The DNA content of sperm of Drosophila melanogaster (original) (raw)
References
Alfert, M.: Studies on basophilia of nucleic acids: the methyl green stainability of nucleic acids. Biol. Bull. 103, 145–156 (1952). Google Scholar
Atkin, N. B., Mettinson, G., Beçak, W., Ohno, S.: The comparative DNA content of 19 species of placental mammals, reptiles, and birds. Chromosoma (Berl.) 17, 1–10 (1965). Google Scholar
—, Richards, B. M.: Deoxyribonucleic acid in human tumours as measured by microspectrophotometry of Feulgen stain: A comparison of tumours arising at different sites. Brit. J. Cancer 10, 769–786 (1956). Google Scholar
Bartels, P. H.: Sensitivity and evaluation of microspectrophotometric and microinterferometric measurements. In: Introduction to quantitative cytochemistry (G. L. Wied, ed.), p. 93–105. New York: Academic Press, Inc. 1966. Google Scholar
Becker, H. J.: Die Puffs der Speicheldrüsenchromosomen von Drosophila melanogaster. I. Mitteilung. Beobachtungen zum Verhalten des Puffmusters im Normalstamm und bei zwei Mutanten, giant und giant-lethal-larvae. Chromosoma (Berl.) 10, 654–678 (1959). Google Scholar
Berendes, H. D., Keyl, H.-G.: Distribution of DNA in heterochromatin and euchromatin of polytene nuclei of Drosophila hydei. Genetics 57, 1–13 (1967). Google Scholar
Bliss, C. I.: The method of probits. Science 79, 38–39 (1934). Google Scholar
Böhm, N., Sprenger, E., Schlueter, G., Sandritter, W.: Proportionalitätsfehler bei der Feulgen-Hydrolyse. Histochemie 15, 194–203 (1968). Google Scholar
Brown, W. V., Bertke, E. M.: Textbook of cytology. St. Louis, Mo.: C. V. Mosby Company 1969. Google Scholar
Caspersson, T.: Nukleinsäureketten und Genvermehrung. Chromosoma (Berl.) 1, 605–619 (1940). Google Scholar
Commoner, B.: On the interpretation of the absorption of ultraviolet light by cellular nucleic acids. Science 110, 31–40 (1949). Google Scholar
Cooper, K. W.: Normal spermatogenesis in Drosophila. In: Biology of Drosophila (M. Demerec, ed.), p. 1–61. New York: John Wiley & Sons, Inc. 1950. Google Scholar
Daneholt, B., Edström, J.-E.: The content of deoxyribonucleic acid in individual polytene chromosomes of Chironomus tentans. Cytogenetics 6, 350–356 (1967). Google Scholar
Das, C. C., Kaufmann, B. P., Gay, G.: Histone protein transition in Drosophila melanogaster. I. Changes during spermatogenesis. Exp. Cell Res. 35, 507–514 (1964). Google Scholar
Davidson, J. N., Leslie, I., Smellie, R. M. S., Thomson, R. Y.: Chemical changes in the developing chick embryo related to the deoxyribonucleic acid content of the nucleus. Biochem. J. 46, Proc. XI (1950).
-McIndoe, W. M.: Phosphorus compounds in the cell nucleus. Biochem. J. 45, Proc. xvi (1949).
De Cosse, J. J., Aiello, N.: Feulgen hydrolysis: effect of acid and temperature. J. Histochem. Cytochem. 14, 601–604 (1966). Google Scholar
Deeley, E. M.: An integrating microdensitometer for biological cells. J. sci. Instrum. 32, 263–267 (1955). Google Scholar
Deitch, A. D.: Cytophotometry of nucleic acids. In: Introduction to quantitative cytochemistry (G. L. Wied, ed.), p. 327–354. New York: Academic Press, Inc. 1966. Google Scholar
—, Wagner, D., Richart, R. M.: Conditions influencing the Feulgen Reaction. J. Histochem. Cytochem. 16, 371–379 (1968). Google Scholar
De la Torre, L., Velat, G. F., Dysart, M. P.: The role of hydrogen ion concentration and metabisulfite in the mechanism of the Feulgen reaction. J. Cell Biol. 23, 24A (1964).
DuPraw, E. J.: Cell and molecular biology, p. 573–574. New York: Academic Press Inc. 1968. Google Scholar
Edström, J.-E.: Chromosomal RNA and other nuclear RNA fractions. In: The role of chromosomes in development (M. Locke, ed.), p. 137–152. New York: Academic Press, Inc. 1964. Google Scholar
Garcia, A. M.: On Feulgen-deoxyribonucleic acid hyploid and diploid values. J. Histochem. Cytochem. 15, 778 (1967). Google Scholar
—, Iorio, R.: Potential sources of error in two-wavelength cytophotometry. In: Introduction to quantitative cytochemistry (G. L. Wied, ed.), p. 215–237. New York: Academic Press, Inc. 1966. Google Scholar
Gledhill, B. L., Gledhill, M. P., Rigler, J. R., Ringertz, N. R.: Changes in deoxyribonucleoprotein during spermiogenesis in the bull. Exp. Cell Res. 41, 652–665 (1966). Google Scholar
Hale, A. J.: The leukocyte as a possible exception to the theory of deoxyribonucleic acid constancy. J. Path. Bact. 85, 311–326 (1963). Google Scholar
Heitz, E.: Cytologische Untersuchungen an Dipteren. III. Die somatische Heteropyknose bei Drosophila melanogaster und ihre genetische Bedeutung. Z. Zellforsch. 20, 237–288 (1933). Google Scholar
Jordanov, J.: On the transition of deoxyribonucleic acid to apurinic acid and the loss of the latter from tissues during Feulgen reaction hydrolysis. Acta histochem. (Jena) 15, 135–152 (1963). Google Scholar
Kurnick, N. B., Herskowitz, I. H.: The estimation of polyteny in Drosophila salivary gland nuclei based on determination of deoxyribonucleic acid content. J. cell. comp. Physiol. 39, 281–299 (1952). Google Scholar
Laird, C. D.: Chromatid structure: Relationship between DNA content and nucleotide sequency diversity. Chromosoma (Berl.) 32, 378–416 (1971). Google Scholar
—, McCarthy, B. J.: Molecular characterization of the Drosophila genome. Genetics 63, 865–882 (1969). Google Scholar
Leslie, I.: The nucleic acid content of tissues and cells. In: The nucleic acids, vol. 2 (E. Chargaff and J. N. Davidson, eds.), p. 1–50. New York: Academic Press, Inc. 1955. Google Scholar
Lillie, R. D.: Simplification of the manufacture of Schiff reagent for use in histochemical procedures. Stain Technol. 25, 163–165 (1951). Google Scholar
McCarthy, B. J.: The evolution of base sequences in nucleic acids. In: Handbook of molecular cytology (A. Lima-de-Faria, ed.), p. 3–30. New York: John Wiley & Sons, Inc. 1969. Google Scholar
McIndoe, W., Davidson, J. N.: The phosphorus compounds of the cell nucleus. Brit. J. Cancer 6, 200–214 (1952). Google Scholar
Mayall, B. H.: The detection of small differences in DNA content with micro spectrophotometric techniques. J. Cell Biol. 31, 74A (1966). Google Scholar
—: Deoxyribonucleic acid cytophotometry of stained human leukocytes. I. Differences among cell types. J. Histochem. Cytochem. 17, 249–257 (1969). Google Scholar
—, Mendelsohn, M. L.: Deoxyribonucleic acid cytophotometry of stained human leukocytes. II. The mechanical scanner of Cydac, the theory of scanning photometry and the magnitude of residual errors. J. Histochem. Cytochem. 18, 383–407 (1970). Google Scholar
Mirsky, A. E., Ris, H.: The deoxyribonucleic acid content of animal cells and its evolutionary significance. J. gen. Physiol. 34, 451–462 (1951). Google Scholar
Mulder, M. P., Duijn, P., van, Gloor, H. J.: The replicative organization of DNA in polytene chromosomes of Drosophila hydei. Genetica 39, 385–428 (1968). Google Scholar
Noeske, K.: Diskrepanzen von Feulgen-Wert und DNA-Gehalt. Histochemie 20, 322–327 (1969). Google Scholar
Patterson, J. T., Stone, W. S.: Evolution in the genus Drosophila. New York: The Macmillan Co. 1952. Google Scholar
Pelling, C.: A replicative and synthetic chromosomal unit—the modern concept of the chromomere. Proc. roy. Soc. Lond. B 164, 279–289 (1966). Google Scholar
Pollister, A. W., Swift, H.: Molecular orientation and intracellular photometric analysis. Science 111, 68–71 (1950). Google Scholar
Rasch, E. M.: DNA cytophotometry of salivary gland nuclei and other tissue systems in dipteran larvae. In: Introduction to quantitative cytochemistry, vol. 2 (G. L. Wied and G. F. Bahr, eds.), p. 357–397. New York: Academic Press, Inc. 1970. Google Scholar
—, Barr, H. J.: DNA-Feulgen cytophotometry of Drosophila hemocyte nuclei. J. Histochem. Cytochem. 17, 187 (1969). Google Scholar
—, Prehn, L. M., Rasch, R. W.: Cytogenetics of Poecilia (Pisces). II. Triploidy and DNA levels in naturally occurring populations associated with the gynogenetic teleost, Poecilia formosa (Girard). Chromosoma (Berl.) 31, 18–40 (1970). Google Scholar
Ris, H., Mirsky, A. E.: Quantitative cytochemical determination of deoxyribose nucleic acid with the Feulgen nucleal reaction. J. gen. Physiol. 33, 125–146 (1949). Google Scholar
Ritossa, F. M., Scalla, G.: Equilibrium variations in the redundancy of rDNA in Drosophila melanogaster. Genetics 61, (Suppl. 1) 305–317 (1969). Google Scholar
Rodman, T. C.: DNA replication in salivary gland nuclei of Drosophila melanogaster at successive larval and prepupal stages. Genetics 55, 375–386 (1967). Google Scholar
Rosenkranz, H. S., Bendich, A.: On the nature of the deoxyribonucleic acid-methyl green reaction. J. biophys. biochem. Cytol. 4, 663–664 (1958). Google Scholar
Ruch, F.: Dichroism and difluorescence. In: Introduction to quantitative cytochemistry (ed. G. L. Wied), p. 549–555. New York: Academic Press, Inc. 1966. Google Scholar
Rudkin, G. T.: The structure and function of heterochromatin. In: Genetics today, Proc. XIth Intern. Congr. Genetics 2, p. 359–374. New York: Pergamon Press 1964.
—: The relative mutabilities of DNA in regions of the X chromosome of Drosophila melanogaster. Genetics 52, 665–681 (1965). Google Scholar
—: Nonreplicating DNA in Drosophila. Genetics 61, (Suppl. 1) 227–238 (1969). Google Scholar
Sandritter, W., Jobst, K., Rakow, L., Bosselmann, K.: Zur Kinetik der Feulgenreaktion bei verlängerter Hydrolysezeit. Cytophotometrische Messungen im sichtbaren und ultravioletten Licht. Histochemie 4, 420–437 (1965). Google Scholar
—, Müller, D., Gensecke, O.: Ultraviolettmikrospektrophotometrische Messungen des Nukleinsäuregehaltes von haploiden und diploiden Zellen. Acta histochem. (Jena) 10, 139–154 (1960). Google Scholar
Schultz, J., Rudkin, G. T.: Direct measurement of DNA content of genetic loci in Drosophila. Science 132, 1499–1500 (1960). Google Scholar
Swanson, C. P.: The cell, 3rd ed., p. 53. Englewood Cliffs. New Jersey: PrenticeHall, Inc. 1969. Google Scholar
—, Merz, T., Young, W. J.: Cytogenetics, p. 177. Englewood Cliffs, New Jersey: Prentice-Hall, Inc. (1967). Google Scholar
Swift, H.: The deoxyribose nucleic acid content of animal nuclei. Physiol. Zool. 23, 169–198 (1950). Google Scholar
—: Quantitative aspects of nuclear nucleoproteins. Int. Rev. Cytol. 2, 1–77 (1953). Google Scholar
—: Nucleic acids and cell morphology in dipteran salivary glands. In: The molecular control of cellular activity (J. M. Allen, ed.), p. 73–125. New York: McGrawHill Book Co. (1962). Google Scholar
—: Molecular morphology of the chromosome. In: In vitro. The chromosome—structural and functional aspects, p. 26–49. Baltimore: The William and Wilkins Co. 1965 Google Scholar
—, Rasch, E. M.: Nucleoproteins in Drosophila polytene chromosomes. J. Histochem. Cytochem. 2, 456–457 (1954) Google Scholar
Thompson, R. Y., Heagy, F. D., Hutchison, W. C., Davidson, J. N.: The deoxyribonucleic acid content of the rat cell nucleus and its use in expressing the results of tissue analysis, in particular reference to the composition of liver tissue. Biochem. J. 53, 460–474 (1953). Google Scholar
Tonkelaar, E. M., den, Duijn, P., van: Photographic colorimetry as a quantitative cytochemical method. II. Determination of relative amounts of DNA in cell nuclei. Histochemie 4, 10–15 (1964). Google Scholar
Vaughn, J. C., Locy, R. D.: Changing nuclear histone patterns during development. III. The deoxyribonucleic acid content of spermatogenic cells in the crab Emerita analoga. J. Histochem. Cytochem. 17, 591–600 (1969). Google Scholar
Vendrely, C.: L'acide déoxyribonucléique du noyau des cellules animales. Bull. biol. France (Belg.) 86, 1–87 (1952). Google Scholar
Vendrely, R.: The deoxyribonucleic acid content of the nucleus. In: The nucleic acids, vol. 2 (E. Chargaff and J. N. Davidson, eds.), p. 155–180. New York: Academic Press, Inc. 1955. Google Scholar
— Vendrely, C.: The results of cytophotometry in the study of the deoxyribonucleic acid (DNA) content of the nucleus. Int. Rev. Cytol. 5, 171–197 (1956). Google Scholar
Welch, R. M.: A developmental analysis of the lethal mutant L (2) GL of Drosophila melanogaster based on cytophotometric determination of nuclear deoxyribonucleic acid (DNA) content. Genetics 42, 544–559 (1957). Google Scholar
Wolstenholme, D. R., Dawid, I. B., Ristow, H.: An electron microscope study of DNA molecules from Chironomus tentans and Chironomus thummi. Genetics 60, 759–770 (1968). Google Scholar