Peculiarities [correction of Pfculiarities] of lipid accumulation in Brassica rapa L. embryos on different stages development under altered gravity

Accumulation of lipid inclusions in Brassica rapa embryos generated under slow horizontal clinorotation and in the laboratory control were analyzed by histochemical methods. The research of lipid accumulation was carried out on consecutive stages of the embryo development, from the moment of two-cellular proembryo formation up to the stages of their full differentiation (21-22-day-old embryos). Accumulation of lipid drops was revealed for the first time at early stages of embryogenesis in this species, beginning from 3-day-old embryos (ball-like stage of embryo development) under clinorotation and in the laboratory control. The quantity of lipid inclusion was estimated by morphometrical analysis. Statistically significant differences between the clinorotation and laboratory control variants in quantity of lipid drops per cell were revealed from 6-day-old embryos (heart-shaped stage). Especially pronounced differences were noted in differentiated embryos (beginning from 12-day-old embryos) under horizontal clinorotation in comparison with the laboratory control. The registered differences testify about influence of altered gravity conditions on lipid accumulation in Brassica rapa embryos.     

Reserve nutrient substance accumulation in Brassica rapa L. seeds in microgravity conditions (STS-87)

The results of study of Brassica embryo differentiation and reserve nutrient substance accumulation in the seeds were represented. Near resemblance of the spaceflight and around control embryo development was revealed. Different character of the reserve substance accumulation was noted, despite of the morphologic similarity in seeds produced in spaceflight and on the ground. It allows to consider spaceflight embryos morphologically more younger compared to the ground control.     

Growth and differentiation of the root cap columella and root proper under stationary conditions and in clinorotation

Results are presented from light-optical and electron-microscopy studies of the root apices of three-day-old seedlings of table beet (Beta vulgaris) grown under conditions of stationary control and in clinorotation. It is shown that the ultrastructure and topography of the organelles of the root cap statocytes (gravity-perceptive cells) and cells of the distal elongation zone (gravity-receptor cells) of the root proper clearly reflect different directions for their growth and differentiation in space and in time as a function of specialization and function. Growth and genetically determined differentiation of the cells under clinorotation conditions occur as in the control, though certain differences in their ultrastructure attest to changes in metabolism.     

Ultrastructure of the statocytes and cells of the distal elongation zone of <Emphasis Type="Italic">Arabidopsis Thaliana</Emphasis> under the conditions of clinorotation

This paper presents the results of an electron microscope study of the root apices of 3-, 5- and 7- day-old seedlings of Arabidopsis thaliana grown under the conditions of stationary control and clinorotation. We demonstrated both the similarities with the control group and the differences in the ultrastructure of statocytes and cells of the distal zone of elongation under clinorotation. For the first time it was possible to establish the sensitivity of ER bodies, which are granular endoplasmic reticulum derived organelles containing β-glucosidase, to the influence of simulated microgravity. As a result, an increase in the number and area of ER bodies per section of a cell and in the variability of their forms was detected. The degree of these changes correlated with the duration of clinorotation. The supposition concerning the protective role of ER bodies in plant adaptation to microgravity is based on the data obtained.     

The development of embryos in <Emphasis Type="Italic">Brassica rapa</Emphasis> L. in microgravity

In this work we present the results of the comparative cytoembryological research on embryos of an identified age that were produced in microgravity and in the ground laboratory control. A considerable similarity was found between the rate of embryo development and degree of their differentiation in both variants. Abnormalities in the process of embryo formation and acceleration in development of the endosperm were revealed at the early stages of embryogenesis in microgravity.     

Cytoskeleton orientation in epidermis cells of roots generated de novo in leaf explants under clinorotation

The anatomy, cytoskeleton orientation, and thickness of the cell wall of the root growth zones generated de novo in vitro under clinorotation (simulated microgravity) were studied. The anatomical structure of the roots generated de novo from the cambium cells of the leaf explant petiole is similar to the structure of embryonic roots. The root cell differentiation in vitro during the clinorotation does not differ from the control in main features. Changes in the tubulin cytoskeleton orientation under clinorotation were detected in the epidermis of distal elongation zone (that is apparently associated with specific physiological properties of the cells in this zone). A tendency towards the thinning of the root cell walls in vitro under conditions of simulated microgravity was established.     

The effects of prolonged gravity vector randomization on differentiation of precursour cells in vitro

It was shown that proliferative rate of human mesenchymal stem cells (hMSCs) decreased during gravity vector randomization (clinorotation). Clinorotated hMSCs exhibited changes in expression of some external cell markers and adhesion molecules. Marked suppression of osteogenic differentiation of hMSC as to formation of bone nodules and calcium deposits was observed. F-actin stress fibers of cytoskeleton were altered in clinorotated cultures. Prolonged clinorotation of embryoid bodies (EBs) resulted in a delay of embryonic stem cells (ESCs) differentiation into cardiomyocytes. Percentage of beating cardiomyocytes in each EB was significantly reduced. Thus, long-term gravity vector randomization decreases the differentiation processes of precursor cells in vitro.     

黄精种子萌发过程发育解剖学研究

采用石蜡切片技术对成熟黄精种子形态及萌发过程中的形态学变化及解剖结构特征进行了研究,以阐明黄精种子繁殖的生物学机制。结果显示:(1)成熟的黄精种子由外而内依次为种皮、胚乳和胚等3部分组成。其中种皮由一层木质化的细胞组成;胚乳占据种子的大部分结构,胚乳细胞含有大量淀粉,细胞壁增厚;胚处于棒型胚阶段。(2)黄精种子在萌发过程中棒型胚靠近种脐端分化为吸器、子叶联结和子叶鞘,靠近种孔的部位分化出胚根、胚轴和胚芽。(3)黄精种子萌发首先由子叶联结伸长将胚芽和胚根原基推出种孔,紧接着下胚轴膨大形成初生小根茎,吸器留在种子中分解吸收胚乳中的营养物质。(4)通过子叶联结连通吸器和初生小根茎,将胚乳中的营养物质由吸器-子叶联结这个通路转移到初生小根茎中,为初生根茎上胚芽和胚根的进一步分化提供物质保障。(5)黄精种子自然条件下萌发率较低,而且当年不出土。研究表明,黄精种子的繁殖生物学特性是其生态适应的一种重要机制。     

Discovery of a resting stage in the harmful,brown‐tide‐causing pelagophyte,Aureoumbra lagunensis: a mechanism potentially facilitating recurrent blooms and geographic expansion

To date, the life stages of pelagophytes have been poorly described. This study describes the ability of Aureoumbra lagunensis to enter a resting stage in response to environmental stressors including high temperature, nutrient depletion, and darkness as well as their ability to revert from resting cells back to vegetative cells after exposure to optimal light, temperature, and nutrient conditions. Resting cells became round in shape and larger in size, filled with red accumulation bodies, had smaller and fewer plastids, more vacuolar space, contained lower concentrations of chl a and RNA, displayed reduced photosynthetic efficiency, and lower respiration rates relative to vegetative cells. Analysis of vegetative and resting cells using Raman microspectrometry indicated resting cells were enriched in sterols within red accumulation bodies and were depleted in pigments relative to vegetative cells. Upon reverting to vegetative cells, cells increased their chl a content, photosynthetic efficiency, respiration rate, and growth rate and lost accumulation bodies as they became smaller. The time required for resting cells to resume vegetative growth was proportional to both the duration and temperature of dark storage, possibly due to higher metabolic demands on stored energy (sterols) reserves during longer period of storage and/or storage at higher temperature (20°C vs. 10°C). Resting cells kept in the dark at 10°C for 7 months readily reverted back to vegetative cells when transferred to optimal conditions. Thus, the ability of Aureoumbra to form a resting stage likely enables them to form annual blooms within subtropic ecosystems, resist temperature extremes, and may facilitate geographic expansion via anthropogenic transport.     

The growth and differentiation of root cap columella cells and the proper root grown in the stationary conditions and under clinorotation

The results of light- and electron-microscopic investigations of root apices of Beta vulgaris 3-day-old seedlings grown in the stationary conditions and under clinorotation are presented. It was shown that ultrastructure and topography of organelles in root cap statocytes (graviperceptive cells) and in the cells of distal elongation zone clearly reflected the different direction in their growth and differentiation in space and time in dependence on specialization and functions. Cell growth and genetically determined differentiation occur similarly to control, although certain differences in ultrastructure are evident on metabolism changes.     

Gravity-controlled asymmetrical transport of auxin regulates a gravitropic response in the early growth stage of etiolated pea (Pisum sativum) epicotyls: studies using simulated microgravity conditions on a three-dimensional clinostat and using an agravitropic mutant, ageotropum

Increased expression of the auxin-inducible gene PsIAA4/5 was observed in the elongated side of epicotyls in early growth stages of etiolated pea (Pisum sativum L. cv. Alaska) seedlings grown in a horizontal or an inclined position under 1 g conditions. Under simulated microgravity conditions on a 3D clinostat, accumulation of PsIAA4/5 mRNA was found throughout epicotyls showing automorphosis. Polar auxin transport in the proximal side of epicotyls changed when the seedlings were grown in a horizontal or an inclined position under 1 g conditions, but that under clinorotation did not, regardless of the direction of seed setting. Accumulation of PsPIN1 and PsPIN2 mRNAs in epicotyls was affected by gravistimulation, but not by clinorotation. Under 1 g conditions, auxin-transport inhibitors made epicotyls of seedlings grown in a horizontal or inclined position grow toward the proximal direction to cotyledons. These inhibitors led to epicotyl bending toward the cotyledons in seedlings grown in an inclined position under clinorotation. Polar auxin transport, as well as growth direction, of epicotyls of the agravitropic mutant ageotropum did not respond to various gravistimulation. These results suggest that alteration of polar auxin transport in the proximal side of epicotyls regulates the graviresponse of pea epicotyls.     

Enhancement of extraplastidic oil synthesis in Chlamydomonas reinhardtii using a type‐2 diacylglycerol acyltransferase with a phosphorus starvation–inducible promoter

When cultivated under stress conditions, many plants and algae accumulate oil. The unicellular green microalga Chlamydomonas reinhardtii accumulates neutral lipids (triacylglycerols; TAGs) during nutrient stress conditions. Temporal changes in TAG levels in nitrogen (N)‐ and phosphorus (P)‐starved cells were examined to compare the effects of nutrient depletion on TAG accumulation in C. reinhardtii. TAG accumulation and fatty acid composition were substantially changed depending on the cultivation stage before nutrient starvation. Profiles of TAG accumulation also differed between N and P starvation. Logarithmic‐growth‐phase cells diluted into fresh medium showed substantial TAG accumulation with both N and P deprivation. N deprivation induced formation of oil droplets concomitant with the breakdown of thylakoid membranes. In contrast, P deprivation substantially induced accumulation of oil droplets in the cytosol and maintaining thylakoid membranes. As a consequence, P limitation accumulated more TAG both per cell and per culture medium under these conditions. To enhance oil accumulation under P deprivation, we constructed a P deprivation‐dependent overexpressor of a Chlamydomonas type‐2 diacylglycerol acyl‐CoA acyltransferase (DGTT4) using a sulphoquinovosyldiacylglycerol 2 (SQD2) promoter, which was up‐regulated during P starvation. The transformant strongly enhanced TAG accumulation with a slight increase in 18 : 1 content, which is a preferred substrate of DGTT4. These results demonstrated enhanced TAG accumulation using a P starvation–inducible promoter.     

Histological and semi-quantitative approaches to in vitro cellular responses of ovule,embryo and endosperm in sugar beet,Beta vulgaris L.

Summary Fertilized ovules from sugar beet, Beta vulgaris L., of different intra- and interspecific crosses have been grown under in situ and in vitro conditions and investigated by light microscopy. Selected anatomical parameters were observed and entered in a computer program for statistical treatment. After a few days in culture the cells of the inner integument epidermis develop reticulate wall thickenings and their content of tannins decrease. Likewise, the starch content in the outer integument decreases and no real seed coat is formed. The funiculus tissue increases its metabolic activity, i.e., abundant accumulation of protein and starch. Callus or callus-like proliferations develop in the nucellus and the suspensor, but only rarely in the embryo or endosperm. However, the embryo may show an irregular morphology. Very rapid metabolism of starch in the suspensor may be related to the ability of the embryo to survive the first days in culture. Generally, the cellular responses, most significant in the maternal sporophytic tissue and the suspensor rather than in the embryo and endosperm, can be explained as structural adaptations to alternative pathways of nutrient supply.     

Effect of spaceflight on isoflavonoid accumulation in etiolated soybean seedlings

In order to explore the potential impact of microgravity on flavonoid biosynthesis, we examined isoflavonoid levels in soybean (Glycine max) tissues generated under both spaceflight and clinorotation conditions. A 6-day Space Shuttle-based microgravity exposure resulted in enhanced accumulation of isoflavone glycosides (daidzin, 6"-O-malonyl-7-O-glucosyl daidzein, genistin, 6"-O-malonyl-7-O-glucosyl genistein) in hypocotyl and root tissues, but reduced levels in cotyledons (relative to 1g controls on Earth). Soybean seedlings grown on a horizontally rotating clinostat for 3, 4 and 5 days exhibited (relative to a vertical clinorotation control) an isoflavonoid accumulation pattern similar to the space-grown tissues. Elevated isoflavonoid levels attributable to the clinorotation treatment were transient, with the greatest increase observed in the three-day-treated tissues and smaller increases in the four- and five-day-treated tissues. Differences between stresses presented by spaceflight and clinorotation and the resulting biochemical adaptations are discussed, as is whether the increase in isoflavonoid concentrations were due to differential rates of development under the "gravity" treatments employed. Results suggest that spaceflight exposure does not impair isoflavonoid accumulation in developing soybean tissues and that isoflavonoids respond positively to microgravity as a biochemical strategy of adaptation.     

Fatty acid content and the functional state of pea chloroplasts under altered gravity

The results of the study of the fatty acid content and the functional state of chloroplasts isolated from leaves of pea plants grown during 7 and 14 days in the stationary conditions and under clinorotation (2 rpm) are presented. An increase in the unsaturated fatty acid content occurred after 7-day clinorotation while it insignificantly decreased after more prolonged 14-day clinorotation. A study of the functional state of chloroplasts (the rate of electron transport in photosystems II [PSII] and in photosystem I [PSI] and in the whole photosynthetic electron transport chain) showed its decrease under both terms of clinorotation in comparison with control ones. In addition, 14-day clinorotation caused more significant lowering of the electron transport rate, particularly in PSI. Changes in both the fatty acid content and the electron transport rate are discussed in relation to the activation of lipid peroxidation and the increased production of activated oxygen species in chloroplasts under clinorotation.     

An efficient protocol for stimulating cell development in protoplast culture of S<Emphasis Type="Italic">caevola</Emphasis>

Scaevola, characterised by unique fan-shaped flowers, is an Australian endemic ornamental having a great commercial potential. The breeding of Scaevola however is limited due to poor seed germination, therefore it is critical to understand the embryogenesis in Scaevola so as to facilitate its breeding improvement programs. Direct differentiation of embryo structures was first reported here in mesophyll protoplast cultures of Scaevola aemula. The isolated protoplasts initiated cell division when cultured in KM or MS medium. Higher plating efficiencies were observed in the medium containing a combination of NAA and BAP in contrast to 2,4-D and BAP. The formation of globular embryo structures was successfully achieved. This protoplast culture system can be utilized as an experimental platform for the study of embryogenic differentiation of cells. It may open new vistas to investigate the seed development at molecular and cellular levels in Scaevola and related Australian native plants that are well known for their low seed viability and germination.     

Microtubules spatial alterations in root cells of Brassica rapa under clinorotation

Organization of tubulin cytoskeleton in epidermis and cortex cells in different root growth zones in Brassica rapa L. 6-day-old seedlings under clinorotation has been investigated. It was shown that changes in cortical microtubules orientation occur only in the distal elongation zone. In control, cortical microtubule arrays oriented transversely to the root long axis. Whereas under clinorotation an appearance of shorter randomly organized cortical microtubules was observed. Simultaneously, a significant decrease in a cell length in the central elongation zone under clinorotation was revealed. It is suggested that the decline of anisotropic growth, typical for central elongation zone cells, is connected with cortical microtubules disorientation under clinorotation.     

Effects of maternal and embryo characteristics on post-fertilization provisioning in fishes of the genus <Emphasis Type="Italic">Gambusia</Emphasis>

Maternal provisioning of embryos in Gambusia (Poeciliidae) entails both production of large, yolky eggs and mother-to-embryo transfer of nutrients, the latter of which is readily quantified using injection of radiolabeled nutrients. We assayed patterns of nutrient transfer in broods of 26 Gambusia geiseri and 23 Gambusia affinis females, using injection of tritiated leucine. We examined maternal and embryo characteristics affecting the instantaneous rate of transfer and characterized the pattern of transfer to individual embryos within broods. Maternal (female size and condition) and brood characteristics (mean embryo size, developmental stage, brood size) did not predict the mean level of nutrient transfer to embryos in a brood for either species. Within broods, individual provisioning of embryos was not related to developmental stage, but was related to embryo mass in G. affinis with nutrient transfer higher to larger embryos. In addition, overall within-brood variation in nutrient transfer, measured as coefficient of variation in embryo radioactivity, was higher in G. affinis than in G. geiseri.     

Ultrastructure of statocytes and cells of distal elongation zone of Arabidopsis thaliana under clinorotation

Results of the electron-microscopic investigation of root apices of Arabidopsis thaliana 3-, 5- and 7-days-old seedlings grown in the stationary conditions and under clinorotation are presented. It was shown the similarity in the root apex cell ultrastructure in control and under clinorotation. At the same time there were some differences in the ultrastructure of statocytes and the distal elongation zone under clinorotation. For the first time the sensitivity of ER-bodies, which are derivatives of GER and contain beta-glucosidase, to the influence of simulated microgravity was demonstrated by increased quantity and area of ER-bodies at the cell section as well as by higher variability of their form under clinorotation. A degree of these changes correlated with the duration of clinorotation. On the basis of experimental data a protective role of ER-bodies in adaptation of plants to microgravity is supposed.     

Differences in the pre‐diapause and pre‐oviposition accumulation of critical nutrients in adult females of the beetle Colaphellus bowringi

In many insect species, the differentiation of development between diapause and reproduction first becomes obvious during the diapause preparation (pre‐diapause) and pre‐oviposition phases. However, the differentiation of nutrient accumulation between these two phases remains unclear. We compared the weights of pre‐diapause and reproductive adult female Colaphellus bowringi Baly (Coleoptera: Chrysomelidae), and measured their triacylglycerol (TAG), protein, and carbohydrate content from emergence until they had fed for 4 days post‐eclosion. We also compared the ovarian development and accumulation of lipid droplets between pre‐diapause and reproductive adult females in order to determine whether we could visually detect differences in nutrient allocation. The weights of both pre‐diapause and reproductive females increased with duration of feeding. The fresh weight and water content of pre‐diapause females was significantly lower than that of reproductive females after feeding for 3 days post‐eclosion. Pre‐diapause females channeled their reserves into TAG in the fat body, whereas reproductive females converted nutrients into proteins and carbohydrates for egg development. These results quantify differences in nutrient accumulation between pre‐diapause and reproductive adult female C. bowringi, and provide clues for understanding the molecular mechanisms underlying differences in the allocation of nutrients between diapause and reproduction in insects.