Sant Bhojwani - Academia.edu (original) (raw)
Papers by Sant Bhojwani
Plant Science Letters, Sep 1, 1976
Plant Science, Feb 1, 2004
New Phytologist, Jul 1, 1971
SummaryThe mature endosperm of Croton bonplandianum proliferated profusely on White's medium ... more SummaryThe mature endosperm of Croton bonplandianum proliferated profusely on White's medium (WM) + 2 ppm 2,4‐D + 5 ppm kinetin + 2500 ppm yeast extract. Association with the embryo was essential for initiation of proliferation of mature endosperm. Tracheidal cells usually differentiated. Twelve‐month‐old callus contained predominantly triploid and hexaploid cells. When the callus obtained on WM + 2,4‐D + kinetin + yeast extract was subcultured on WM triploid roots formed in 25% of the cultures. At 10−7 M, IBA, IAA, or NAA, in WM, promoted rooting; IBA was most effective. Attempts to induce shoot differentiation failed.
Plant Science, 1991
Introduction. Table 1. Number of papers published during the period covered by this volume. Table... more Introduction. Table 1. Number of papers published during the period covered by this volume. Table 2. List of periodicals surveyed. 1. General Techniques and Media. 2. Cell Culture. Single cell and Suspension culture. 3. Callus Culture. Growth and Rhizogenesis. 4. Cytology and Cytogenetics. Ultrastructure, Cell cycle, Nuclear cytology, and Effect of chromosomal changes and genotype on growth and differentiation. 5. Cytodifferentiation. Xylem, Phloem, and Laticifers. 6. Regeneration. Shoot bud differentiation from somatic tissues and calli. 7. Somatic Embryogenesis. Embryo differentiation from cells, tissues and vegetative organs. 8. Anther and Pollen Culture. Induction and applications of androgenesis. 9. Endosperm Culture. Callus formation and organogenesis. 10. Flower, Ovary and Ovule Culture. Seed and fruit development, In ovulo embryo culture, and Parthenogenesis. 11. In Vitro Pollination. Stigmatic, Placental and Ovule pollination. 12. Embryo Culture. Ex ovulo culture of normal embryo, Hybrid embryo and Haploid embryo following distant hybridization. 13. Protoplast Isolation and Culture. 14. Somatic Hybridization and Cybridization. 15. Genetic Engineering. 16. Variant/Mutant Selection. Selection and characterisation of spontaneous and induced variants/mutants. 17. Production of Pathogen-free Plants. Shoot tip culture, and Eradication of viroids, viruses, mycoplasma, bacteria and fungi. 18. Micropropagation. 19. Germplasm Storage. Low temperature storage of shoot cultures, and cryopreservation of protoplasts, cells, tissues, shoot tips and embryos. 20. Production of Industrial Compounds. Natural plant constituents, and Biotransformation of externally supplied compounds. 21. Morphogenesis. Seedling development, Haustoria differentiation in parasitic angiosperms, and Floral differentiation. 22. Plant Pathology and Microbiology. Interaction of plant tissues with viruses, bacteria, fungi, algae and nematodes, and Crown gall and other pathological tissues. 23. Root Culture. 24. Physiology and Biochemistry. Cell metabolism, Photosynthesis, and Flowering. 25. Specific Crops. Reviews on tissue culture of specific crops or a group of crop plants. 26. General Articles. 27. Books. Index to Plant Names.
Developments in Crop Science, 1990
Plant Tissue Culture: An Introductory Text, 2013
Plant Cell, Tissue and Organ Culture, 2006
Phytochemistry, 1991
ABSTRACT
Indian Journal of …, 2004
Applied and Fundamental Aspects of Plant Cell, Tissue, and Organ Culture, 1977
Working independently of each other, White(1939), Gautheret (1939), and NobECourt (1939), almost ... more Working independently of each other, White(1939), Gautheret (1939), and NobECourt (1939), almost simultaneously announced successful methods for the unlimited in vitro growth of plant tissues. Since this initial discovery, the most varied types of tissues and cells from an extraordinary number of plant species have been grown in vitro using solid and/or liquid culture media. In seed plants, in vitro cultures have been obtained from such diverse materials as: ovaries, ovules, and nucelli; excised embryos; seeds; differentiated portions of roots, stems, rhizomes, tubers, bulbils, leaves, flowers, and inflorescences; tumor tissues; apical meristems; pith parenchyma; secondary phloem; pericarp and endocarp of fruits; endosperm; female gametophytes of Gymnosperms; anthers; pollen grains; wall deprived cells (protoplasts) (see D’amato, 1972 a; Murashige, 1974).
This paper reviews the recent progress in tissue culture of woody perennials in India, using some... more This paper reviews the recent progress in tissue culture of woody perennials in India, using some tropical tree crops as examples. These crops include coconuts (Cocos nucifera), oil palm (Elaeis guineensis), date palm (Phoenix dactylifera), rubber (Hevea brasiliensis), mango, ...
Encyclopedia of Plant and Crop Science, 2004
Plant Science Letters, Sep 1, 1976
Plant Science, Feb 1, 2004
New Phytologist, Jul 1, 1971
SummaryThe mature endosperm of Croton bonplandianum proliferated profusely on White's medium ... more SummaryThe mature endosperm of Croton bonplandianum proliferated profusely on White's medium (WM) + 2 ppm 2,4‐D + 5 ppm kinetin + 2500 ppm yeast extract. Association with the embryo was essential for initiation of proliferation of mature endosperm. Tracheidal cells usually differentiated. Twelve‐month‐old callus contained predominantly triploid and hexaploid cells. When the callus obtained on WM + 2,4‐D + kinetin + yeast extract was subcultured on WM triploid roots formed in 25% of the cultures. At 10−7 M, IBA, IAA, or NAA, in WM, promoted rooting; IBA was most effective. Attempts to induce shoot differentiation failed.
Plant Science, 1991
Introduction. Table 1. Number of papers published during the period covered by this volume. Table... more Introduction. Table 1. Number of papers published during the period covered by this volume. Table 2. List of periodicals surveyed. 1. General Techniques and Media. 2. Cell Culture. Single cell and Suspension culture. 3. Callus Culture. Growth and Rhizogenesis. 4. Cytology and Cytogenetics. Ultrastructure, Cell cycle, Nuclear cytology, and Effect of chromosomal changes and genotype on growth and differentiation. 5. Cytodifferentiation. Xylem, Phloem, and Laticifers. 6. Regeneration. Shoot bud differentiation from somatic tissues and calli. 7. Somatic Embryogenesis. Embryo differentiation from cells, tissues and vegetative organs. 8. Anther and Pollen Culture. Induction and applications of androgenesis. 9. Endosperm Culture. Callus formation and organogenesis. 10. Flower, Ovary and Ovule Culture. Seed and fruit development, In ovulo embryo culture, and Parthenogenesis. 11. In Vitro Pollination. Stigmatic, Placental and Ovule pollination. 12. Embryo Culture. Ex ovulo culture of normal embryo, Hybrid embryo and Haploid embryo following distant hybridization. 13. Protoplast Isolation and Culture. 14. Somatic Hybridization and Cybridization. 15. Genetic Engineering. 16. Variant/Mutant Selection. Selection and characterisation of spontaneous and induced variants/mutants. 17. Production of Pathogen-free Plants. Shoot tip culture, and Eradication of viroids, viruses, mycoplasma, bacteria and fungi. 18. Micropropagation. 19. Germplasm Storage. Low temperature storage of shoot cultures, and cryopreservation of protoplasts, cells, tissues, shoot tips and embryos. 20. Production of Industrial Compounds. Natural plant constituents, and Biotransformation of externally supplied compounds. 21. Morphogenesis. Seedling development, Haustoria differentiation in parasitic angiosperms, and Floral differentiation. 22. Plant Pathology and Microbiology. Interaction of plant tissues with viruses, bacteria, fungi, algae and nematodes, and Crown gall and other pathological tissues. 23. Root Culture. 24. Physiology and Biochemistry. Cell metabolism, Photosynthesis, and Flowering. 25. Specific Crops. Reviews on tissue culture of specific crops or a group of crop plants. 26. General Articles. 27. Books. Index to Plant Names.
Developments in Crop Science, 1990
Plant Tissue Culture: An Introductory Text, 2013
Plant Cell, Tissue and Organ Culture, 2006
Phytochemistry, 1991
ABSTRACT
Indian Journal of …, 2004
Applied and Fundamental Aspects of Plant Cell, Tissue, and Organ Culture, 1977
Working independently of each other, White(1939), Gautheret (1939), and NobECourt (1939), almost ... more Working independently of each other, White(1939), Gautheret (1939), and NobECourt (1939), almost simultaneously announced successful methods for the unlimited in vitro growth of plant tissues. Since this initial discovery, the most varied types of tissues and cells from an extraordinary number of plant species have been grown in vitro using solid and/or liquid culture media. In seed plants, in vitro cultures have been obtained from such diverse materials as: ovaries, ovules, and nucelli; excised embryos; seeds; differentiated portions of roots, stems, rhizomes, tubers, bulbils, leaves, flowers, and inflorescences; tumor tissues; apical meristems; pith parenchyma; secondary phloem; pericarp and endocarp of fruits; endosperm; female gametophytes of Gymnosperms; anthers; pollen grains; wall deprived cells (protoplasts) (see D’amato, 1972 a; Murashige, 1974).
This paper reviews the recent progress in tissue culture of woody perennials in India, using some... more This paper reviews the recent progress in tissue culture of woody perennials in India, using some tropical tree crops as examples. These crops include coconuts (Cocos nucifera), oil palm (Elaeis guineensis), date palm (Phoenix dactylifera), rubber (Hevea brasiliensis), mango, ...
Encyclopedia of Plant and Crop Science, 2004