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The essentials of direct xylem pressure measurement (2001)

Wei, C. ; Steudle, E. ; Tyree, M. T. ; [et al.]

Wiley

In: Plant, Cell and Environment. 2001; 24(5): 549-555. Published 2001 May 01. doi: 10.1046/j.1365-3040.2001.00697.x.

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Publication Date: 2001-05-01

Print ISSN: 0140-7791

Electronic ISSN: 1365-3040

Topics: Biology

Published by Wiley

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Mechanical signals in plant development: a new method for single cell studies (1997)

Lintilhac, P. M. ; Lynch, T. M.

In: Other Sources

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Publication Date: 2011-08-24

Description: Cell division, which is critical to plant development and morphology, requires the orchestration of hundreds of intracellular processes. In the end, however, cells must make critical decisions, based on a discrete set of mechanical signals such as stress, strain, and shear, to divide in such a way that they will survive the mechanical loads generated by turgor pressure and cell enlargement within the growing tissues. Here we report on a method whereby tobacco protoplasts swirled into a 1.5% agarose entrapment medium will survive and divide. The application of a controlled mechanical load to agarose blocks containing protoplasts orients the primary division plane of the embedded cells. Photoelastic analysis of the agarose entrapment medium can identify the lines of principal stress within the agarose, confirming the hypothesis that cells divide either parallel or perpendicular to the principal stress tensors. The coincidence between the orientation of the new division wall and the orientation of the principal stress tensors suggests that the perception of mechanical stress is a characteristic of individual plant cells. The ability of a cell to determine a shear-free orientation for a new partition wall may be related to the applied load through the deformation of the matrix material. In an isotropic matrix a uniaxial load will produce a rotationally symmetric strain field, which will define a shear-free plane. Where high stress intensities combine with the loading geometry to produce multiaxial loads there will be no axis of rotational symmetry and hence no shear free plane. This suggests that two mechanisms may be orienting the division plane, one a mechanism that works in rotationally symmetrical fields, yielding divisions perpendicular to the compressive tensor, parallel to the long axis of the cell, and one in asymmetric fields, yielding divisions parallel to the short axis of the cell and the compressive tensor.

Keywords: Life Sciences (General)

Type: Developmental biology (ISSN 0012-1606); Volume 181; 2; 246-56

Format: text

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Thinking of biology: toward a theory of cellularity--speculations on the nature of the living cell (1999)

Lintilhac, P. M.

In: Other Sources

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Publication Date: 2011-08-24

Description: No abstract available

Keywords: Life Sciences (General)

Type: Bioscience (ISSN 0006-3568); Volume 49; 1; 59-68

Format: text

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Root elongation against a constant force: experiment with a computerized feedback-controlled device (2001)

Kuzeja, P. S. ; Wei, C. ; Lintilhac, P. M.

In: Other Sources

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Publication Date: 2011-08-24

Description: Axial force was applied to the root tip of corn (Zea mays L. cv. Merit) seedlings using a computerized, feedback-controlled mechanical device. The system's feedback capability allowed continuous control of a constant tip load, and the attached displacement transducer provided the time course of root elongation. Loads up to 7.5 g decreased the root elongation rate by 0.13 mm h-1 g-1, but loads 7.5 to 17.5 g decreased the growth rate by only 0.04 mm h-1 g-1. Loads higher than 18 g stopped root elongation completely. Measurement of the cross-sectional areas of the root tips indicated that the 18 g load had applied about 0.98 MPa of axial pressure to the root, thereby exceeding the root's ability to respond with increased turgor pressure. Recorded time-lapse images of loaded roots showed that radial thickening (swelling) occurred behind the root cap, whose cross-sectional area increased with tip load.

Keywords: Life Sciences (General)

Type: Journal of plant physiology (ISSN 0176-1617); Volume 158; 5; 673-6

Format: text

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Mechanotransduction molecules in the plant gravisensory response: amyloplast/statolith membranes contain a beta 1 integrin-like protein (1998)

Lintilhac, P. M. ; Domozych, D. ; Lynch, T. M.

In: Other Sources

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Publication Date: 2019-08-16

Description: It has been hypothesized that the sedimentation of amyloplasts within root cap cells is the primary event in the plant gravisensory-signal transduction cascade. Statolith sedimentation, with its ability to generate weighty mechanical signals, is a legitimate means for organisms to discriminate the direction of the gravity vector. However, it has been demonstrated that starchless mutants with reduced statolith densities maintain some ability to sense gravity, calling into question the statolith sedimentation hypothesis. Here we report on the presence of a beta 1 integrin-like protein localized inside amyloplasts of tobacco NT-1 suspension culture, callus cells, and whole-root caps. Two different antibodies to the beta 1 integrin, one to the cytoplasmic domain and one to the extracellular domain, localize in the vicinity of the starch grains within amyloplasts of NT-1. Biochemical data reveals a 110-kDa protein immunoprecipitated from membrane fractions of NT-1 suspension culture indicating size homology to known beta 1 integrin in animals. This study provides the first direct evidence for the possibility of integrin-mediated signal transduction in the perception of gravity by higher plants. An integrin-mediated pathway, initiated by starch grain sedimentation within the amyloplast, may provide the signal amplification necessary to explain the gravitropic response in starch-depleted cultivars.

Keywords: Life Sciences (General)

Type: Protoplasma (ISSN 0033-183X); 201; 2-Jan; 92-100

Format: text

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Ball tonometry: a rapid, nondestructive method for measuring cell turgor pressure in thin-walled plant cells (2000)

Wei, C. ; Tanguay, J. J. ; Lintilhac, P. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-15

Description: In this article we describe a new method for the determination of turgor pressures in living plant cells. Based on the treatment of growing plant cells as thin-walled pressure vessels, we find that pressures can be accurately determined by observing and measuring the area of the contact patch formed when a spherical glass probe is lowered onto the cell surface with a known force. Within the limits we have described, we can show that the load (determined by precalibration of the device) divided by the projected area of the contact patch (determined by video microscopy) provides a direct, rapid, and accurate measure of the internal turgor pressure of the cell. We demonstrate, by parallel measurements with the pressure probe, that our method yields pressure data that are consistent with those from the pressure probe. Also, by incubating target tissues in stepped concentrations of mannitol to incrementally reduce the turgor pressure, we show that the pressures measured by tonometry accurately reflect the predicted changes from the osmotic potential of the bathing medium. The advantages of this new method over the pressure probe are considerable, however, in that we can move rapidly from cell to cell, taking measurements every 20 s. In addition, the nondestructive nature of the method means that we can return to the same cell repeatedly for periodic pressure measurements. The limitations of the method lie in the fact that it is suitable only for superficial cells that are directly accessible to the probe and to cells that are relatively thin walled and not heavily decorated with surface features. It is also not suitable for measuring pressures in flaccid cells.

Keywords: Life Sciences (General)

Type: Journal of plant growth regulation (ISSN 0721-7595); 19; 1; 90-7

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7

Electronic Resource

The essentials of direct xylem pressure measurement (2001)

Wei, C. ; Steudle, E. ; Tyree, M. T. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Plant, cell & environment 24 (2001), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: This paper discusses the essentials of the oil-filled pressure probe technique in the measurement of negative xylem pressures, focusing in particular on the technique and physics underlying our recent, successful experiment which has rekindled the debate on the validity of the Cohesion–Tension theory. We illustrate a number of general problems associated with the cell pressure probe and xylem pressure probe techniques, and propose appropriate criteria for micropipette construction. We enumerate factors dealing with the cavitation problem and suggest methods for eliminating air seeds in the system. We introduce reliable criteria for the successful measurement of xylem pressure, and emphasize the importance of the probe pressure relaxation test. Several problems regarding the controversy over the Cohesion–Tension theory are also discussed. We discuss the correlation between xylem pressure and the transpiration rate, the existence of absolute negative xylem pressure in intact plants, the most negative values of xylem pressure measured by the pressure probe, the agreement between the pressure probe and pressure bomb techniques, and the vulnerability to cavitation (tensile strength) of pressure probes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-3040.2001.00697.x

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