot be used to support the view that the two families are sister groups.  相似文献   

14.
Noyes RD  Baker R  Mai B 《Heredity》2007,98(2):92-98
The inheritance of asexual seed development (apomixis) in Erigeron annuus (Asteraceae) was evaluated in a triploid (2n=3x=27) population resulting from a cross between an apomictic tetraploid (2n=4x=36) pollen parent and a sexual diploid (2n=2x=18) seed parent. Diplospory (unreduced female gametophyte formation) and autonomous development (embryo and endosperm together) segregated independently in the population yielding four distinct phenotype classes: (1) apomictic plants combining diplospory and autonomous development, (2) diplosporous plants lacking autonomous development, (3) meiotic plants with autonomous (though abortive) development and (4) meiotic plants lacking autonomous development. Each class was represented by approximately one-quarter of the population (n=117), thus corresponding to a two-factor genetic model with no linkage (chi(2)=2.59, P=0.11). Observations demonstrate that autonomous embryo and endosperm development (jointly) may occur in either reduced or unreduced egg cells. The cosegregation of the traits is attributed to tight linkage or pleiotropy. The data are consistent with the hypothesis that autonomous development in E. annuus is regulated by a single fertilization factor, F, which initiates development of both the embryo and the endosperm in the absence of fertilization.  相似文献   

15.
Summary Early stages of egg embryony and antipodal embryony in ovules from both pollinated and unpollinated flowers ofAllium tuberosum, a diplosporous apomict, were observed. Whether flowers were pollinated or not, autonomous egg and antipodal embryonies occurred at nearly equal frequencies and progressed almost synchronously for several days. An electrophoretic analysis of endosperm esterase demonstrated the fertilization of polar nuclei. It was thus confirmed thatA. tuberosum is a pseudogamous apomict. The degree of parthenogenesis, calculated as the percentage of ovules in which egg cells showed autonomous embryonic development, ranged between 62% and 94% among six cultivars and was nearly equal to the degree of diplospory previously reported. The present results show that most unreduced egg cells and egg-like antipodal cells ofA. tuberosum have the ability to start embryogenesis independently of pollination.  相似文献   

16.
In apomictic dandelions, Taraxacum officinale, unreduced megaspores are formed via a modified meiotic division (diplospory). The genetic basis of diplospory was investigated in a triploid (3x = 24) mapping population of 61 individuals that segregated approximately 1:1 for diplospory and meiotic reduction. This population was created by crossing a sexual diploid (2x = 16) with a tetraploid diplosporous pollen donor (4x = 32) that was derived from a triploid apomict. Six different inheritance models for diplospory were tested. The segregation ratio and the tight association with specific alleles at the microsatellite loci MSTA53 and MSTA78 strongly suggest that diplospory is controlled by a dominant allele D on a locus, which we have named DIPLOSPOROUS (DIP). Diplosporous plants have a simplex genotype, Ddd or Dddd. MSTA53 and MSTA78 were weakly linked to the 18S-25S rDNA locus. The D-linked allele of MSTA78 was absent in a hypotriploid (2n = 3x - 1) that also lacked one of the satellite chromosomes. Together these results suggest that DIP is located on the satellite chromosome. DIP is female specific, as unreduced gametes are not formed during male meiosis. Furthermore, DIP does not affect parthenogenesis, implying that several independently segregating genes control apomixis in dandelions.  相似文献   

17.
Inheritance of apomeiosis (diplospory) in fleabanes (Erigeron, Asteraceae)   总被引:2,自引:0,他引:2  
Noyes RD 《Heredity》2005,94(2):193-198
Unreduced egg formation (apomeiosis) in flowering plants is rare except when it is coupled with parthenogenesis to yield gametophytic apomixis via apospory or diplospory. Results from genetic mapping studies in diverse apomictic taxa suggest that apomeiosis and parthenogenesis are genetically linked, a finding that is compatible with the conventional rationale that apomeiosis is unlikely to evolve independently because of deleterious fitness consequences. An Erigeron annuus (apomictic) x E. strigosus (sexual) genetic mapping population, however, included a high proportion of plants that were highly apomeiotic (diplosporous) but nonapomictic; that is, they lacked autonomous seed production. To evaluate the function and inheritance of diplospory in Erigeron, a diplosporous triploid (2n=3x=27) seed parent was crossed with a sexual diploid (2n=2x=18) E. strigosus pollen parent to produce an F1 of 31 plants. Chromosome numbers and molecular markers (AFLPs) document the inheritance of the maternal genome through unreduced eggs resulting in recombinant but predominantly (77%) tetraploid F1s (2n=4x=36; 2n+n, B(III)). Quantitative evaluation shows continuous variation in the proportion of diplosporous (vs meiotic) ovules (41-89%) in tetraploid F1s despite the presumed equal genetic contribution from the diplosporous mother. These findings demonstrate the functional independence of diplospory and suggest that variation in the trait in F1s is likely due to segregating paternal modifiers. In addition, of six aneuploid (4x-1, 4x-2) F1s, three lack a subset of maternal AFLP markers. These plants likely arose from aberrant megagametogenesis resulting in the loss of maternal chromatin prior to fertilization.  相似文献   

18.
Segregation for asexual seed production was evaluated for 130 experimental F1 hybrids resulting from a cross between diploid (2n=18) sexual Erigeron strigosus and triploid (2n=27) agamospermous Erigeron annuus. Paternity of hybrids was documented using 13 RAPD markers. The distribution of F1 chromosome numbers is bimodal, centering on diploid and triploid ploidal levels but with underrepresentation of diploids. Diplosporous versus meiotic megagametophyte development was ascertained microscopically for >/=100 ovules per plant. Diplospory ranges from 0% to 100% among all progeny but is uniformly low (0%-3%) for 17 diploid hybrids. The inheritance of diplospory in Erigeron appears to be best explained by a one-locus-two-allele polysomic model with selection against gametes homozygous for diplospory. Parthenogenesis, estimated via seed counts, ranges from 0% to 60% and apparently is contingent upon diplospory, as seed production was absent or very low in predominantly meiotic hybrids. However, the absence of parthenogenesis in many highly diplosporous hybrids indicates that these two aspects of agamospermous development are not strictly associated. The segregation of both diplospory and parthenogenesis in this population will permit further genetic dissection of these traits with molecular marker-based analyses.  相似文献   

19.
The recent consensus that Amborellaceae, Nymphaeales, and Austrobaileyales form the three earliest-diverging lineages of angiosperms has led comparative biologists to reconsider the origin and early developmental evolution of the angiosperm seven-celled/eight-nucleate (Polygonum-type) female gametophyte. Illicium mexicanum (Illiciaceae; Austrobaileyales) develops a four-celled/four-nucleate female gametophyte. The ontogenetic sequence of the Illicium female gametophyte is consistent with that of all other Austrobaileyales and also with all Nymphaeales and is likely a plesiomorphy of angiosperms. A character analysis based on more than 250 embryological studies indicates that a transition from an ancestrally four-celled/four-nucleate Illicium-like female gametophyte to a seven-celled/eight-nucleate female gametophyte occurred in the common ancestor of the sister group to Austrobaileyales (a clade that includes monocots, eumagnoliids, and eudicots). Comparative analysis of reconstructed ancestral female gametophyte ontogenies identifies specific early stages of ontogeny that were modified during this transition. These modifications generated two important angiosperm novelties-a set of three persistent antipodal cells and a binucleate central cell, which upon fertilization yields a triploid endosperm. Early angiosperms are anatomically quite diverse in these two features, although triploid endosperm, composed of one paternal genome and two maternal genomes, is a conserved feature of the overwhelming majority of angiosperms.  相似文献   

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