香榧营养苗端细胞组织分区的超微结构观察

本文研究了榧树(Torreya grandis)成熟植株在季节生长中营养苗端的超微结构变化。各区域细胞的主要区别特征为:顶端原始细胞与亚顶端细胞相接的细胞壁较厚,液泡多分布于细胞游离面,质体中淀粉粒较小;亚顶端细胞壁较厚,液泡较大,质体中淀粉粒较大而多;周缘区细胞质体多不具淀粉粒,液泡也较小,胞间连丝丰富;肋状区细胞被大量的含淀粉质体及液泡占据了大部分空间,胞间连丝丰富。在季节变化的四个时期中,各区域细胞的亚显微结构特征亦不相同。休眠期各区细胞淀粉质体较发达,细胞壁较厚,液泡大;叶扩展期淀粉质体减少或消失;芽鳞形成期出现大量小液泡;新的顶芽形成期液泡增加,核糖体含量较高。讨论了各区域细胞核形态与其细胞活跃性的关系。     

Origin of the quiescent center in the root of Capsella bursa-pastoris (L.) Medik

The origin of the quiescent center in the embryonic radicle of Capsella bursa-pastoris was investigated by in-situ hybridization to cellular polyadenylic-acid-containing RNA using [³H]polyuridylic acid as a probe. In the globular embryo, autoradiographic silver grains were localized in all cells of the presumptive root apex except in the hypophysis. As the inner cell formed by a transverse division of the hypophysis cut off new cells toward the central procambial cylinder of the embryo, these cells remained characteristically unlabeled, in contrast to the labeled cells of the rest of the embryo. In the embryonic radicles of mature seeds and of seedlings, cells derived from the hypophysis appeared as a nonmeristematic, unlabeled, hemispherical group, bounded by the procambium to the inside and the root epidermis to the outside. When root tips excised from 2-d-old seedlings were incubated in [methyl-³H]thymidine, sectioned, and autoradiographed, cells derived from the inner cell of the hypophysis were found to be unlabeled, thus showing that they constitute the specific cells of the quiescent center. These results present evidence for the single-cell origin of the quiescent center in an angiosperm root and a role for the hypophysis in it.Abbreviations poly(A)⁺RNA polyadenylicacid-containing RNA - [³H]poly(U) [³H]polyuridylic acid - QC quiescent center This work was supported in part by National Science Foundation grants PCM-7902898 and DCB-8709092.     

Cytokinin production by Asparagus shoot apex cultured in vitro

The cytokinin producing capacity of asparagus (Asparagus officinalis L.) shoot apex was examined by means of shoot apex culture in vitro, where adventitious roots were never formed. The cultured shoot apices continued to diffuse a small but constant amount of cytokinin into the medium throughout five passages of subculture. The cytokinin content in the apices at the end of the subculture was not different from that at the beginning of the subculture. These results indicate a production of cytokinin by the apices. However, the finding is not in conflict with the hypothesis that the root tip is the major source of cytokinin supply, because the root tip of asparagus produced more cytokinin than the shoot apex and the decline of shoot growth observed during the subculture was partially restored by an application of zeatin into the medium.     

Synchronisation of cell division in the shoot apex of Silene in relation to flower initiation

In plants of Silene coeli-rosa, induced to flower by 7 LD, synchronisation of cell division in 20 per cent or more of the cells in the shoot apical dome was found on the 8th and 9th days after the beginning of induction, during the plastochron before sepal initiation. Synchronisation was inferred from the changes in the proportions of cells with the 2C and 4C amounts of DNA, and changes in mitotic index and labelling index. From the peaks of mitotic index a cell cycle of 10 h was measured for the synchronised cells, half that of cells in the apices of uninduced plants in short days. The faster cell cycle and synchronisation in the induced plants was associated with a shortening, of both G1 and G2, suggesting two control points, while S and M remained unchanged. These results are compared with those from other plants in which synchronisation occurs at the beginning rather than the end of evocation.Abbreviations LD long day(s) - SD short day(s) - S DNA synthesis phase of cell cycle - G1 pre-S interphase - G2 post-S interphase - M mitosis     

Anlage und Differenzierung des Prokambiums im Sproßscheitel vonClematis vitalba (Ranunculaceae)

The development of the shoot apex is studied in regard to relationships between morphogenesis and histogenesis. Differentiation of procambium starts only some distance from the shoot apex at the basis of leaf initials and continues from the node into leaf and axis. Lateral strands appear parallel with the first ternation in the leaf. The development of procambium strands is correlated with the differentiation in the axis and there seems to be a mutual stimulation between leaf initial and procambium.

Teil einer Dissertation an der Fakultät für Biologie der Universität Heidelberg. 1. Beitrag einer Serie über Die Sproßentwicklung vonClematis vitalba (Ranunculaceae).     

Abscisic acid increases the content of free polyamines and delays mitotic activity induced by spermine in isolated embryonic axes of chick-pea seeds

The effects of abscisic acid (ABA) on the free polyamine: spermine (Spm), spermidine (Spd), putrescine (Put) and cadaverine (Cad) content, mitotic index (MI) and DNA synthesis have been studied in embryonic axes isolated from chick-pea ( Cicer ariennum L.) seeds. Spermine and spermidine decreased in controls during the first 24 h of germination, the former by 70% and the latter by 20%. This decrease was slowed down by ABA (5 μ M or 25 μ M ) in response to its concentration; at 24 h the values for Spm and Spd were 3-fold and 1.5-fold those of the controls, respectively. Exogenous ABA induced the synthesis of Put from 0 to 24 h, by which time the content of this polyamine had doubled. The controls at 24 h registered the same Put content as those with 25 μ M ABA, suggesting that ABA had ceased to induce Put synthesis. The pattern for cadaverine ABA-induced synthesis was similar to that of Put. From 18 to 24 h, however, the level of Cad in the controls was 3 times higher than in the treatments. The mitotic index in meristem cells reached a maximum at 30–36 h, when cell elongation stopped in the sub-apical region. This maximum was lowered by exogenous ABA in response to the concentration and occurred 12 h earlier in the presence of Spm (0.1–1.0 m M ), which induced high MI levels during the period studied. With 10 m M Spm, two complete waves of mitosis were observed, but when Spm and ABA were added together, the tetramine had no observable effect. Spermine stimulated ³H-thymidine uptake as well as DNA synthesis, with a maximum at 12 h, but did not counteract the inhibitory effect of ABA. Our results suggest that ABA causes changes in mitotic activity that Spm cannot overcome.     

Shoot Apex Demand Determines Assimilate and Nutrients Partitioning and Nutrient-uptake Rate in Tobacco Plants

Our previous experiment revealed that apex-removed plants have larger root systems but a lower K＋-uptake rates than intact tobacco plants. Since the apex is not only a center of growth and metabolism, but also an important place of auxin synthesis and export, the aims of this study were to distinguish whether the apex demand or auxin synthesized in the apex regulates assimilate and nutrients partitioning within plant, and to explain the reason for the lower K＋-uptake rate of the apex-removed plant. In comparison with the control plant, covering the shoot apex with a black transparent plastic bag reduced net increases in dry matter and nutrients; however, the distribution of the dry matter and nutrients between shoot and roots and nutrient-uptake rates were not changed. Removal of the shoot apex shifted the dry mass and nutrients distributions to roots, and reduced the rate of nutrient uptake. Application of 1-naphthylacetic acid （NAA） could partly replace the role of the removed apex, stimulated assimilate and nutrient deposition into the treated tissue, and enhanced the reduced plasma membrane ATPase activity of roots to the control level. However, treatment of the apex-removed plants with NAA could not rescue the reduced nutrient uptake rate and the shifted assimilates and nutrients partitioning caused by excision of the apex. Higher nutrient uptake rate of the intact plants could not be explained by root growth parameters, such as total root surface area and number of root tips. The results from the present study indicate that strong apex demand determined assimilates and nutrients partitioning and nutrient-uptake rate in tobacco （Nicotiana tabacum） plants.     

Effects of ambient temperature in association with photoperiod on phenology and on the expressions of major plant developmental genes in wheat (Triticum aestivum L.)

In addition to its role in vernalization, temperature is an important environmental stimulus in determining plant growth and development. We used factorial combinations of two photoperiods (16H, 12H) and three temperature levels (11, 18 and 25 °C) to study the temperature responses of 19 wheat cultivars with established genetic relationships. Temperature produced more significant effects on plant development than photoperiod, with strong genotypic components. Wheat genotypes with PPD‐D1 photoperiod sensitive allele were sensitive to temperature; their development was delayed by higher temperature, which intensified under non‐inductive conditions. The effect of temperature on plant development was not proportional; it influenced the stem elongation to the largest extent, and warmer temperature lengthened the lag phase between the detection of first node and the beginning of intensive stem elongation. The gene expression patterns of VRN1, VRN2 and PPD1 were also significantly modified by temperature, while VRN3 was more chronologically regulated. The associations between VRN1 and VRN3 gene expression with early apex development were significant in all treatments but were only significant for later plant developmental phases under optimal conditions (16H and 18 °C). Under 16H, the magnitude of the transient peak expression of VRN2 observed at 18 and 25 °C associated with the later developmental phases.