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1.
CHUN-YING XUE TING-NONG HO DE-ZHU LI 《Botanical journal of the Linnean Society. Linnean Society of London》2007,155(3):383-400
The embryological features of three species of Swertia ( s.l.) – S. erythrosticta , S. franchetiana , and S. tetraptera – were characterized, and the observations were used, together with previously gathered data on other species, to evaluate a recently proposed polyphyly, based on molecular data, of Swertia s.l. Comparisons of species within the genus showed that they have diversified embryologically, and there are significant between-species differences. Notable features that vary between species include the number of cell layers that form the anther locule wall, the construction of the wall of the mature anther, tapetum origin, the cell number in mature pollen grains, the structure of the fused margins of the two carpels, the ovule numbers in placental cross-sections, the shape of the mature embryo sac, the degree of ovule curvature, antipodal variation and the presence of a hypostase, and seed appendages. They share characters that are widely distributed in the tribe Gentianeae, such as a dicotyledonous type of anther wall formation, a glandular tapetum with uninucleate cells, simultaneous cytokinesis following the meiosis of the microsporocytes, tetrahedral microspore tetrads, superior, bicarpellary and unilocular ovaries, unitegmic and tenuinucellar ovules, Polygonum -type megagametophytes, progamous fertilization, nuclear endosperm, and Solanad-type embryogeny. The presence of variation in embryological characters amongst the species of Swertia s.l. strongly supports the view that Swertia s.l. is not a monophyletic group. Frasera is better separated from Swertia s.l. as an independent genus, and is only distantly related to Swertia s.s. judging from the numerous differences in embryology. Swertia tetraptera is very closely related to Halenia , as they show identical embryology. © 2007 The Linnean Society of London, Botanical Journal of the Linnean Society , 2007, 155 , 383–400. 相似文献
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LU LI HAN-XING LIANG HUA PENG LI-GONG LEI 《Botanical journal of the Linnean Society. Linnean Society of London》2003,143(3):305-314
Sporogenesis and gametogenesis in the monotypic genus Sladenia is reported for the first time. The anther wall is of the monocotyledonous type of formation and consists of four-layers, namely a glandular tapetum, one middle layer, an endothecium, and an epidermis. Fibrous thickenings are developed in the epidermis at or near the stage of anther maturity rather than in the endothecium. Successive cytokinesis in microsporogenesis results in tetrahedral or rarely isobilateral tetrads of microspores. Pollen grains are two-celled when shed. The ovule is bitegmic, tenuinucellate, and anatropous. The nucellus degenerates during meiosis of the megaspore mother cell. The micropyle is formed by only the inner integument. Development of the female gametophyte conforms to the Adoxa type. Sladenia has been treated either as a member of Actinidiaceae, Dilleniaceae or Theaceae s.l. , or as belonging to an independent family, Sladeniaceae. Recent molecular studies have suggested that it belongs to Ternstroemiaceae within the Ericales s.l . Several noteworthy embryological characters are distinct from those of the other putatively related families and support the recognition of a separate family, Sladeniaceae. Additional embryological evidence confirms this conclusion. © 2003 The Linnean Society of London, Botanical Journal of the Linnean Society , 2003, 143 , 305–314. 相似文献
3.
CHUN-YING XUE DE-ZHU LI 《Botanical journal of the Linnean Society. Linnean Society of London》2005,147(3):317-331
The embryological characters of Megacodon stylophorus (C. B. Clark) H. Smith and Veratrilla baillonii Franch. are described for the first time and the systematic relationships of Megacodon and Veratrilla are discussed. Both species share the following embryological features. The anthers are tetrasporangiate. The formation of anther walls is of the Dicotyledonous Type. The tapetum is of glandular type with uninucleate cells which have a dual origin. The tapetal cells on the connective side show radial elongation or periclinal division and intrude into the anther locule to form 'placentoids'. Cytokinesis in the microsporocyte meiosis is of the simultaneous type and the microspore tetrads are nearly always tetrahedral, rarely decussate. The ovary is bicarpellate and unilocular. The ovule is unitegmic and tenuinucellar. The formation of the embryo sac is of the Polygonum Type. Before fertilization, the two polar nuclei fuse into a secondary nucleus. Fertilization is porogamous. The development of the endosperm is of the Nuclear Type. However, the two species show variation in the following features: the number of cell layers which form the anther locule wall; construction of the wall of the mature anther; cell number in mature pollen grains; ovule number in cross sections of placentae; degree of ovule curvature; character of the hypostase and seed shape. In a comparison with the other taxa in the tribe Gentianeae using embryological features, Megacodon is referred to as an independent genus and should be treated as a member of the subtribe Swertiinae; Veratrilla is better separated from Swertia s . l . as an independent genus. Veratrilla is more derived than Swertia s . s. and shows a close relationship with S. tetraptera . © 2005 The Linnean Society of London, Botanical Journal of the Linnean Society , 2005, 147 , 317–331. 相似文献
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Dane F 《Acta biologica Hungarica》2006,57(3):339-354
In this study anther wall, meiosis, sporogenesis and the development of female gametophytes of Bellevalia edirnensis were examined cytologically and histologically. The young anther wall consists of an epidermis, a single layered fibrous endothecium, 1-2 middle layers which disappear early, and a single-layered tapetum. In the glandular tapetum; normal mitosis, the "sticky" type of division and secondary nucleus divisions were observed. In most microspore mother cells the course of meiosis is regular. In some cells irregularities were observed including chromosome bridges and univalents. Cytokinesis is of the successive type and the tetrads are isobilateral. The ovules are anatrapous, bitegmic and crassinucellate. The micropyle is formed by the inner integument. The female archesporium is unicelled and directly functions as the megaspore mother cell. The female gametophyte formed by the functioning chalazal megaspore is monosporic, of the Polygonum type. 相似文献
5.
采用石蜡切片技术对百合科植物山麦冬大小孢子发生及雌雄配子体发育进行了观察研究。结果表明:(1)山麦冬花药具有4个花粉囊,花药壁的发育方式为基本型,花药壁完全分化时由表皮、药室内壁、中层及绒毡层组成。(2)绒毡层发育类型为分泌型,到四分体孢子彼此分离形成单细胞花粉阶段,绒毡层细胞开始解体退化,花粉成熟时绒毡层细胞完全消失;花粉母细胞减数分裂为连续型,四分体为左右对称形排列,成熟花粉为3-细胞花粉,单萌发沟。(3)子房3室,每室2枚胚珠,胚珠倒生型,双珠被,薄珠心,雌性孢原细胞不经过平周分裂而直接发育而成大孢子母细胞。(4)减数分裂后四分体大孢子呈线型或T型排列,合点端大孢子分化为功能大孢子,胚囊发育为蓼型;花粉母细胞减数分裂过程中,二分体、四分体细胞外方被胼胝质壁所包被,小孢子形成后胼胝质壁逐渐消失。该研究结果丰富了百合科植物生殖生物学研究的内容,也为探讨百合科植物的系统学研究提供了参考。 相似文献
6.
巨龙竹生殖器官形态结构及雌、雄配子体的发育 总被引:2,自引:0,他引:2
通过石蜡切片的方法对巨龙竹生殖器官结构、大小孢子的发生和雌、雄配子体的发育过程进行了观察研究。 巨龙竹为一心皮组成的单室单子房,子房内具有一个胚珠,倒生、双珠被、厚珠心。大孢子母细胞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。胚囊的发育为蓼型,具多个反足细胞。巨龙竹的花药壁由4层结构组成,包括表皮、药室内壁、中层、绒毡层;花药壁发育为单子叶型,绒毡层为腺质型。小孢子母细胞减数分裂中的胞质分裂为连续型,四分孢子为四面体型;成熟花粉粒为2细胞型,具1个萌发孔。小穗发育雌雄异熟,雌蕊的发育早于雄蕊的发育。 相似文献
7.
以柴胡(Bupleurum chinense)为研究对象, 运用石蜡切片技术对其大、小孢子发生及雌、雄配子体发育进行了研究。结果表明: 柴胡花药具4个药室, 花药壁由表皮、药室内壁、中层和绒毡层4层细胞构成, 花药壁发育为双子叶型, 腺质绒毡层。小孢子母细胞减数分裂的胞质分裂为同时型, 产生正四面体型小孢子。成熟花粉三细胞型。胚珠倒生型, 单珠被, 薄珠心。大孢子母细胞常为一个雌性孢原直接发育而成, 大孢子四分体呈线型或T型排列, 多数情况为合点端一个大孢子分化为功能大孢子, 由功能大孢子发育为蓼型成熟胚囊。在胚囊发育过程中, 珠被内表皮细胞特化成珠被绒毡层。同一朵花中, 雄蕊先熟, 记
录了花蕾大小及雌、雄配子体发育的对应关系。 相似文献
8.
柴胡大、小孢子发生及雌、雄配子体发育 总被引:6,自引:0,他引:6
以柴胡(Bupleurum chinense)为研究对象,运用石蜡切片技术对其大、小孢子发生及雌、雄配子体发育进行了研究。结果表明:柴胡花药具4个药室,花药壁由表皮、药室内壁、中层和绒毡层4层细胞构成,花药壁发育为双子叶型,腺质绒毡层。小孢子母细胞减数分裂的胞质分裂为同时型,产生正四面体型小孢子。成熟花粉三细胞型。胚珠倒生型,单珠被,薄珠心。大孢子母细胞常为一个雌性孢原直接发育而成,大孢子四分体呈线型或T型排列,多数情况为合点端一个大孢子分化为功能大孢子,由功能大孢子发育为蓼型成熟胚囊。在胚囊发育过程中,珠被内表皮细胞特化成珠被绒毡层。同一朵花中,雄蕊先熟,记录了花蕾大小及雌、雄配子体发育的对应关系。 相似文献
9.
选用石蜡切片法观察了彩色马蹄莲品种‘Majestic Red’的大小孢子发生及雌雄配子体发育的过程。研究结果表明:彩色马蹄莲的胚珠为倒生,具双珠被、厚珠心和珠被绒毡层。大孢子母细胞的减数分裂后形成的四分体为直线型或T型排列,合点端的大孢子发育成为功能大孢子,其余3个大孢子则退化,表明胚囊发育方式为单孢子发生的蓼型胚囊。观察到每个雄花花药多数,花粉囊呈蝶形,每侧有2个小孢子囊。花药壁由外到内分别为表皮、药室内壁、中层和绒毡层,其中绒毡层为变形绒毡层类型。在小孢子形成时,胞质分裂属于连续型,小孢子排列成十字形的四分体,成熟花粉则为二胞花粉粒。 相似文献
10.
Abstract The anthers are tetrasporangiate. The anther wall comprises epidermis, fibrous endothecium, middle layer and tapetal layer. The tapetum is of the Glandular type and its cells remain uninucleate. Meiosis in pollen mother cells is normal and simultaneous cytokinesis leads to the formation of tetrahedral and decussate microspore tetrads. The pollen grains are shed at 2-celled stage. The ovule is campylotropous, bitegmic and crassinucellate. Meiosis in megaspore mother cell results in the formation of linear or occasionally T-shaped megaspore tetrad. The chalazal megaspore develops into Monosporic Polygonum type of embryo sac. Endosperm development is of the Nuclear type. 相似文献
11.
鹅毛竹大小孢子及雌雄配子体发育 总被引:1,自引:0,他引:1
利用扫描电镜、透射电镜、石蜡切片,对鹅毛竹的花芽分化、大、小孢子及雌、雄配子体的发育进行了详细观察.结果发现:鹅毛竹花药具4个药室,花药壁由表皮、药室内壁、中层、绒毡层4层结构组成,花药壁发育为单子叶型,绒毡层为腺质型,小孢子母细胞减数分裂中的胞质分裂为连续型,产生左右对称型小孢子.鹅毛竹成熟花粉大多2细胞型,都具1个萌发孔.鹅毛竹子房为单子房,子房1室,侧膜胎座,一个倒生胚珠,双珠被,薄珠心.大孢子母细胞由一个雌性孢原细胞直接发育而成,大孢子四分体呈线型,合点端一个大孢子分化为功能大孢子,由功能大孢子经过3次有丝分裂形成8核胚囊,发育类型为蓼型,位于核点端的3个细胞核进行多次分裂形成多个反足细胞.至此,成熟胚囊形成.并就鹅毛竹不结实的原因进行了探讨. 相似文献
12.
Embryology of Eusideroxylon (Cryptocaryeae, Lauraceae) and character evolution in the family 总被引:1,自引:0,他引:1
YUKITOSHI KIMOTO NANDA UTAMI HIROSHI TOBE 《Botanical journal of the Linnean Society. Linnean Society of London》2006,150(2):187-201
Lauraceae are relatively well-known embryologically and embryological data are available for 23 of about 50 genera. In this paper we present the embryology of Eusideroxylon , an unstudied and key genus within Cryptocaryeae, which are positioned basally in the evolution of Lauraceae, and discuss the evolution of embryological characters in the family. Based on comparisons of over 50 characters, it was found that Eusideroxylon is consistent with Aspidostemon , the core Cryptocaryeae ( Beilschmiedia , Cryptocarya , Endiandra and Potameia ), Caryodaphnopsis and Cassytha in having a glandular anther tapetum. The core Cryptocaryeae further agrees with both Caryodaphnopsis and Cassytha in having an embryo sac protruding from the nucellus. In light of the phylogenetic trees available, both the glandular tapetum and the embryo sac protruding from the nucellus have evolved as homoplasies in Lauraceae, once each in a clade of Cryptocaryeae, and the Caryodaphnopsis and Cassytha clade, respectively. Such character-state distributions suggest that it is better to place both Caryodapnopsis and Cassytha in the same clade as the core Cryptocaryeae. Embryologically, Eusideroxylon appears to have an intermediate state between Hypodaphnis , a genus positioned basal-most in the family, and the core Cryptocaryeae. Supplementary data on the anther and seed of Hypodaphnis are also provided. © 2006 The Linnean Society of London, Botanical Journal of the Linnean Society , 2006, 150 , 187–201. 相似文献
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三叶木通(Akebia trifoliata)属于木通科(Lardizabalaceae)木通属(Akebia),为雌雄异花,雌雄同株的木质藤本植物,具有药食两用的经济价值。本文运用石蜡切片技术观察了三叶木通的大小孢子发生和雌雄配子体发育过程中胚胎学特征,以期了解三叶木通有性生殖过程,分析该物种自然条件下结实率低的生殖原因,为其后续进行杂交育种和新品种培育提供理论基础。结果表明:三叶木通雄蕊6枚,每枚花药具4个小孢子囊,花药壁完全分化时由外到内依次为1层表皮、1层药室内壁、2~3层中层及1层绒毡层,且绒毡层为分泌型绒毡层。小孢子母细胞减数分裂的胞质分裂为同时型,小孢子四分体为四面体型排列,从四分体分离出来的小孢子经过进一步发育形成2-核成熟花粉细胞。小孢子囊中的小孢子四分体时期存在少量败育现象。雌蕊具1室子房,为侧膜胎座,胚珠横生,多枚,双珠被,厚珠心。大孢子母细胞减数分裂后形成的大孢子四分体呈线型排列,靠珠孔端的3个大孢子退化,合点端的1个大孢子发育成为功能大孢子,经3次连续有丝分裂并进一步发育为七细胞八核的蓼型胚囊。雌花中的雄蕊早期发育正常,但小孢子发育至单核靠边期不在进一步发育,花药壁不开裂。雄花中的心皮早期发生退化,心皮愈合不完全,无胚珠产生。三叶木通大、小孢子发生和雌、雄配子体发育基本正常,不是导致其结实率低的原因,结实率低可能与影响传粉的外部因素有关。 相似文献
16.
T. Pullaiah 《Plant biosystems》2013,147(1):39-43
ABSTRACT The embryology of Clitoria ternatea was studied. Anthers contain four sporangia. The anther wall comprises an epidermis, an endothecium, a middle layer and a glandular tapetum. Microspore tetrads are tetrahedral and pollen grains are shed at the 2-cell stage. The ovule is campylotropous, bitegmic and crassinucellate. The micropyle is formed by both the integuments. The megaspore tetrad is linear or T-shaped. The chalazal megaspore is functional and embryo sac development follows the monosporic Polygonum type. Endosperm development is of the nuclear type. The chalazal part of the endosperm forms a haustorium. Embryo development follows the Onagrad type. 相似文献
17.
利用石蜡切片技术,对百合科植物开口箭(Tupistra chinensis Baker)大小孢子发生及雌雄配子体发育进程进行胚胎学观察分析,以明确开口箭胚胎发育的特征,为百合科植物的研究提供生殖生物学依据。结果表明:(1)开口箭花药具有4个药室,花药壁的发育方式为基本型,由表皮、药室内壁、中层及绒毡层组成;绒毡层发育类型为分泌型,到四分体花药阶段绒毡层细胞开始解体退化,花药成熟时完全消失。(2)花粉母细胞减数分裂为连续型,依次形成二分体、四分体,四分体为左右对称形;成熟花粉为2-细胞花粉,具单萌发沟。(3)子房3室,倒生型胚珠6枚,双珠被,薄珠心;在花部的分化早期,由珠心顶端表皮下方分化出雌性孢原细胞,孢原细胞经过一次平周分裂形成周缘细胞和造孢细胞,造孢细胞发育为大孢子母细胞;大孢子母细胞第一次减数分裂后形成二分体,珠孔端的二分体孢子退化,合点端的二分体孢子继续第二次分裂,形成两个子细胞依次发育为二核胚囊、四核胚囊和八核胚囊;开口箭的胚囊发育类型为葱型。 相似文献
18.
This paper describes megasporogenesis, microsporogenesis, and development of female and male gametophytes in Eleutherococcus senticosus. The main results are as follows: Flowers of E. senticosus are epigynous, pentamerous. Anthers are 4 -microsporangiate. An ovary has 5 loculi. Each ovary loculus has 2 ovules: the upper ovule and the lower ovule. The upper one is orthotropous and degenerates after the formation of archesporial cell,
while the lower one is anatropous, unitegmic and crassinucellar, and able to continue developing. In male plants, microsporogenesis and development of male gametophytes took place in regular way, but a series of abnormal phenomena were found in megasporogenesis and development of female gametophytes. The microspore mother cells gave rise to tetrahedral tetrads by meiosis. Cytokinesis was of the simultaneous type. The mature pollen was 3-celled and shed singly. The anther wall formation belonged to the dicotyledonous type. At the stage of microspore mother cell, the anther wall consisted of four layers, i.e. epidermis, endothecium, middle layer, and tapetum. The tapetum was of glandular type and its most cells
were binucleate. When microspores were at the uninucleate stage, the tapetum began to degenerate in situ. When microspores developed into 3-celled pollen grains, the tapetum had fully degenerates. In the lower ovule of male flower, the megaspore mother cell gave rise to
a linear or “T” -shaped tetrad. In some cases, a new archesporial cell over the tetrad or two tetrads parallel or in a series were observed. Furthermore, the position of functional megaspore was variable; any one or two megaspores might be functional, or one megaspore gave
rise to a uninucleate embryo sac, but two other megaspores also had a potentiality of developing into the embryo sac. In generally, on the day when flowers opened, female gametophytes contained only 4 cells: a central cell, two irregular synergids and one unusual egg cell.
In female plants, microspore mother cells and secondary sporogenous cells were observed.
But at the stage of secondary sporogenous cell, the newly differentiated tapetum took the appearance of degeneration. Later, during the whole stage of meiosis, the trace of degenerative tapetum could be seen. At last, the microsporangium degenerated and no tetrad formed. On the blossom day, all anthers shriveled without pollen grains. In female flowers, megasporogenesis and development of female gametophytes were normal: the tetrad of megaspores was linear or “T”-shaped; the chalazal megaspore was usually functional; the development of embryo sac was of the Polygonum type. On the blossom day, most embryo sacs consisted of 7 cells with 8 nuclei or 7 cells with 7 nuclei; but the egg apparatus was not fully developed. In hermaphroditic plants, microsporogenesis was normal but the development of male gametophytes was partially abnormal. When the hermaphroditic flowers blossomed, there were more or less empty pollen grains in the microsporangium and these pollen grains were quite different in size. The development of most gynoecia was normal but numerous abnormal embryo sacs could be seen. On the blossom day, female gametophytes were mainly 7-celled with 8-nuclei or with 7-nuclei or 4-celled with antipodal cells degenerated; the egg apparatus wasnot fully developed either. 相似文献
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Key message
Cellulose-specific staining revealed that tapetal cells and microsporocytes lose cellulosic walls before the onset of meiosis. Cellulosic wall degradation in microsporocytes might be independent of tapetal cells (or TPD1).Abstract
Some cell types in a variety of angiosperms have been reported to lack cell walls. Here, we report that the tapetal cells of the anther of Arabidopsis thaliana did not appear to have a cellulosic wall based on staining with Calcofluor and Renaissance 2200. During sporogenous cell formation, cellulosic wall was present in all anther tissues. However, before meiosis it was almost absent on the tapetal cells and on the microsporocytes. In a sporocyteless/nozzle (spl/nzz) mutant, which lacks several components (microsporocytes, tapetum, middle layer and endothecium), cellulosic wall was detected in all anther cells. In another mutant, tapetum determinant1 (tpd1), which lacks tapetum and has more microsporocytes, cellulosic wall was almost absent on the microsporocytes before meiosis, similar to the wild type. These results suggest that the tapetum cells and microsporocytes lose cellulosic walls during microsporocyte formation, and that cell wall degradation occurs downstream of SPL/NZZ and is independent of TPD1. 相似文献20.
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