Floral sex allocation and reproductive success within inflorescences of Hosta ventricosa,a pseudogamous apomict

Aims Within inflorescences of sexually reproducing hermaphrodites, the production of ovules, fruits and seeds commonly declines from basal (early-opening) to distal (late-opening) flowers, while pollen production remains constant or only changes slightly, with the result that distal (late-opening) flowers become functionally male. However, few empirical studies have specifically examined whether or not changes in allocation to pollen production actually lead to changes in the number of seeds sired, a more direct measure of male fitness. In pseudogamous apomicts, fitness depends on the number of seeds produced; thus, a contrasting pattern of variation in the pollen-to-ovule (P/O) ratio within inflorescences might be expected.Methods We investigated floral sex allocation and reproductive success within racemes of Hosta ventricosa, a pseudogamous apomictic hermaphrodite possessing flowers that open acropetally. We quantified variations in pollen number, ovule number, the P/O ratio and fruit and seed production, from 2007 to 2011, among flowers within racemes of four populations of H. ventricosa in southwest China. Ecological causes for fruit and seed production were evaluated by observing patterns of pollen deposition, flower removal and supplemental pollination.Important findings Pollen number, ovule number and the P/O ratio declined from basal-to-distal positions in all sampled populations (years). Fruit and seed production decreased distally in most populations (years). Low fruit and seed set of distal flowers was not due to pollen limitation because pollen deposition never declined distally and the low fruit and seed set of distal flowers remained even after supplementary pollination was provided. The flower-removal experiment indicated that inter-fruit competition for resources among flowers was common. The low P/O ratio of distal flowers in H. ventricosa might be favored because they were unable to obtain fitness by donating pollen and siring seeds on other plants. Our study may help to understand the adaptive significance of sex allocation among flowers within inflorescences of sexually reproducing hermaphrodites.     

Molecular-genetic characterisation of a new nematode resistance gene in wheat

Bread wheat lines introgressed with Aegilops ventricosa chromosomes were evaluated for their resistance to the Australian cereal cyst nematode (CCN, Heterodera avenae) pathotype Ha13. Higher levels of resistance relative to the phenotype of the Cre1 CCN resistance gene in wheat were found in the donor Ae. ventricosa parental lines and chromosome-5N^v substitution or addition lines. The newly identified resistance to pathotype Ha13 on chromosome 5N^v, designated, Cre6, was shown to be independent of the Ae. ventricosa-derived Cre2 gene, effective against several European pathotypes. Another Ae. ventricosa derived gene, Cre5, showed partial resistance to pathotype Ha13. Inhibition of Ha13 female nematode reproduction was ranked in the order Cre6 >Cre1 >CreF≥Cre5. Cre6 was inherited as a single dominant locus. Gene sequences encoding nucleotide-binding sites and leucine-rich repeats (NBS-LRR) from the Cre3 CCN-pathotype Ha13 resistance locus were used as probes to isolate related sequences from one of the donor Ae. ventricosa parents. Related sequences from Ae. ventricosa (71–73% similarity at the amino-acid level to the Cre3-derived sequences) of chromosome 5N^v origin were identified and served as diagnostic molecular markers for the presence of 5N^v. CCN-susceptible plants, found as variants in some of the purported chromosome 5N^v lines, were also found to be missing the diagnostic 5N^v RFLP markers assayed by the NBS-LRR probe. An alloplasmic chromosome-5N^v addition line with Ae. ventricosa cytoplasm in the wheat cultivar, Moisson, background was particularly variable, with 43% CCN-susceptible plants and a corresponding loss of the diagnostic chromosome-5 molecular markers. Received: 26 June 2000 / Accepted: 15 July 2000     

When is a cell not a cell? A theory relating coenocytic structure to the unusual electrophysiology of Ventricaria ventricosa (Valonia ventricosa)

Summary. Ventricaria ventricosa and its relatives have intrigued cell biologists and electrophysiologists for over a hundred years. Historically, electrophysiologists have regarded V. ventricosa as a large single plant cell with unusual characteristics including a small and positive vacuole-to-outside membrane potential difference. However, V. ventricosa has a coenocytic construction, with an alveolate cytoplasm interpenetrated by a complex vacuole containing sulphated polysaccharides. We present a theory relating the coenocytic structure to the unusual electrophysiology of V. ventricosa. The alveolate cytoplasm of V. ventricosa consists of a collective of uninucleate cytoplasmic domains interconnected by fine cytoplasmic strands containing microtubules. The cytoplasm is capable of disassociating into single cytoplasmic domains or aggregations of domains that can regenerate new coenocytes. The cytoplasmic domains are enclosed by outer (apical) and inner (basolateral) faces of a communal membrane with polarised K⁺-transporting functions, stabilised by microtubules and resembling a tissue such as a polarised epithelium. There is evidence for membrane trafficking through endocytosis and exocytosis and so plasmalemma and tonoplast do not have fixed identities. Intra- and extracellular polysaccharide mucilage has effects on electrophysiology through reducing the activity of water and through ion exchange. The vacuole-to-outside potential difference, at which the cell membrane conductance is maximal, reverses its sign from positive under hypertonic conditions to negative under hypotonic conditions. The marked mirror symmetry of the characteristics of current as a function of voltage and conductance as a function of voltage is interpreted as a feature of the communal membrane with polarised K⁺ transport. The complex inhomogeneous structure of the cytoplasm places in doubt previous measurements of cytoplasm-to-outside potential difference.Correspondence and reprints: UNESCO Centre for Membrane Science and Technology, Department of Biophysics, School of Physics, University of New South Wales, Sydney, NSW 2052, Australia.     

控释氮肥对紫萼玉簪（Hosta ventricosa）生长和光合特性的影响

以紫萼玉簪（Hosta ventricosa）盆栽苗为材料,研究了50%遮荫条件下控释氮肥对玉簪不同生长发育时期生长和光合特性的影响,结果表明：N₁处理（4 g控释氮肥）和N₂处理（8 g控释氮肥）能够提高或显著提高玉簪不同生长发育时期干物质量;能够显著提高形态建成期叶绿素b（Chlb）含量,抽葶期和开花期叶绿素a（Chla）、Chlb及类胡萝卜素（Car.）含量;且显著提高各生长发育时期净光合速率（P_n）。在抽葶期和开花期,N₁处理最大光能转化效率（F_v/F_m）、PSⅡ电子传递量子效率（Φ_PSⅡ）、PSⅡ有效光化学量子产量（F′_v/F′_m）显著高于对照, 在形态建成期和开花期,N₂处理F_v/F_m、Φ_PSⅡ、F′_v/F′_m显著高于对照,且抽葶期F_v/F_m显著高于对照。除形态建成期N₁处理外,各施氮处理qP在不同时期与对照无显著差异。各施氮处理NPQ在形态建成期与对照无显著差异,而在抽葶期和开花期显著低于对照。     

大驳骨化学成分研究

通过对大驳骨(Gendarussa uentricosa)提取物的乙酸乙酯溶解部分进行分离纯化,发现了两个已知成分β-谷甾醇(1)和西米杜鹃醇(2),并对其低级性组分进行了GC/MS分析,共鉴定出21个化合物。该植物成分为首次报道。     

Hessian fly-resistance gene transferred from chromosome 4Mv of Aegilops ventricosa to Triticum aestivum

 A new Hessian fly (Mayetiola destructor) resistance gene from Aegilops ventricosa and its transfer to hexaploid wheat is described. The 4D(4M^v) substitution line H-93-33 derived from the cross [(Triticum turgidum H-1-1×Aegilops ventricosa no. 11)×Triticum aestivum H-10-15] was highly resistant to the Spanish population tested. Resistance seemed to be inherited as a single dominant factor in the F₂ generation resulting from a cross of H-93-33 with its susceptible parent (H-10-15). Resistance in Ae. venticosa no. 10 was located on chromosome 4M^v using M^v wheat/Ae. ventricosa addition lines. The resistance gene transferred from Ae. ventricosa no. 11 to H-93-33 (H27) is allelic with respect to that of Ae. ventricosa no. 10 and is non-allelic with respect to the genes H3 and H6 from Monon and Caldwell respectively. The assignment of H27 gene to chromosome 4M^v is further supported by its linkage to a gene encoding isozyme Acph-M^v1, previously located on chromosome 4M^v in the line H-93-33. A new marker from homoeologous chromosome group 4 (Amp-M^v2) present in H-93-33 and the 4M^v addition line is described. Received: 12 October 1996 / Accepted: 22 November 1996     

Transport Systems of Ventricaria ventricosa: I/V Analysis of Both Membranes in Series as a Function of [K+] o

The current-voltage (I/V) profiles of Ventricaria (formerly Valonia) membranes were measured at a range of external potassium concentrations, [K⁺] _o , from 0.1 to 100 mm. The conductance-voltage (G/V) characteristics were computed to facilitate better resolution of the profile change with time after exposure to different [K⁺] _o . The resistance-voltage (R/V) characteristics were computed to attempt resolution of plasmalemma and tonoplast. Four basic electrophysiological stages emerged: (1) Uniform low resistance between −60 and +60 mV after the cell impalement. (2) High resistance between +50 and +150 for [K⁺] _o from 0.1 to 1.0 mm and hypotonic media. (3) High resistance between −150 and −20 mV for [K⁺] _o of 10 mm (close to natural seawater) and hypertonic media. (4) High resistance between −150 and +170 mV at [K⁺] _o of 100 mm. The changes between these states were slow, requiring minutes to hours and sometimes exhibiting spontaneous oscillations of the membrane p.d. (potential difference). Our analysis of the I/V data supports a previous hypothesis, that Ventricaria tonoplast is the more resistive membrane containing a pump, which transports K⁺ into the vacuole to regulate turgor. We associate state (1) with the plasmalemma conductance being dominant and the K⁺ pump at the tonoplast short-circuited probably by a K⁺ channel, state (2) with the K⁺ pump ``off' or short-circuited at p.d.s more negative than +50 mV, state (3) with the K<sup>+</sup> pump ``on,' and state (4) with the pump dominant, but affected by high K⁺. A model for the Ventricaria membrane system is proposed. Received: 5 November 1998/Revised: 11 May 1999     

偏凸-柱穗山羊草双二倍体SDAU18的细胞分子遗传学鉴定

综合利用细胞学、种子贮藏蛋白电泳、基因组原位杂交（GISH）和抗性接种鉴定相结合的方法．对偏凸-柱穗山羊草双二倍体SDAU18进行了鉴定。结果表明,SDAU18的根尖细胞染色体数目变异范围为52—56．在绝大多数根尖细胞染色体数目为56的SDAU18减数分裂中期I花粉母细胞fPMCMI）内可观察到28个二价体,在部分细胞中可观察到一定频率的单价体、三价体和四价体,平均染色体构型为2n=56=3．21I＋19．78IIRing＋6．50IIRod＋0．01III＋0．04IVRing＋0．01IVRod;在SDAU18种子贮藏蛋白电泳图谱中,亲本偏凸山羊草和柱穗山羊草的多数特异带能够出现,SDAU18高分子量麦谷蛋白亚基图谱中既出现双亲的亚基谱带．也观察到新型亚基谱带：分别利用偏凸山羊草和柱穗山羊草基因组总DNA作探针．另一个亲本基因组总DNA作封阻。对SDAU18根尖细胞制片进行染色体原位杂交．在SDAU18的56条染色体中分别有14条出现绿色杂交信号：SDAU18是偏凸山羊草和柱穗山羊草的双二倍体,对小麦白粉病和条锈病均表现免疫,是一个在小麦品种遗传改良中具有重要利用价值的新型种质材料。     

Cell wall and cell growth characteristics of giant‐celled algae

Because of their large sizes and simple shapes, giant‐celled algae have been used to study how the structural and mechanical properties of cell walls influence cell growth. Here we review known relationships between cell wall and cell growth properties that are characteristic of three representative taxa of giant‐celled algae, namely, Valonia ventricosa, internodal cells of characean algae, and Vaucheria frigida. Tip‐growing cells of the genus Vaucheria differ from cells undergoing diffuse growth in V. ventricosa and characean algae in terms of their basic architectures (non‐lamellate vs. multilamellate) and their dependence upon pH and Ca²⁺ for cell wall extensibility. To further understand the mechanisms controlling cell growth by cell walls, comparative analyses of cell wall structures and/or associated growth modes will be useful. The giant‐celled algae potentially serve as good models for such investigations because of their wide variety of developmental processes and cell shapes exhibited.     

Ultrastructure of Microfilaments in Pollen and Pollen Tubes of Hosta Ventricosa (=H. voerulea)

Ultrastructure of microfilaments in pollen grains and pollen tubes of Hosta ventricosa (=H. coerulea) was investigated. Results indicate that microfilaments with conventional chemical fixation are preserved only in pollen grains, but destroyed in pollen tubes. Microfilaments treated with phalloidin before chemical fixation are found preserved in pollen tubes. In pollen grains a pronounced organization of parallel microfilaments appeared in bundles with its distribution characteristics is always restricted to their functional domains where bundles were in close contact with the vegetative nucleus. In young pollen tubes cytoplasmic bundles of microfilaments appeared also to pass close to the surface of mitochondria, plastids, endoplasmic reticulum, vesicles and small vacuoles, and always associated with lipid bodies. These findings strongly indicate that there is a relationship between microfilaments and the movement of vegetative nucleus and other organelles in the germination of pollen grains and in the growth of pollen tubes.