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Literature DB >> 16657264

Phytochrome in cultured wild carrot tissue. I. Synthesis.

Abstract

Stable levels of P(FR) occur in light-grown suspension cultures of wild carrot. Upon darkening such tissue, P(R) accumulates until the high P(R) level characteristics of dark-grown tissue is reached. Data are compatible with the idea of an equilibrium between processes of synthesis and destruction in tissue grown in the light. Reappearance of phytochrome also follows light-induced pigment destruction in dark-grown tissue. The rate of P(R) appearance is similar in both cases. The rate of disappearance of P(FR), however, is slower in light-grown tissue than in dark-grown tissue.

Entities: Species

Year: 1969 PMID： 16657264 PMCID： PMC396336 DOI： 10.1104/pp.44.12.1734

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

3 in total

14 in total

6. Light requirement, phytochrome and photoperiodic induction of flowering of Pharbits nil Chois : II. A critical examination of spectrophotometric assays of phytochrome transformations.

Authors: D Vince-Prue; R W King; P H Quail
Journal: Planta Date: 1978-01 Impact factor: 4.116

7. Biosynthesis of myo-inositol and its role as a precursor of cell-wall polysaccharides in suspension cultures of wild-carrot cells.

Authors: D C Verma; D K Dougall
Journal: Planta Date: 1979-01 Impact factor: 4.116

8. Influence of a loblolly pine (Pinus taeda L.). Culture medium and its components on growth and somatic embryogenesis of the wild carrot (Daucus carota L.).

Authors: J D Litvay; D C Verma; M A Johnson
Journal: Plant Cell Rep Date: 1985-12 Impact factor: 4.570

9. Influence of carbohydrates on quantitative aspects of growth and embryo formation in wild carrot suspension cultures.

Authors: D C Verma; D K Dougall
Journal: Plant Physiol Date: 1977-01 Impact factor: 8.340

10. DNA, RNA and protein content of tissue during growth and embryogenesis in wild-carrot suspension cultures.

Authors: D C Verma; D K Dougall
Journal: In Vitro Date: 1978-02

Phytochrome in cultured wild carrot tissue. I. Synthesis.

1. A Darkroom Safelight for Research in Plant Physiology.

2. High Phytochrome Levels in Cultured Tissue of the Wild Carrot, Daucus carota.

3. Modification of apparent phytochrome synthesis in pisum by inhibitors and growth regulators.

1. Phytochrome Stability in Vitro: II. A Low Molecular Weight Protective Factor.

2. Changes in Phytochrome Expressed by Germination of Amaranthus retroflexus L. Seeds.

3. Improved Cytoplasmic Delivery to Plant Protoplasts via pH-Sensitive Liposomes.

4. Comparative studies of the phytochrome system in cell cultures from different plants.

5. The effect of growth retardants on anthocyanin production in carrot cell suspension cultures.

6. Light requirement, phytochrome and photoperiodic induction of flowering of Pharbits nil Chois : II. A critical examination of spectrophotometric assays of phytochrome transformations.

7. Biosynthesis of myo-inositol and its role as a precursor of cell-wall polysaccharides in suspension cultures of wild-carrot cells.

8. Influence of a loblolly pine (Pinus taeda L.). Culture medium and its components on growth and somatic embryogenesis of the wild carrot (Daucus carota L.).

9. Influence of carbohydrates on quantitative aspects of growth and embryo formation in wild carrot suspension cultures.

10. DNA, RNA and protein content of tissue during growth and embryogenesis in wild-carrot suspension cultures.