Nuclear DNA replicates during zygote development in Arabidopsis and Torenia fournieri

The progression of the cell cycle is continuous in most cells, but gametes (sperm and egg cells) exhibit an arrest of the cell cycle to await fertilization to form a zygote, which then continues through the subsequent phases to complete cell division. The phase in which gametes of flowering plants arrest has been a matter of debate, since different phases have been reported for the gametes of different species. In this study, we reassessed the phase of cell-cycle arrest in the gametes of two species, Arabidopsis (Arabidopsis thaliana) and Torenia fournieri. We first showed that 4’, 6-diamidino-2-phenylindole staining was not feasible to detect changes in gametic nuclear DNA in T. fournieri. Next, using 5-ethynyl-2’-deoxyuridine (EdU) staining that detects DNA replication by labeling the EdU absorbed by deoxyribonucleic acid, we found that the replication of nuclear DNA did not occur during gamete development but during zygote development, revealing that the gametes of these species have a haploid nuclear DNA content before fertilization. We thus propose that gametes in the G1 phase participate in the fertilization event in Arabidopsis and T. fournieri.

The replication of nuclear DNA does not occur during gamete development but during zygote development.     

Changes in mitochondrial DNA levels during early embryogenesis in Torenia fournieri and Arabidopsis thaliana

Changes in the amount of mitochondrial DNA (mtDNA) have never been investigated in plant zygotes or early plant embryos due to the difficulty in isolating these cells, although such changes have been investigated in mammalian embryos. Using the single‐cell quantitative real‐time polymerase chain reaction (PCR) and laser confocal microscopy, we surveyed the changes in mtDNA levels during early embryogenesis in Torenia fournieri and Arabidopsis thaliana. In contrast with the amount of mtDNA in early mammalian embryos, which does not change, we found that mtDNA doubling occurred during zygotic development in T. fournieri and during two‐cell proembryo development in A. thaliana. These findings reveal that mtDNA doubling occurs during early embryogenesis in T. fournieri and A. thaliana, indicating that the dynamics of mtDNA in early plant embryos differs from that in early mammalian embryos.     

蓝猪耳小孢子发生和雄配子体发育

利用常规石蜡切片和超薄切片技术研究蓝猪耳(Torenia fournien)小孢子发生和雄配子体发育过程.蓝猪耳雄蕊4枚,花药具4个花粉囊.小孢子母细胞经减数分裂成四分体,其排列方式为四面体形或左右对称形.成熟花粉属2细胞型,具3个萌发孔.花药壁发育为双子叶型,腺质绒毡层.小孢子母细胞在四分体时期频繁出现细胞质降解的异常现象,其它发育阶段均正常;小孢子母细胞不正常的减数分裂可能导致花粉败育,这可能是蓝猪耳结实率低的原因之一.     

蓝猪耳的组织培养和植株再生

1　植物名称　蓝猪耳 (Ｔｏｒｅｎｉａｆｏｕｒｎｉｅｒｉ)。2　材料类别　叶片。3　培养条件　 ( 1 )ＭＳ培养基 ;( 2 )ＭＳ +ＮＡＡ 0 .1ｍｇ·Ｌ- 1 (单位下同 ) + 6 ＢＡ 1 ;( 3)ＭＳ +ＩＡＡ 0 .1 +6 ＢＡ 1 ,( 4 )ＭＳ + 2 ,4 Ｄ 0 .1 + 6 ＢＡ 1 ;( 5 )ＭＳ +2 ,4 Ｄ 0 .0 1 + 6 ＢＡ 1 ;( 6)ＭＳ +ＩＡＡ 1。培养基均加 0 .7%琼脂、3%蔗糖 ,ｐＨ 5 .8。培养温度为 2 2～2 5℃ ,每天照光 1 2ｈ ,光照度 1 5 0 0～ 2 0 0 0ｌｘ。4　生长与分化情况4.1　芽的诱导　切取蓝猪耳幼苗叶片 ,用蒸馏水冲洗干净后 ,在 70 %酒精中浸洗 30ｓ,然…     

蓝猪耳卵细胞和合子的分离

蓝猪耳(Torenia fournieri)胚囊部分裸露出胚珠,在光学显微镜下能清楚观察到卵细胞和助细胞的形态结构.用解剖和酶解-解剖两种方法都能分离出生活卵细胞.用前种方法机械分离出的卵细胞数量较少(5%),但避免了酶对配子识别研究的干扰.在后种方法中加入0.1%纤维素酶和0.1%果胶酶既能使分离更加容易操作,又对卵细胞没有致命伤害,能在短时间内分离出较多的卵细胞(18%).用酶解-解剖方法也可分离出授粉14 h后的合子细胞.     

蓝猪耳离体受精初试

用体内-体外方法分离了蓝猪耳精细胞。用酶解和解剖方法分离了其成熟卵细胞。分离的精、卵细胞用电融合介导尝试了体外诱导融合。在合适的渗透压(6%甘露醇)和合适的氯化钙(0.04%CaCl2·2H2O)溶液中,用交流电场为30～35V,10～25s使精、卵细胞排队;用直流电场400～600V,45～50μs的脉冲穿孔条件可诱导30%的精、卵细胞融合和70%以上的卵细胞之间的融合。尝试了人工合子的单细胞培养但未获成功。诱导蓝猪耳精、卵细胞融合的条件与玉米和水稻不同。     

Isolation and osmotic relations of developing megagametophytes of Torenia fournieri

A new method is reported to isolate and handle living megagametophytes of Torenia fournieri at any developmental stage. The stages were determined using light microscopy and delimited by correlating floral morphological traits. When significant changes in the osmotic pressure were found during development, enzyme solutions contained different concentrations of osmoticum. Osmotic pressure is lowest in the megaspore, increases until the four-nucleate stage and then gradually decreases until complete embryo sac formation. In enzymatic solutions containing appropriate concentrations of osmoticum, protoplasts of megaspores, two-, four-, eight-nucleate embryo sacs, egg cells, synergids and central cells were successfully isolated. The living protoplasts were collected by micromanipulator, transferred into microdroplets and tested for viability. Received: 1 June 1998 / Revision accepted: 20 May 1999     

高表达miR396小分子导致拟南芥花柱头弯曲

MicroRNAs（miRNAs）是大小约21个碱基、内源、非编码的小分子RNA。以拟南芥（Arabidopsis thaliana）miR396小分子为研究对象,分别克隆到了miR396小分子的两个前体（MIR396a,MIR396b）,得到了转基因植株。通过转基因植株的遗传学研究发现,高表达miR396小分子导致转基因拟南芥的花柱头弯曲。花柱头的弯曲影响了角果的正常发育。另外,Northern杂交结果表明转基因拟南芥花部位的miR396及其前体的表达量与对照相比显著增加。这些结果表明高表达miR396小分子可以导致拟南芥花柱头弯曲。     

蓝猪耳受精生物学研究进展

蓝猪耳(Torenia fournieri L.)胚囊半裸露,在光学显微镜下能清楚观察到卵细胞、助细胞及部分中央细胞的形态结构,有助于原位观察卵细胞在受精前后的变化状态,被认为是研究被子植物体内受精机理的一种模式植物。综述了蓝猪耳的受精机理:花粉管定向进入胚囊的方式与机理、钙在受精过程中的作用、受精前后胚囊细胞骨架的动态变化。简要介绍了离体受精技术在蓝猪耳受精生物学中的发展应用。根据前人对蓝猪耳的研究成果并结合我们的研究,指出蓝猪耳在受精生物学中的应用,特别是借助离体受精技术平台,将具有更大的研究前景。     

蓝猪耳精细胞的分离及两个精细胞群体的收集

蓝猪耳是二细胞型花粉,生殖细胞在花粉管中分裂形成两个精细胞。用体内-体外技术培养出花粉管后,将其置于爆破液中即可释放出花粉管内含物,其中包括两个精细胞和营养细胞。在显微镜下两个精细胞具二型性：体积较大的精细胞与花粉管的营养核相连,体积较小的精细胞只与大精细胞连接。两个精细胞之间的连接比较结实,需用微量酶液将两个精细胞分开。用显微操作仪就可分别挑选出两个精细胞群体,分别有上百个细胞。蓝猪耳精细胞的成功分离为利用蓝猪耳开展离体受精研究打下了良好的基础。这种单一纯化的精细胞群体的获得为用分子生物学方法区分两个精细胞的特异基因和蛋白质创造了条件。     

Changes in actin organization in the living egg apparatus of Torenia fournieri during fertilization

Changes in actin organization in the living egg apparatus of Torenia fournieri from anthesis to post-fertilization have been investigated using microinjection and confocal microscopy. Our results revealed that the actin cytoskeleton displays dramatic changes in the egg apparatus and appears to coordinate the events of synergid degeneration, pollen tube arrival and gametic fusion during fertilization. Synergid degeneration occurs after anthesis and is accompanied by actin fragmentation and degradation. The actin cytoskeleton becomes organized with numerous aggregates in the chalazal end of the degenerating synergid, and some of the actin infiltrates into the intercellular gap between synergids, egg and central cell, forming a distinct actin band. An actin cap is present near the filiform apparatus after anthesis and disappears after pollen tube arrival. In the egg cell, actin filaments initially organize into a network and after pollination become fragmented into numerous patches in the cortex. These structures, along with the actin in the degenerating synergid and intercellular spaces form two distinct actin coronas during fertilization. The actin coronas vanish after gametic fusion. This is the first report of changes in actin organization in the living egg apparatus. The reorganization of the actin cytoskeleton in the egg apparatus and the presence of the actin coronas during fertilization suggest these events may be a necessary prelude to reception of the pollen tube and fusion of the male and female gametes. Received: 11 November 1999 / Accepted: 31 January 2000     

蓝猪耳花药发育中多糖和脂滴的组织化学研究

对蓝猪耳花药发育中营养物质的分布和转化过程进行组织化学研究,结果表明:在造孢细胞时期,药壁细胞没有营养物质的积累,但在造孢细胞中有少量的脂滴;在小孢子母细胞时期,表皮细胞中出现淀粉粒,而在绒毡层细胞中出现脂滴,小孢子母细胞中也有脂滴的分布;在四分体时期,四分体小孢子中出现淀粉粒,绒毡层细胞脂滴增加;在小孢子早期,药室内壁细胞中出现淀粉粒,绒毡层继续积累脂滴,而小孢子中开始出现脂滴;到小孢子晚期,绒毡层细胞降解,细胞残留物中出现较多脂滴;在二胞花粉早期,花粉中的大液泡消失,花粉开始积累淀粉粒;在即将开花的成熟花粉中则积累了大量的脂滴和少量的淀粉粒.蓝猪耳花药发育中多糖和脂滴两种营养物质的积累和分布具有一定的时、空特点,反映出花药发育中营养物质积累的规律.     

The Hypostase in Torenia fournieri Lind.: A Histochemical Study of the Cell Walls

A histochemical investigation on the cell walls of the hypostasein Torenia fournieri Lind. (Scrophulariaceae) revealed thatthey contain large amounts of callose, cellulose and pectins.Except in the middle lamellae, tests failed to show lignin inthe walls. It is surmised that the callose in the hypostasedevelops in order to regulate the flow of metabolites to theembryo sac. Torenia fournieri Lind., hypostase, cell wall, callose     

Functional divergence within class B MADS-box genes TfGLO and TfDEF in Torenia fournieri Lind

Homeotic class B genes GLOBOSA (GLO)/PISTILLATA (PI) and DEFICIENS (DEF)/APETALA3 (AP3) are involved in the development of petals and stamens in Arabidopsis. However, functions of these genes in the development of floral organs in torenia are less well known. Here, we demonstrate the unique floral phenotypes of transgenic torenia formed due to the modification of class B genes, TfGLO and TfDEF. TfGLO-overexpressing plants showed purple-stained sepals that accumulated anthocyanins in a manner similar to that of petals. TfGLO-suppressed plants showed serrated petals and TfDEF-suppressed plants showed partially decolorized petals. In TfGLO-overexpressing plants, cell shapes on the surfaces of sepals were altered to petal-like cell shapes. Furthermore, TfGLO- and TfDEF-suppressed plants partially had sepal-like cells on the surfaces of their petals. We isolated putative class B gene-regulated genes and examined their expression in transgenic plants. Three xyloglucan endo-1,4-beta-d-glucanase genes were up-regulated in TfGLO- and TfDEF-overexpressing plants and down-regulated in TfGLO- and TfDEF-suppressed plants. In addition, 10 anthocyanin biosynthesis-related genes, including anthocyanin synthase and chalcone isomerase, were up-regulated in TfGLO-overexpressing plants and down-regulated in TfGLO-suppressed plants. The expression patterns of these 10 genes in TfDEF transgenic plants were diverse and classified into several groups. HPLC analysis indicated that sepals of TfGLO-overexpressing plants accumulate the same type of anthocyanins and flavones as wild-type plants. The difference in phenotypes and expression patterns of the 10 anthocyanin biosynthesis-related genes between TfGLO and TfDEF transgenic plants indicated that TfGLO and TfDEF have partial functional divergence, while they basically work synergistically in torenia.     

Revisiting phase transition during flowering in Arabidopsis

Single-phase transition during flowering has been suggested by Hempel and Feldman (1994) [Planta 192: 276]. When early flowering ecotypes of Arabidopsis were microscopically observed, a long day signal simultaneously induced the acropetal (bottom to top) production of flower primordia and the basipetal (top to bottom) differentiation of paraclades (axillary flowering shoots) from the axils of pre-existing leaf primordia. However, this model could not account for the production of an extra number of secondary shoots in the TERMINAL FLOWER 1 overexpressor line or AGL20 overexpressor line in Columbia background with a functional allele of FRIGIDA. We report here that Columbia with a functional allele of FRIGIDA under long days and Columbia under short days show an inflorescence-producing phase between the vegetative and the flower-producing phases, supporting two-step phase transition during flowering. In addition, a late-flowering mutant, fwa shows an inflorescence phase but fca, fy and fve follow a single-phase transition, suggesting flowering time mutations have different effects on phase transition during flowering.