Taxonomy of the family potyviridae*

The paper contains the literature review of the family Potyviridae demonstrating the current state of the problem on classification of the most numerous taxonomic family among the phytopathogenic viruses. The data accumulated by the nineties allowed to transform the group of potyviruses into the family Potyviridae consisting of 4 genera bymo‐, rymo‐, ipomo‐ and potyviruses. The main phenotypic features and molecular parameters of separation of this family are given. The paper presents data of the authors on biological, physico‐chemical and antigenic characteristics of 10 viruses identified in the south of the Russian Far East and referred to the genus of potyviruses. Among them are three new, previously not described viruses in the literature: Tradescantia albiflora virus, Hippeastrum mosaic virus and Trifolium montanwn virus.     

Scanning electron microscopic evidence for a budding mode of chloroplast multiplication in higher plants

Scanning electron microscopic observations of leaf sections of certain plants show two distinct types of chloroplast multiplication. In the normal mode, chloroplast division is achieved by binary fission. In Bryophyllum pinnatum Kurz. the chloroplast multiplication occurs by a process similar to the budding of yeast. The advantages of using scanning electron microscopy to follow closely the different stages of chloroplast division are demonstrated.     

The mitotic apparatus during unequal microspore division observed by a confocal laser scanning microscope

Summary The structure of the mitotic apparatus during the microspore division ofTradescantia paludosa, which has a distinctively unequal division of large vegetative and small generative cells, was studied using -tubulin immunofluorescence methods and confocal laser scanning microscopy. Mitotic apparatuses began to develop asynchronously during early prophase at the vegetative pole (VP) and during prometaphase at the generative pole (GP). Both, however, reached completion together at the same time during metaphase. At the VP from prophase to prometaphase, microtubules (MTs) did not converge on the pole, and there was a circular area containing only a few MTs. The prophase spindles on the VP side were in the form of domes or cones that lacked the top. In the metaphase, however, the MTs concentrated at the pole to form a representative cone-shaped half-spindle. At the GP from prometaphase to metaphase, the MTs did not concentrate, and a circular area existed that lacked MTs. The half-spindles formed truncated cones. When the phragmoplast developed and curved around the generative nucleus during the telophase. it first grew toward the long axis of the ellipsoidal-shaped microspore; and after it arrived at the inner membrane of the microspore, it again curved past the generative nucleus toward the short axis. In conclusion, it was found that the mitotic apparatus ofT. paludosa microspores with its asynchronous growth and asymmetrical spindle structure and with its three dimensional growth of phragmoplasts had a peculiar developmental manner related to unequal division.     

Robertsonian change in allies ofZebrina (Commelinaceae)

Meiotic pairing inTradescantia soconuscana 2n=26 (6M+16A+4T) suggests that it has a tetraploid constitution which is not apparent in its chromosome number. Its nombre fondamental of 32 indicates that it could have evolved from an ancestor with x=8 by a combination of Robertsonian fusion, hybridization and polyploidy. The 2n=16 (8A+8T) karyotype of a closely related diploid supports this. The allied genusZebrina may have followed a similar method of chromosome evolution.     

New taxa in Commelinaceae

Two new names are published: Gibasis venustula subsp. robusta D. R. Hunt and Tradescantia poelliaeT). R. Hunt.     

Evaluation of Cr(VI) Exposed and Unexposed Plant Parts of Tradescantia pallida (Rose) D. R. Hunt. for Cr Removal from Wastewater by Biosorption

Phytoremediation is an efficient method for the removal of heavy metals from contaminated systems. A productive disposal of metal accumulating plants is a major concern in current scenario. In this work, Cr(VI) accumulating Tradescantia pallida plant parts were investigated for its reuse as a biosorbent for the removal of Cr(VI) ions. The effect of pH, contact time, sorbent dosage, Cr(VI) concentration and temperature was examined to optimize these process parameters. Results showed that Cr(VI) exposed/unexposed T. pallida leaf biomass could remove 94% of chromium with a sorption capacity of 64.672 mg g^?1. Whereas the kinetics of Cr(VI) biosorption was well explained by the pseudo second-order kinetic model, the Langmuir model better described the data on Cr(VI) sorption isotherm compared with the Freundlich model. The changes in the free energy (ΔG°), entropy (ΔS°) and enthalpy (ΔH°) were found to be ?5.276 kJ mol^?1, 0.391 kJ mol^?1 K^?1 and 11.346 kJ mol^?1, respectively, which indicated the process to be spontaneous, feasible and endothermic in nature. FTIR spectra of T. pallida leaf biomass revealed the active participation of ligands, such as ?NH, amide, hydroxyl and sulphonate groups present in the biomass for Cr(VI) binding, SEM analysis revealed a porous structure of the biosorbent for an easy uptake of Cr(VI).     

Asynchronous entry into anaphase induced by okadaic acid: spindle microtubule organization and microtubule/kinetochore attachments

Summary We have found that a brief treatment of either PtK₂ cells or stamen hair cells ofTradescantia virginiana during metaphase with okadaic acid, a potent protein phosphatase inhibitor, results in asynchronous entry into anaphase. After this treatment, the interval for the separation of sister chromatids can be expanded from a few seconds to approximately 5 min. We have performed a series of immunolocalizations of cells with anti-tubulin antibodies and CREST serum, asking whether okadaic acid induces asynchronous entry into anaphase through changes in the organization of the spindle microtubules or through a loss in the attachment of spindle microtubules to the kinetochores. Our experiments clearly indicate that asynchronous entry into anaphase after phosphatase inhibitor treatment is not the result of either altered spindle microtubule organization or the long-term loss of microtubule attachment to kinetochores. The kinetochore fiber bundles for all of the separating chromosomes are normally of uniform length throughout anaphase, but after asynchronous entry into anaphase, different groups of kinetochore fiber bundles have distinctly different lengths. The reason for this difference in length is that once split apart, the daughter chromosomes begin their movement toward the spindle poles, with normal shortening of the kinetochore fiber bundle microtubules. Thus, okadaic acid treatment during metaphase does not affect anaphase chromosome movement once it has begun. Our results suggest that one or more protein phosphatases appear to play an important role during metaphase in the regulatory cascade that culminates in synchronous sister chromatid separation.     

紫露草雄蕊毛细胞中质膜体超微结构的观察

质膜体是由质膜的内折或外突而形成的。Harris等”’把质膜的外突称为原生质小管（Plasmatubules）,认为原生质小管是一种特化的质膜体。质膜体或原生质小管为质膜的一种异型体结构,明显增加质膜的表面积。由于植物细胞存在着细胞间短距离的物质运输,增加膜的表面积可扩大物     

Photosynthetic acclimation of Tradescantia albiflora to growth irradiance: morphological, ultrastructural and growth responses

Tradescantia albiflora (Kunth), a trailing ground species naturally occurring in deep shade in rainforests, has an unusual photosynthetic acclimation profile for growth irradiance. Although capable of increasing its capacity for electron transport, photophosphorylation and carbon fixation when grown in full sunlight, Tradescantia has constant chlorophyll alb ratios, photosystem reaction centre stoichiometry and pigment-protein composition at all growth irradiances (Chow et al. 1991. Physiol. Plant. 81: 175–182). To gain an insight into the compensatory strategies which allow Tradescantia to grow in both high and low lights, plants were grown under shade cloth (100 to 1.4% relative growth irradiance) and leaf and chloroplast attributes were compared. While shade Tradescantia chloroplasts had three times more chlorophyll per chloroplast and twice the length of thylakoid membranes compared to plants grown in full sunlight, the ratios of appressed to nonappressed thylakoid membranes were constant. The average net surface charge density of destacked thylakoids was the same for plants grown at moderate and low-irradiance, consistent with their similar stacking profiles. Tradescantia plants grown in direct sunlight had 10-times more fresh and dry weight per plant compared to plants grown in shade, despite a lower photosynthetic capacity on a leaf area basis with partial photoinhibition. We conclude that having a light-harvesting apparatus permanently locked into the "shade-plant mode " does not necessarily prevent a plant from thriving in high light. Analyses of leaf growth at different irradiances provide a partial explanation of the manner in which Tradescantia compensates for very low photosynthetic capacity per unit leaf in sunlight.     

Pollen germination, tube growth and morphology, and microtubule organization after exposure to benomyl

The inhibitory effects of benomyl on pollen tube growth have received little attention, particularly at the microscopic and immunohistochemical levels. Pollen germination and tube growth in the presence of benomyl were evaluated in Tradescantia virginiana to investigate the effects of this fungicide on pollen germination rate, tube growth and morphology, and microtubule (Mt) organization. Benomyl was incorporated in germination media at 0,480, 600 or 720 mg 1⁻¹. Inhibition of pollen germination, cytoplasmic streaming, and tube elongation were associated with benomyl treatments. Benomyl also induced abnormal pollen tube morphology and Mt organization. Compared to controls, Mts in the treated tubes were characteristically fewer in number, fragmented, sinuous and increasingly disorganized. At the two highest benomyl concentrations, Mts were considerably fewer or absent in apical/subapical regions of the pollen tubes. This work verifies that benomyl incorporated into germination media at concentrations lower than recommended field rates inhibit pollen germination and tube growth, and that the effects are associated with alterations of Mt organization.