Jacob Straus scite author profile

Jacob Straus

5Publications

92Citation Statements Received

36Citation Statements Given

How they've been cited

263

How they cite others

Affiliations

University of Oregon, University of Michigan–Ann Arbor, Harvard University

Publications

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Maize Endosperm Tissue Grown in Vitro I. Culture Requirements

Straus

LaRue

1954

American J of Botany

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IN RECENT YEARS the number of plant tissue cultures grown in vitro has been greatly increased. Other than the usual callus cultures derived from dicotyledonous plants (Gautheret, 1947a), tissues derived from monocotyledonous plants as well as from the Pinaceae, Ginkgoaceae, Filicinae, and the Lycopodinae have been established in culture. Curtis and Nichol (1947), obtained cultures of overgrowths produced by orchid embryos grown in vitro. Morel and Wetmore (1951a) were successful in growing callus tissues derived from the tubers of several tropical members of the Araceae. Ball (1950, 1953) has described the regeneration of new plants from Sequoia callus as well as the absorption of radioactive isotopes by these same cultures. Lowenberg and Skoog (1952) reported on their success in growing the callus produced by two species of Pinus embryos.Reports of several tissues derived from unusual morphological sources have also appeared recently in the literature. Thus, the endosperm of maize was first isolated by LaRue as a continuous culture in 1949. Morel and Wetmore (1951b) have grown Osmunda gametophyte callus in vitro. have established tissue cultures derived from the gametophyte of Lycopodium and the female gametophyte of Selaginella. The endosperm of Asimina triloba has been isolated by Lampton (1952) as a continuous tissue culture. Tulecke (1953) reported on the growth of a tissue which arose in in vitro cultures of Ginkgo pollen. This tissue appears to be the most unusual of all plant tissue cultures as it may represent an extended growth of the greatly reduced male gametophyte since the tissue appears to have arisen from the tube cell. Recently LaRue (unpublished) and his students have grown endosperm of Lolium perenne and stem tissues of Cryptomeria japonica, Cupressus [unebris, Theobroma cacao and Citrus aurantium as well as tobacco-root tumor tissue.None of the tissues mentioned in the above paragraph except for Osmunda gametophyte callus and newly cultured maize endosperm have been reported to differentiate any vascular elements or the more

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Maize Endosperm Tissue Grown in Vitro. II. Morphology and Cytology

Straus¹

1954

American Journal of Botany

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Invertase in Cell Walls of Plant Tissue Cultures

Straus

1962

Plant Physiol.

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In 1955 Ball (1) published a report in which he demonstrated that the growth of various tissue cultures upon media containing certain oligosaccharides resulted in the appearance of the hydrolysis products of these sugars in the medium. Ball speculated that the appearance of these hydrolysis products was due to the uptake of the oligosaccharide, hydrolysis within the tissue cells, and a subsequent release of the smaller molecules into the medium. Epp (8)

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Anthocyanin Synthesis in Corn Endosperm Tissue Cultures. I. Identity of the Pigments and General Factors.

Straus

1959

Plant Physiol.

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Release of enzymes by plant tissue cultures

Straus

Campbell

1963

Life Sciences

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Jacob Straus

Maize Endosperm Tissue Grown in Vitro I. Culture Requirements

Maize Endosperm Tissue Grown in Vitro. II. Morphology and Cytology

Invertase in Cell Walls of Plant Tissue Cultures

Anthocyanin Synthesis in Corn Endosperm Tissue Cultures. I. Identity of the Pigments and General Factors.

Release of enzymes by plant tissue cultures

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