The Study of the Hydraulic Conductivity of the Plasmodesmal Transport Channels by the Pulse NMR Method

Radial self-diffusion of water in the absorbing zone of the roots of winter wheat (Triticum aestivumL.) seedlings was studied by the pulse-gradient-spin-echo NMR method. At the fixed time of diffusion observation, the diffusion decay of proton spin-echo was nonexponential; however, it could be reliably separated into three exponential components differing in the self-diffusion coefficients (SDC) of water molecules. Our experimental data corroborate the modern concept of two transport channels in plant plasmodesmata, which connect cytoplasmic and vacuolar (endoplasmic) compartments of adjacent cells into the unified supracellular continuums. Two SDC obtained by the kinetic analysis of diffusion decay were shown to depend on the expected changes in the hydraulic conductivity of the two above-mentioned plasmodesmal channels. To elucidate the role of ATP-dependent actomyosin proteins in the regulation of the hydraulic conductivity of plasmodesmata, we followed the changes in the water SDC induced by treating the roots with cytochalasin B (5 M, 30 min), the inhibitor of actin polymerization; 2,3-butanedione monoxime (10 mM, 1 h), the inhibitor of myosin ATPase activity; and antimycin A (5 M, 1 h) and sodium azide (10 mM, 30 min), the inhibitors of energy generation. The data thus obtained provided the basis for elaborating a new methodological approach to simultaneously monitoring the functional state of both plasmodesmal channels without any wound effect impairing their functions.     

Diffusional attenuation of proton echo and control of changes in the cytoskeleton hydration level

Using the pulsed NMR-method with pulse gradient of the magnetic field, a study was made of changes in diffusional attenuation (DA) of proton echo in germs of triticum grains under the influence of agents depolymerizing cytoskeleton elements or inhibiting their ATP-activity. At a short diffusion time, we observed respective alterations of NMR-population in a fraction of cell water molecules contributing to DA at large values of pulse gradient. It is shown that the presence in DA of a site with essentially smaller coefficient of self-diffusion, as compared with basic cell water fraction, is not a consequence of restricted diffusion phenomenon. The observed changes in NMR-population of the appropriate fraction of cell water molecules are interpreted as changes in the level of cytoskeleton hydratation occurring under the influence of the used agents. A hypothesis is proposed for the functional role of similar changes in the level of hydratation of cytoskeleton elements located inside plamodesmata in the mechanism of plasmodesmatal water permeability regulation.     

Influence of inhibitors of cytoskeleton proteins on water exchange of wheat roots under the after-action of water stress

The dynamics of water molecular state and transport in winter wheat (Triticum aestivum L.) of roots different resistance cultivars was studied by a biophysical method, Nuclear Magnetic Resonance (NMR), and a physiological method, Water-Holding Capacity (WHC). The effective coefficient of water self-diffusion (D(eff)), spin-spin relaxation times (T(2)) and WHC were measured after structural modification of cytoskeleton by colchicine and cytochalasin B after the action of water stress. New information about molecular mechanisms of water state and water transport regulation determined by the influence of dynamic cytoskeleton structure has been obtained. This is very important for the development of a fundamental theory of water exchange in plants, and for the ways of its optimization under conditions of environmental stress.     

Vacuolar symplast formation is due to highly permeable gap junctions between the tonoplast and endoplasmic reticulum membrane

An NMR method with a pulsed magnetic field gradient was applied to study changes in water permeability of the vacuolar symplast in maize (Zea mays L.) seedling roots treated with various inhibitors of cell metabolism. The results were qualitatively analogous to literature data on conductivity changes of intercellular gap junctions in animal cells exposed to similar treatments. Electron microscopy examination of root cells provided evidence for the existence of membrane contacts between the endoplasmic reticulum and the tonoplast. It is supposed that vacuoles of neighboring plant cells are interconnected through highly dynamical gap junctions between the tonoplast and the endoplasmic reticulum membrane.     

Vacuolar Symplast as a Regulated Pathway for Water Flows in Plants

Indirect immunofluorescent microscopy and a tonoplast-specific marker enzyme were used to demonstrate the occurrence of pyrophosphatase within the plasmodesmata in the elongation zone of maize root segments. The pulsed field gradient NMR method (PFG NMR) was applied to study restricted self-diffusion of water molecules in the root segments under normal conditions and after the inhibition of respiration with sodium azide (10 mM NaN₃, 30 min). The results led to the conclusion that vacuoles in the root segments examined are interconnected into a unified intercellular continuum and that intervacuolar connections are formed by desmotubules within the plasmodesmata. The water permeability of the vacuolar symplast appears to be controlled by an ATP-dependent process. The experimental data can provide a methodological approach to studying water permeability of the vacuolar symplast with the PFG NMR technique.__________Translated from Fiziologiya Rastenii, Vol. 52, No. 3, 2005, pp. 372–377.Original Russian Text Copyright © 2005 by Velikanov, Volobueva, Belova, Gaponenko.     

Expression of the Kidney Bean Phenylalanine-Ammonia Lyase Gene in the Hairy Roots of Astragalus sinicus

Using Agrobacterium rhizogenes, Astragalus sinicus plants were transformed with the kidney bean pal5 gene coding for phenylalanine-ammonia lyase (PAL). The hairy root culture thus obtained manifested enhanced PAL activity and lignin content in the cell walls; in addition, the transformed cells differed from the wild-type ones in several electrophysiological indices. In particular, the diffusion component of the total membrane potential of plasmalemma increased in the pal-transformed roots. The authors presume that the volume density of the protein-related negative charge of the cytoplasm increases in the transformed root cells along with changes in the cytoplasmic pH and pCa²⁺, the extent of coupling of these two indices, and the hydraulic conductivity of plasmodesmata.     

Stromule-like protrusions of plastid membrane envelope in root cells

The work presents the results of the electron-microscopy visualization of stromule-like protrusions of plastid membrane envelope in root cells. Cases of the appearance of a long, narrow protrusion of the outer membrane, in which the shorter protrusion of the plastid envelope inner membrane was located, are discussed. The possible role of cytoskeleton and plastoskeleton in formation of outer and inner protrusions, respectively, is considered. It is concluded that items of the structure and functions of stromules in plant cells are to be considered to be the same as the structure and functions of the intracavity space of endoplasmic reticulum.     

The Last Frontier: Catch Records of White Sharks (Carcharodon carcharias) in the Northwest Pacific Ocean

White sharks are highly migratory apex predators, globally distributed in temperate, sub-tropical, and tropical waters. Knowledge of white shark biology and ecology has increased recently based on research at known aggregation sites in the Indian, Atlantic, and Northeast Pacific Oceans; however, few data are available for the Northwest Pacific Ocean. This study provides a meta-analysis of 240 observations of white sharks from the Northwest Pacific Ocean between 1951 and 2012. Records comprise reports of bycatch in commercial fisheries, media accounts, personal communications, and documentation of shark-human interactions from Russia (n = 8), Republic of Korea (22), Japan (129), China (32), Taiwan (45), Philippines (1) and Vietnam (3). Observations occurred in all months, excluding October-January in the north (Russia and Republic of Korea) and July-August in the south (China, Taiwan, Philippines, and Vietnam). Population trend analysis indicated that the relative abundance of white sharks in the region has remained relatively stable, but parameterization of a 75% increase in observer effort found evidence of a minor decline since 2002. Reliably measured sharks ranged from 126–602 cm total length (TL) and 16–2530 kg total weight. The largest shark in this study (602 cm TL) represents the largest measured shark on record worldwide. For all countries combined the sex ratio was non-significantly biased towards females (1∶1.1; n = 113). Of 60 females examined, 11 were confirmed pregnant ranging from the beginning stages of pregnancy (egg cases) to near term (140 cm TL embryos). On average, 6.0±2.2 embryos were found per litter (maximum of 10) and gestation period was estimated to be 20 months. These observations confirm that white sharks are present in the Northwest Pacific Ocean year-round. While acknowledging the difficulties of studying little known populations of a naturally low abundance species, these results highlight the need for dedicated research to inform regional conservation and management planning.     

Regulation of Intercellular Water Exchange in Various Zones of Maize Root under Stresses

Apical root meristems and segments of root elongation zone were sampled from 4- to 5-day-old Zea mays L. seedlings. The vacuolar ATPase and pyrophosphatase, the tonoplast marker enzymes, and the tonoplast -, -, and -aquaporins were visualized by means of indirect immunofluorescent microscopy with the use of the respective antibodies. Following cell plasmolysis (700 mM mannitol, 2.5 h), the vacuolar ATPase and pyrophosphatase were detected in cell wall pores where plasmodesmata remained detached from the plasmolyzed protoplasts. This finding provides further evidence for existence of the vacuolar symplast in the elongation zone of maize root, which may ensure intercellular continuity of plant tissues. The pulsed NMR method was used to study the self-diffusion of water molecules. The diffusive decay in the root elongation zone was nonexponential, and it was transformed to three exponential terms with characteristic coefficients of self-diffusion; two of these coefficients (D ₂ and D ₃) characterize the water self-diffusion in the cytoplasmic and vacuolar symplasts of root, respectively. The root apical meristem was also investigated with NMR technique by virtue of paramagnetic doping of the apoplast. This approach allowed selective studying of water diffusion within the symplast compartments. Partial dehydration with PEG-6000, 12 and 20%, for 2.5 h and chemical stressors (ABA and salicylic acid, 0.1 mM, 24 h) were applied to modify water permeability of plasmodesmata and tonoplast aquaporins. The transcellular water permeability increased in the root meristem under the action of all stress factors. In the root elongation zone exposed to partial dehydration, the water exchange in the apoplast became the dominant component. Other stress factors affected water relations in different manners. ABA elevated the water permeability of the vacuolar symplast, in contrast to salicylic acid that decreased water conductance of both the cytoplasmic and vacuolar symplasts.