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Cell-wall synthesis in Chlamydomonas reinhardtii: an immunological study on the wild type and wall-less mutants cw2 and cw15 (1990)

Zhang, Yu-Hua ; Robinson, David G.

Springer

Planta 180 (1990), S. 229-236

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ISSN: 1432-2048

Keywords: Cell wall (glycoprotein) ; Chlamydomonas ; Endoplasmic reticulum ; Glycoprotein ; Golgi apparatus ; Mutant (Chlamydomonas, wall-less) ; Protein glycosylation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Cells of Chlamydomonas reinhardtii Dang. wild type and the cell-wall mutants cw2 and cw15 were grown synchronously. The two mutants secreted copious amounts of cell-wall-like glycoproteins into the culture medium in contrast to the wild type which released only minor quantities. Both the secreted proteins as well as those present in the lumen of the endoplasmic reticulum (ER) and Golgi apparatus (GA) were tested for crossreactivity against a number of monoclonal antibodies (MACs) prepared against the 2BII glycoprotein cell-wall complex of the wild type (E. Smith et al., 1984, Planta 161, 330–338). Of the four monoclonals applied, one, (MAC 6), did not react in either dot blot or Western blots with any of the luminal and medium proteins. By dot blotting, MAC 2 recognized polypeptides only in the wild-type medium. Neither MAC 2 nor MAC 6 were capable of recognizing polypeptides separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. However, MAC 2 recognized one of the 2BII polypeptides (135 kDa) as well as a large number of other polypeptides in wild-type and mutant media. The 135-kDa polypeptide was also detected in the luminal extracts of ER and GA membranes from the wild type and cw2 mutant. It was also present in the GA fraction of the cw15 mutant. If, as previously claimed, these monoclonal antibodies are indeed directed against the carbohydrate portion of the 2BII complex, our results would indicate that protein O-glycosylation is not restricted to the GA but may start in the ER. They also confirm inferences made by others that the cell-wall mutants cw2 and cw15 possess the capacity to synthesize and secrete the major glycoproteins of the cell wall, but, due to the lack of the W2 wall layer, are unable to assemble these components into a coherent, crystalline wall.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00194001

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Paper (German National Licenses)

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Electronic Resource

Cell wall regeneration by protoplasts of Chlamydomonas (1978)

Robinson, David G. ; Schlösser, Uwe G.

Springer

Planta 141 (1978), S. 83-92

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ISSN: 1432-2048

Keywords: Cell wall regeneration ; Chlamydomonas ; Protoplasts

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Protoplasts from Chlamydomonas smithii prepared by the action of C. reinhardii gamete autolysine have been studied with respect to cell wall regeneration. “Natural” protoplasts within sporangia were also investigated for purposes of comparison. In both cases a new cell wall is completed within 2–3 h of the onset of regeneration. The first visible stages of wall regeneration are to be seen after 40–60 min as a fine fringe outside of the plasmalemma. The development of the typical “central triplet” follows within the next 1 h. Cell wall regeneration is reversibly inhibited by cycloheximide (10μg ml-1) and reversibly disturbed by concanavalin A (50 μg ml-1). Actinomycin D at concentration over 100μg ml-1 also inhibit but the inhibition is irreversible and peculiar membrane effects are observed. Chelators (ethylenediamine tetraacetic acid; ethyleneglycol-bis-aminoethyl ether) and 2-deoxyglucose slightly retard or have no effect on cell wall regeneration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00387749

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Method of Bonding Optical Elements with Near-Zero Displacement (2012)

McClelland, Ryan ; Evans, Tyler ; Robinson, David ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: The International X-ray Project seeks to build an x-ray telescope using thousands of pieces of thin and flexible glass mirror segments. Each mirror segment must be bonded into a housing in nearly perfect optical alignment without distortion. Forces greater than 0.001 Newton, or displacements greater than 0.5 m of the glass, cause unacceptable optical distortion. All known epoxies shrink as they cure. Even the epoxies with the least amount of shrinkage (〈0.01%) cause unacceptable optical distortion and misalignment by pulling the mirror segments towards the housing as it cures. A related problem is that the shrinkage is not consistent or predictable so that it cannot be accounted for in the setup (i.e., if all of the bonds shrunk an equal amount, there would be no problem). A method has been developed that allows two components to be joined with epoxy in such a way that reduces the displacement caused by epoxy shrinking as it cures to less than 200 nm. The method involves using ultraviolet-cured epoxy with a displacement sensor and a nanoactuator in a control loop. The epoxy is cured by short-duration exposures to UV light. In between each exposure, the nano-actuator zeroes out the displacement caused by epoxy shrinkage and thermal expansion. After a few exposures, the epoxy has cured sufficiently to prevent further displacement of the two components. Bonding of optical elements has been done for many years, but most optics are thick and rigid elements that resist micro-Newton-level forces without causing distortion. When bonding thin glass optics such as the 0.40-mm thick IXO X-ray mirrors, forces in the micro- and milli-Newton levels cause unacceptable optical figure error. This innovation can now repeatedly and reliably bond a thin glass mirror to a metal housing with less than 0.2 m of displacement (〈200 nm). This is an enabling technology that allows the installation of virtually stress-free, undistorted thin optics onto structures. This innovation is applicable to the bonding of thin optical elements, or any thin/flexible structures, that must be attached in an undistorted, consistent, and aligned way.

Keywords: Man/System Technology and Life Support

Type: GSC-16110-1 , NASA Tech Briefs, May 2012; 20-21

Format: application/pdf

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Composite Laminate With Coefficient of Thermal Expansion Matching D263 Glass (2012)

Robinson, David ; Rodini, Benjamin

In: CASI

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Publication Date: 2019-07-12

Description: The International X-ray Observatory project seeks to make an X-ray telescope assembly with 14,000 flexible glass segments. The glass used is commercially available SCHOTT D263 glass. Thermal expansion causes the mirror to distort out of alignment. A housing material is needed that has a matching coefficient of thermal expansion (CTE) so that when temperatures change in the X-ray mirror assembly, the glass and housing pieces expand equally, thus reducing or eliminating distortion. Desirable characteristics of this material include a high stiffness/weight ratio, and low density. Some metal alloys show promise in matching the CTE of D263 glass, but their density is high compared to aluminum, and their stiffness/weight ratio is not favorable. A laminate made from carbon fiber reinforced plastic (CFRP) should provide more favorable characteristics, but there has not been any made with the CTE matching D263 Glass. It is common to create CFRP laminates of various CTEs by stacking layers of prepreg material at various angles. However, the CTE of D263 glass is 6.3 ppm/ C at 20 C, which is quite high, and actually unachievable solely with carbon fiber and resin. A composite laminate has been developed that has a coefficient of thermal expansion identical to that of SCHOTT D263 glass. The laminate is made of a combination of T300 carbon fiber, Eglass, and RS3C resin. The laminate has 50% uni-T300 plies and 50% uni-E-glass plies, with each fiber-layer type laid up in a quasi-isotropic laminate for a total of 16 plies. The fiber volume (percent of fiber compared to the resin) controls the CTE to a great extent. Tests have confirmed that a fiber volume around 48% gives a CTE of 6.3 ppm/ C. This is a fairly simple composite laminate, following well established industry procedures. The unique feature of this laminate is a somewhat unusual combination of carbon fiber with E-glass (fiberglass). The advantage is that the resulting CTE comes out to 6.3 ppm/ C at 20 C, which matches D263 glass. The trick with this laminate is to establish the proper fiber volume to get the desired CTE. Laminates were made with several different fiber volumes and coupons were tested to establish the relationship between fiber volume and CTE. Testing proved that fiber volume should be about 48%.

Keywords: Man/System Technology and Life Support

Type: GSC-16261-1 , NASA Tech Briefs, July 2012; 16

Format: application/pdf

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