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61.
62.
We investigated the hypothesis that stomatal aperture is regulated by epidermal water status. Detached epidermal peels of Commelina communis L. or leaf disks with epidermis attached were incubated in graded solutions of mannitol (0–1.2 M) containing KCl. In isolated epidermis, guard-cell solute content of open stomata did not decrease in response to desiccation. Guard cells of closed stomata accumulated solutes to the same extent in all levels of mannitol tested. There was no evidence of stress-induced hydroactive closure nor of inhibition of hydroactive opening, even when guard cells of closed stomata were initially plasmolyzed. Hydropassive, osmometer-like, changes in stomatal aperture in the isolated epidermis were induced by addition or removal of mannitol, but these did not involve changes in guard-cell solute content. In leaf disks, stomata exhibited clear hydroactive stomatal responses. Steady-state guard-cell solute content of initially open and initially closed stomata decreased substantially with increasing mannitol. Stomata were completely closed above approx. 0.4 M mannitol, near the turgor-loss point for the bulk leaf tissue. Stomata of Commelina did not exhibit direct hydroactive responses to environmental or epidermal water status. Stomatal responses to water deficit and low humidity may be indirect, mediated by abscisic acid or other signal metabolite(s) from the mesophyll.Abbreviations ABA
abscisic acid
- EGTA
ethyleneglycol-bis-(-aminoethyl ether)-N,N,N,N-tetraacetic acid
- Mes
2-(N-morpholino)ethanesulfonic acid 相似文献
63.
64.
Peter H. van der Schaft Nico ter Burg Steven van den Bosch Amnon M. Cohen 《Applied microbiology and biotechnology》1992,36(6):709-711
Summary Natural 2-heptanone is a key component of various dairy flavours. The production of this compound from octanoic acid by Fusarium poae is described in this paper. The yield of the fermentation can be considerably increased by stripping the product from the outlet gas by adsorption on an Amberlite XAD-4 column.Offprint requests to: P. H. van der Schaft 相似文献
65.
Tomer Stern Rona Aviram Chagai Rot Tal Galili Amnon Sharir Noga Kalish Achrai Yosi Keller Ron Shahar Elazar Zelzer 《PLoS biology》2015,13(8)
One of the major challenges that developing organs face is scaling, that is, the adjustment of physical proportions during the massive increase in size. Although organ scaling is fundamental for development and function, little is known about the mechanisms that regulate it. Bone superstructures are projections that typically serve for tendon and ligament insertion or articulation and, therefore, their position along the bone is crucial for musculoskeletal functionality. As bones are rigid structures that elongate only from their ends, it is unclear how superstructure positions are regulated during growth to end up in the right locations. Here, we document the process of longitudinal scaling in developing mouse long bones and uncover the mechanism that regulates it. To that end, we performed a computational analysis of hundreds of three-dimensional micro-CT images, using a newly developed method for recovering the morphogenetic sequence of developing bones. Strikingly, analysis revealed that the relative position of all superstructures along the bone is highly preserved during more than a 5-fold increase in length, indicating isometric scaling. It has been suggested that during development, bone superstructures are continuously reconstructed and relocated along the shaft, a process known as drift. Surprisingly, our results showed that most superstructures did not drift at all. Instead, we identified a novel mechanism for bone scaling, whereby each bone exhibits a specific and unique balance between proximal and distal growth rates, which accurately maintains the relative position of its superstructures. Moreover, we show mathematically that this mechanism minimizes the cumulative drift of all superstructures, thereby optimizing the scaling process. Our study reveals a general mechanism for the scaling of developing bones. More broadly, these findings suggest an evolutionary mechanism that facilitates variability in bone morphology by controlling the activity of individual epiphyseal plates. 相似文献
66.
Roscioli E Di Francesco L Bolognesi A Giubettini M Orlando S Harel A Schininà ME Lavia P 《The Journal of cell biology》2012,196(4):435-450
Importin-β is the main vector for interphase nuclear protein import and plays roles after nuclear envelope breakdown. Here we show that importin-β regulates multiple aspects of mitosis via distinct domains that interact with different classes of proteins in human cells. The C-terminal region (which binds importin-α) inhibits mitotic spindle pole formation. The central region (harboring nucleoporin-binding sites) regulates microtubule dynamic functions and interaction with kinetochores. Importin-β interacts through this region with NUP358/RANBP2, which in turn binds SUMO-conjugated RANGAP1 in nuclear pores. We show that this interaction continues after nuclear pore disassembly. Overexpression of importin-β, or of the nucleoporin-binding region, inhibited RANGAP1 recruitment to mitotic kinetochores, an event that is known to require microtubule attachment and the exportin CRM1. Co-expressing either importin-β-interacting RANBP2 fragments, or CRM1, restored RANGAP1 to kinetochores and rescued importin-β-dependent mitotic dynamic defects. These results reveal previously unrecognized importin-β functions at kinetochores exerted via RANBP2 and opposed by CRM1. 相似文献
67.
Field emission scanning electron microscopy (FESEM) can provide high-resolution three-dimensional surface imaging of many biological structures, including nuclear envelopes and nuclear pore complexes (NPCs). For this purpose, it is important to preserve NPCs as close as possible to their native morphology, embedded in undamaged nuclear membranes. We present optimized methodologies for FESEM imaging in a cell-free reconstitution system and for the direct visualization of mammalian cell nuclei. The use of anchored chromatin templates in the cell-free system is particularly advantageous for imaging fragile intermediates inhibited at early stages of assembly. Our new method for exposing the surface of mammalian nuclei results in an unprecedented quality of NPC images, avoiding detergent-induced and physical damage. These new methodologies pave the way for the combined use of FESEM imaging with biochemical and genetic manipulation, in cell-free systems and in mammalian cells. 相似文献
68.
Release of apical dominance in potato tuber is accompanied by programmed cell death in the apical bud meristem 总被引:1,自引:0,他引:1
Teper-Bamnolker P Buskila Y Lopesco Y Ben-Dor S Saad I Holdengreber V Belausov E Zemach H Ori N Lers A Eshel D 《Plant physiology》2012,158(4):2053-2067
Potato (Solanum tuberosum) tuber, a swollen underground stem, is used as a model system for the study of dormancy release and sprouting. Natural dormancy release, at room temperature, is initiated by tuber apical bud meristem (TAB-meristem) sprouting characterized by apical dominance (AD). Dormancy is shortened by treatments such as bromoethane (BE), which mimics the phenotype of dormancy release in cold storage by inducing early sprouting of several buds simultaneously. We studied the mechanisms governing TAB-meristem dominance release. TAB-meristem decapitation resulted in the development of increasing numbers of axillary buds with time in storage, suggesting the need for autonomous dormancy release of each bud prior to control by the apical bud. Hallmarks of programmed cell death (PCD) were identified in the TAB-meristems during normal growth, and these were more extensive when AD was lost following either extended cold storage or BE treatment. Hallmarks included DNA fragmentation, induced gene expression of vacuolar processing enzyme1 (VPE1), and elevated VPE activity. VPE1 protein was semipurified from BE-treated apical buds, and its endogenous activity was fully inhibited by a cysteinyl aspartate-specific protease-1-specific inhibitor N-Acetyl-Tyr-Val-Ala-Asp-CHO (Ac-YVAD-CHO). Transmission electron microscopy further revealed PCD-related structural alterations in the TAB-meristem of BE-treated tubers: a knob-like body in the vacuole, development of cytoplasmic vesicles, and budding-like nuclear segmentations. Treatment of tubers with BE and then VPE inhibitor induced faster growth and recovered AD in detached and nondetached apical buds, respectively. We hypothesize that PCD occurrence is associated with the weakening of tuber AD, allowing early sprouting of mature lateral buds. 相似文献
69.
Molecular control mechanisms for abiotic stress tolerance are based on the activation and regulation of specific stress-related
genes. The phytohormone abscisic acid (ABA) is a key endogenous messenger in a plant’s response to such stresses. A novel
ABA binding mechanism which plays a key role in plant cell signaling cascades has recently been uncovered. In the absence
of ABA, a type 2C protein phosphatase (PP2C) interacts and inhibits the kinase SnRK2. Binding of ABA to the PYR/PYLs receptors
enables interaction between the ABA receptor and the PP2C protein, and abrogates the SnRK2 inactivation. The active SnRK2
is then free to activate the ABA-responsive element Binding Factors which target ABA-dependent gene expression. We used the
grape as a model to study the ABA perception mechanism in fruit trees. The grape ABA signaling cascade consists of at least
seven ABA receptors and six PP2Cs. We used a yeast two-hybrid system to examine physical interaction in vitro between the
grape ABA receptors and their interacting partners, and found that twenty-two receptor-PP2C interactions can occur. Moreover,
quantifying these affinities by the use of the LacZ reporter enables us to show that VvPP2C4 and VvPP2C9 are the major binding partners of the ABA receptor. We also tested in vivo the root and leaf gene expression of the various
ABA receptors and PP2Cs in the presence of exogenic ABA and under different abiotic stresses such as high salt concentration,
cold and drought, and found that many of these genes are regulated by such abiotic environmental factors. Our results indicate
organ specificity in the ABA receptor genes and stress specificity in the VvPP2Cs. We suggest that VvPP2C4 is the major PP2C involved in ABA perception in leaves and roots, and VvRCAR6 and VvRCAR5 respectively, are the major receptors involved in ABA perception in these organs. Identification, characterization and manipulation
of the central players in the ABA signaling cascades in fruit trees is likely to prove essential for improving their performance
in the future. 相似文献
70.