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Anther and tissue culture-induced grain chalkiness and associated variants in rice (1986)

Schaeffer, Gideon W. ; Sharpe, F. T. ; Carnahan, H. L. ; [et al.]

Springer

Plant cell, tissue and organ culture 6 (1986), S. 149-157

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ISSN: 1573-5044

Keywords: rice ; protein ; tissue culture ; in vitro ; opaque ; endosperm ; chalkiness

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Rice, Oryza sativa, plants regenerated from anther culture with and without in vitro selection pressure were evaluated for chalky seed. Progeny evaluated included 21 spontaneously doubled haploids selfed 4 times, progeny from plants regenerated from S-aminoethylcysteine resistant callus selfed 4 times and backcrosses of both types to the parental type. All lines with in vitro histories had higher seed chalkiness than the controls both in the intensity of chalkiness and in the number of seeds expressing the character. The full range of intensity and amount of chalkiness was expressed in the progeny. The average intensity of anther/tissue culture-derived progeny was 4–5, based on a scale of 1 (translucent) to 10 (fully opaque), and the average amount of chalkiness within plants sampled was 50–75 percent. The chalky characteristic is transmitted from parent to offspring into a range of identifiable F2 segregants.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00180798

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Paper (German National Licenses)

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Producibility of fibrous refractory composite insulation, FRCI 40-20 (1983)

Campbell, R. L. ; Graese, R. W. ; Johnson, C. W. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Fibrous Refractory Composite Insulation (FRCI) is a NASA-developed, second generation, reusable heat-shield material that comprises a mixture of aluminoborosilicate fibers, silica fibers, and silicon carbide. Under NASA contract, a program was conducted to demonstrate the capability for manufacturing FRCI 40-20 billets. A detailed fabrication procedure was written and validated by testing specimens from the first two billets. The material conformed to NASA requirements for density, tensile strength, modulus of rupture, thermal expansion, cristobalite content, and uniformity. Twenty-four billets were prepared to provide 20 deliverable articles. Production billets were checked for density, modulus of rupture, cristobalite content, and uniformity. Billet density ranged from 309.48 to 332.22 kg/cu m (19.32 to 20.74 lb/cu ft) and modulus of rupture from 4690 to 10,140 kPa (680 to 1470 psi). Cristobalite content was less than 1 percent. A Weibull analysis of modulus-of-rupture data indicated a 1.5 percent probability for failure below the specified strength of 4480 kPa (650 psi).

Keywords: COMPOSITE MATERIALS

Type: Ceramic Engineering and Science Proceedings (ISSN 0196-6219); 4; 611-623

Format: text

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NASA TECHNICAL REPORTS

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