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Literature DB >> 16658653

Patterns of food utilization by the germinating lettuce seeds.

Abstract

The embryo excised from seed of Grand Rapids lettuce (Lactuca sativa L.) can be cultured in distilled water. Complete digestion of the endosperm and transfer of nutrients from the endosperm to the embryo occur in the germinating seed with fat as the source of food. The fat is utilized for respiration, synthesis of amino acids, and to a degree, converted to sucrose. (14)C-Glucose administered to the seed is quickly converted to sucrose in the endosperm and translocated to the embryo. Radioactivity associated with the glucose remains predominantly in the carbohydrate fraction, and much of it is incorporated into what is believed to be cell wall polysaccharides. Relatively little isotope is distributed in the amino or organic acids.

Entities: Chemical Species

Year: 1974 PMID： 16658653 PMCID： PMC541333 DOI： 10.1104/pp.53.1.64

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

11 in total

4. Lettuce Seed Germination: Evidence for a Reversible Light-Induced Increase in Growth Potential and for Phytochrome Mediation of the Low Temperature Effect.

Authors: J Scheibe; A Lang
Journal: Plant Physiol Date: 1965-05 Impact factor: 8.340

2. An enzyme to degrade lettuce endosperm cell walls. Appearance of a mannanase following phytochrome- and gibberellin-induced germination.

Authors: P Halmer; J D Bewley; T A Thorpe
Journal: Planta Date: 1976-01 Impact factor: 4.116

3. Mannanase production by the lettuce endosperm : Control by the embryo.

Authors: P Halmer; J D Bewley
Journal: Planta Date: 1979-01 Impact factor: 4.116

4. Degradation of the endosperm cell walls of Lactuca sativa L., cv. Grand Rapids : Timing of mobilisation of soluble sugars, lipid and phytate.

Authors: P Halmer; J D Bewley; T A Thorpe
Journal: Planta Date: 1978-01 Impact factor: 4.116

5. Degradation of the endosperm cell walls of Lactuca sativa L., cv. grand rapids in relation to the mobilisation of proteins and the production of hydrolytic enzymes in the axis, cotyledons and endosperm.

Authors: D W Leung; J S Reid; J D Bewley
Journal: Planta Date: 1979-01 Impact factor: 4.116

5 in total

Patterns of food utilization by the germinating lettuce seeds.

1. Photosensitive site in lettuce seeds.

2. Sucrose synthesis from acetate in the germinating castor bean: kinetics and pathway.

3. An Analysis of "Dark-osmotic Inhibition" of Germination of Lettuce Seeds.

4. Lettuce Seed Germination: Evidence for a Reversible Light-Induced Increase in Growth Potential and for Phytochrome Mediation of the Low Temperature Effect.

5. The Relationship of the Kinetin and Red-Light Promotions of Lettuce Seed Germination.

6. A Reversible Photoreaction Controlling Seed Germination.

Review 7. Cytokinins: permissive role in seed germination.

8. Metabolism of barley seed during early hours of germination.

9. Interaction of carbon dioxide and ethylene in overcoming thermodormancy of lettuce seeds.

10. Sugar Uptake and Translocation in the Castor Bean Seedling II. Sugar Transformations During Uptake.

1. Promotive effects of organic solvents and kinetin on dark germination of lettuce seeds.

2. An enzyme to degrade lettuce endosperm cell walls. Appearance of a mannanase following phytochrome- and gibberellin-induced germination.

3. Mannanase production by the lettuce endosperm : Control by the embryo.

4. Degradation of the endosperm cell walls of Lactuca sativa L., cv. Grand Rapids : Timing of mobilisation of soluble sugars, lipid and phytate.

5. Degradation of the endosperm cell walls of Lactuca sativa L., cv. grand rapids in relation to the mobilisation of proteins and the production of hydrolytic enzymes in the axis, cotyledons and endosperm.