F. B. Johnston scite author profile

To provide a basis for relating biochemical findings on isolated cell fractions to cytological structure in situ, embryos of pea and wheat were fixed with osmic acid, sectioned, and observed in phase-contrast and electron microscopes. The nuclei of all cells were similar, showing nuclear membranes, chromosomes, and prominent nucleoli. The cytoplasm contained highly developed structure which presumably reflected the incipient growth condition of the cells. Several cytoplasmic components were common to both embryos: small dense granules, endoplasmic reticulum, mitochondria, presumed proplastids, amyloplasts, irregular bodies, plasma membranes, and plasmodesmata. The small dense granules, presumably ribonucleoprotein particles, occurred profusely, both free and in association with extensively developed endoplasmic reticulum. These particles are probably responsible for the microsomal fractions obtainable from embryos and seedlings. The mitochondria were usually relatively small (0.25−0.5 μ diameter) although groups of very long (5 μ) ones were occasionally found. Bodies resembling mitochondria in size and shape, but lacking cristae, were present and represent either immature mitochondria or proplastids. Reserve material occurred as starch in structurally complex amyloplasts and possibly as protein in the irregular bodies. In addition to these structures cells of the wheat embryos remote from the meristems contained prominent cytoplasmic bodies classified as "dense" and "thick-walled". The dense bodies probably represent stored lipids while the significance of the thick-walled bodies, which showed a variety of forms, is unknown.

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Starch and dry matter content of Netted Gem in relation to French fry texture

Johnston¹,

Kenkars²,

Nunes

1970

American Potato Journal

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Arbutin and a Related Glucoside in Immature Pear Fruit

Durkee¹,

Johnston²,

Thivierge³

et al. 1968

Journal of Food Science

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SUMMARY– Arbutin (p‐hydroxyphenyl‐β‐D‐glucoside) was separated from other phenols in an extract of immature fruit of Pyrus C.V. Kieffer by preparative paper chromatography and isolated as the penta‐acetyl derivative. A monoacetylarbutin (p‐hydroxyphenyl‐6‐0‐acetyl‐β‐D‐glucoside) was identified in the same pear extract. In addition, arbutin was found in both mature and immature pears, but at much higher levels in the immature fruit.

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F. B. Johnston

Mass Isolation of Viable Wheat Embryos

Distribution of mineral constituents and dry matter in the potato tuber

Fine Structure in Cells of Pea and Wheat Embryos

Starch and dry matter content of Netted Gem in relation to French fry texture

Arbutin and a Related Glucoside in Immature Pear Fruit

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