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References
Anderson, E. &de Winton, D. (1931). “The genetic analysis of an unusual relationship between self-sterility and self-fertility inNicotiana.”Ann. Mo. bot. Gdn,18, 97–116.
Babcock, E. B. &Emsweller, S. L. (1936). “Meiosis in certain interspecific hybrids inCrepis and its bearing on taxonomic relations.”Univ. Calif. Publ. Agr. Sci. 6, 325–68.
Baur, E. (1924). “Untersuchungen über das Wesen, die Entstehung und die Vererbung von Rassenunterschieden beiAntirrhinum majus.”Bibl. genet., Lpz.,4, 1–170.
Belgovsky, M. L. (1934). “The influence of the hybridization on the mutation frequency of the gene white inDrosophila simulans.”C.R. Acad. Sci. U.R.S.S. 4, 108–12.
Blakeslee, A. F.,Avery, A. G.,Bergner, A. D.,Satina, S.,Cartledge, J. L. &Buchholz, J. T. (1936, 1937). “Datura investigations.”Ann. Rep. Dir. Dep. Genet. Carneg. Inst., 1935–6, pp. 37–40; 1936–7, pp. 38–44.
Brieger, Fr. (1929). “Vererbung bei Artbastarden unter besonderer Berücksichtigung der GattungNicotiana.”Züchter,1, 140–52.
Buxton, B. H. &Newton, W. C. F. (1928). “Hybrids ofDigitalis ambigua andDigitalis purpurea, their fertility and cytology.”J. Genet. 19, 269–79.
Chizaki, Y. (1934). “Another new haploid plant inTriticum monococcum.”Bot. Mag., Tokyo,48, 621–8.
Christoff, M. (1928). “Cytological studies in the genusNicotiana.”Genetics,13, 233–77.
Clausen, J. (1932). “Inheritance and synthesis ofMelanium violets.”Proc. 6th Int. Congr. Genet. 2, 346–9.
—— (1931). “Viola canina L.: a cytologically irregular species.”Hereditas, Lund,15, 67–88.
Clausen, R. E. (1928). “Interspecific hybridization and the origin of species inNicotiana.”Verhandl. V. Intern. Kongress Vererbungswiss. in Berlin, 1927,2, 547–53.
Comes, O. (1899). “Monographie du genreNicotiana comprenant le classement botanique des tabacs industriels.”Atti. Ist. Sci. nat. Napoli, ser. v,1.
Darlington, C.D. (1932, 1937).Recent Advances in Cytology, 1st and 2nd ed. London.
East, E. M. (1928). “The genetics of the genusNicotiana.”Bibliogr. genet. 4, 243–320.
—— (1932). “Studies on self-sterility. IX. The behaviour of crosses between self-sterile and self-fertile plants.”Genetics,17, 175–202.
Frolova, S. L. (1936). “Struktur der Kerne in den Speicheldrüsen einigerDrosophila Arten.”Biol. Zh. 5, 271–92.
—— (1937). “Structure and form of the salivary gland chromosome inDrosophila.”Biot. Zh.,6, 645–64.
Gärtner, C. F. (1849).Versuche und Beobachtungen über die Bastarderzeugung im Pflanzenreich. Stuttgart.
Goodspeed, T. H. (1923). “A preliminary note on the cytology ofNicotiana species and hybrids.”Svensk bot. Tidskr. 17, 472–8.
—— (1924). “Some chromosome numbers inNicotiana.”Amer. Nat. 58, 381–2.
—— (1933). “Chromosome number and morphology. VI. Chromosome number of forty species.”Proc. nat. Acad. Sci., Wash.,19, 649–53.
Gregor, J. W. &Sansome, F. W. (1930). “Experiments on the genetics of wild populations. II.Phelum pratense L. and the hybridP. pratense ×P. alpinum.”J. Genet. 22, 522–65.
Hagerup, O. (1932). “Über Polyploidy in Beziehung zu Klima, Oekologie und Phylogenie. Chromosomenzahlen aus Timbuku.”Hereditas, Lund,16, 19–40.
Heitz, E. (1935). “Chromosomenstruktur und Gene.”Z. indukt. Abstamm.- u. VererbLehre,70, 402–47.
Howard, H. W. (1938). “The fertility of amphidiploids from the crossRaphanus sativus × Brassica oberacea.”J. Genet. 36, 239–73.
Jones, D. F. (1936). “Segregation of colour and growth regulating genes in somatic tissue of maize.”Proc. nat. Acad. Sci., Wash.,22, 163–6.
—— (1937). “Somatic segregation in relation to atypical growth.”Proc. Amer. Phil. Soc. 77, 411–16.
Karpetchenko, J. D. (1928). “Polyploid hybrids ofRaphanus sativus L. ×Brassica oberacea L.”Z. indukt. Abstamm.- u. VererbLehre,48, 1–85.
—— (1935a). “The theory of distant crosses” (Russian).Theoret. Basis of Plant Breed. 1, 293–354.
—— (1935b). “Experimentelle Polyploidie und Haploidie” (Russian).Theoret. Basis of Plant Breed. 1, 397–434.
Kendall, J. (1930). “The structure and development of certain Eriophyde galls.”Z. Parasitenk. 2, 477–501.
Kihara, H. &Katayama, J. (1933). “Reifungsteilung bei dem haploidenTriticum monococcum.”Agric. and Hort. 8, 1–17.
Kostoff, D. (1929). “An androgenicNicotiana haploid.”Z. Zellforsch. 9, 640–2.
—— (1930a). “Ontogeny, genetics and cytology ofNicotiana hybrids.”Genetica,12, 33–139.
—— (1930b). “Tumours and other malformations on certainNicotiana hybrids.”Zbl. Bakt. II Abt.81, 244–60.
—— (1930c). “A chromosomal chimera in tobacco (Somatic non-disjunction and doubling of chromosomes in aNicotiana hybrid).”J. Hered. 21, 445–8.
-- (1930d). “Discoid structure of the spireme.”J. Hered. 21, no. 7.
—— (1930e). “Chromosomal aberrants and gene mutations inNicotiana obtained by grafting.”J. Genet. 22, 399–418.
—— (1931a). “A fertile triple hybridNicotiana tabacum × (N. sylvestris × N. Rusbyi).”Amer. J. Bot. 18, 112–13.
—— (1931b). “Proteinreaktionen und Tumorbildungen.”Z. Krebsforsch. 34, 65–79.
—— (1933a). “Tumour problem in the light of researches on plant tumours and galls and its relation to the problem of mutation. (A critical review from biophysical, biochemical, and cytogenetic point of view).”Protoplasma,20, 440–56.
—— (1933b). “Mutation theory of the origin of tumours in the light of studies on plant tumours and galls.”Priroda, Moskva,2, 52–60.
-- (1933c). “Cytogenetic studies of the triple fertile hybridNicotiana tabacum × (N. sylvestris × N. Rusbyi)—N. triplex.”Bull. Appl. Bot. Genet. and Pl. Br. (U.R.S.S.), Ser. II, no. 5, pp. 167–205.
-- (1934a). “Polygenom hybrids experimentally produced.”C.R. Acad. Sci., U.R.S.S. pp. 1–6.
—— (1934b). “The occurrence of crossing-over inNicotiana species hybrids.”Curr. Sci. 2, 370–3.
—— (1934c). “Studies on pollen-tubes. II. The dependence between the potency of the pollen-tube growth in foreign styles and the thickness of the pollen-tubes and chromosome number.”Curr. Sci. 2, 464–6.
Kostoff, D. (1935a). “Inheritance of natural immunity in plants with special reference to production of immune varieties by interspecific hybridization.”Sborn. Česko- slov. Akad. Zemed. 10, 389–402.
—— (1935b). “On the increase of mutation frequency following interspecific hybridization.”Curr. Sci. 3, 302–4.
—— (1935c). “Heritable tumours in plants experimentally produced.”Genetica,17, 367–76.
—— (1935d). “Chromosome alterations by centrifuging.”Z. indukt. Abstamm.- u. VererbLehre,69, 301.
—— (1935e). “Studies on polyploid plants. VIII. Chromosome conjugation in the haploids and its genetic significance.”C.R. Acad. Sci. U.R.S.S. 1, no. 5, pp. 330–2.
—— (1935f). “Conjugation between morphologically different chromosomes inNicotiana species hybrids.”C.R. Acad. Sci. U.R.S.S. 1, no. 7/8, pp. 558–60.
-- (1935g). “Studies on polyploid plants. X. On the so-called constancy of the amphidiploid plants.”C.R. Acad. Sci. U.R.S.S. no. 9, pp. 653–7.
—— (1935h). “Studies on polyploid plants. II. Cytogenetics of the trigenomal triple hybrid (Nicotiana rustica × N. paniculata) × N. caudigera.”Bull. Inst. Genet. Acad. Sci. U.R.S.S. 10, 19–23.
—— (1936a). “The origin of cultivated tobacco.”Curr. Sci. 4, 872.
—— (1936b). “The genoms ofTriticum Timopheevi Zhuk.,Secale cereale L., andHaynaldia villosa Schr.”Z. indukt. Abstamm.- u. VererbLehre,72, 115–18.
—— (1936c). “Studies on polyploid plants. XII. Polyploid forms inTriticum experimentally produced.”Bull. Acad. Sci. U.R.S.S., Ser. Biol.1, 5–22.
-- (1937a). “Cytological studies on certain progenies of the hybridTriticum Timopheevi × Triticum persicum.”Cytologia, Tokyo, Fujii Jub. Vol. pp. 262–77.
—— (1937b). “On the mutual reactions between plant extracts and between heteroplastic graft components and their biological significance.”Biol. gen. 13, 219–75.
—— (1937c). “Studies on polyploid plants. XVII.Nicotiana multivalvis (2n=48) ×N. suaveolens (2n=32) amphidiploid (2n=80).”C.R. Acad. Sci. U.R.S.S. 14, 215.
—— (1937d). “Formation of a qudrivalent group in a hybrid betweenTriticum vulgare and aTr. vulgare extracted derivative.”Curr. Sci. 5, 537.
—— (1938a). “Studies on polyploid plants. XVIII. Cytogenetic studies onNicotiana sylvestris × N. tomentosiformis hybrids and amphidiploids and their bearings on the problem of the origin ofN. tabacum.”C.R. Acad. Sci. U.R.S.S. 18, 459–62.
-- (1938b). “Heterochromatin, somatic crossing-over and the interchange hypothesis between non-homologous chromosomes.” (In the Press.)
-- (1938c).Genetics and cytology of the genus Nicotiana. Krasnodar.
—— (1938d). “The most probable place of location of the genes in the chromonemata.”Nature, Lond. 141, 749.
—— (1938e). “Irregular meiosis and polyploidy induced by colchicine and acenaphthene.”C.R. Acad. Sci. U.R.S.S. 19, 189–91;Curr. Sci. 6, 579–652.
—— (1938f). “Irregular meiosis and mitosis induced by acenaphthene.”Nature, Lond.,141, 1144–5.
Kostoff, D. (1938g). “Heterochromatin at the distal ends of the chromosome inTriticum monococcum.”Nature, Lond.,141, 390–1.
-- (1938h). “A contribution to the chromosome structure and behaviour.”Cellule, pp. 219–25.
—— (1938i). “The problem of the haploidy in the light of researches uponNicotiana haploids.”Genetica Proc. Indian Acad. Sci., Bangalore, B,8, 11–44.
-- (1938j). “Recent advances in interspecific hybridization.” (In the Press.)
-- (1938k). “Directed heritable variations conditioned by euploid chromosome alterations.”J. Genet. (in the Press).
Kostoff, D. &Axamitnaya, I. (1935a). “Studies on polyploid plants. IX. Chemical analysis of diploid and their tetraploid plants.”C.R. Acad. Sci. U.R.S.S., nos. 3–4, pp. 293–7.
—— —— (1935b). “Studies on polyploid plants. VII. Chemical analysis ofF 1 hybrids and their amphidiploids.”C.R. Acad. Sci. U.R.S.S.,1, no. 5, pp. 325–9.
Kostoff, D. &Kendall, J. (1929). “Studies on the structure and development of certainCynipid galls.”Biol. Bull. Wood’s Hole,56, 402–59.
—— —— (1930). “Cytology of Nematode galls onNicotiana roots.”Zbl. Bakt.,II Abt.81, 86–91.
—— —— (1932). “Origin of a tetraploid shoot from the region of a tumour on tomato.”Science,76, 144.
—— —— (1933). “Studies on plant tumours and polyploidy produced by bacteria and other agents.”Arch. Mikrobiol. 4, 487–508.
—— —— (1937). “Studies on polyploid plants. III. Cytogenetics of tetraploid tomatoes.”Gartenbauwiss. 9, 20–44.
Kostoff, D. & Orlov, A. (1938). “The size of the chloroplasts in euploid plants.”Ann. Bot., Lond. (in the Press).
Kostoff, D. &Pavloff, K. (1931). “Cytogenetic studies of the hybridsN. glutinosa × N. Rusbyi andN. glauca × N. paniculata.”Svedenia po Zemledelieto,12, 151–8.
Kostoff, D. &Prokofieva, A. (1935). “Studies on pollen-tubes. I. The growth potency of the pollen tubes inNicotiana in connexion with the length of the styles and some other factors.”Bull. Inst. Genet. Acad. Sci. U.R.S.S. 10, 65–82.
Levan, A. (1938). “The effect of colchicine on root mitosis in Allium.”Hereditas, Lund.,24, 471–86.
Levine, M. (1936). “Plant tumours and their relation to cancer.”Bot. Rev. 2, 439–55.
Lewitzky, G. A. &Benetzkaya, G. K. (1929). “Cytological investigations of constant intermediate rye-wheat hybrids.”Proc. U.R.S.S. Congr. Genet. 2, 345–52.
Lock, R. H. (1909). “A preliminary survey of species crosses in the genusNicotiana from the Mendelian standpoint.”Ann. Roy. Bot. Gdn,4, 195–227.
Ludford, R. J. (1936). “The action of toxic substances upon the division of normal and malignant cells in vitro and in vivo.”Arch. exp. Zellforsch. 18, 411–41.
Muller, H. J. &Gershenson, S. M. (1935). “Inert regions of chromosomes as the temporary products of individual genes.”Proc. nat. Acad. Sci., Wash.,21, 69–75.
Müntzing, A. (1932a). “Apomictic and sexual formation inPoa.”Hereditas, Lund,17, 131–54.
—— (1932b). “Cytogenetic investigations on syntheticGaleopsis.”Hereditas, Lund.,16, 105–54.
—— (1934). “Chromosome fragmentation in aCrepis hybrid.”Hereditas, Lund,19, 284–302.
—— (1935). “Chromosome behaviour in someNicotiana hybrids.”Hereditas, Lund,20, 251–72.
—— (1936). “The evolutionary significance of autopolyploidy.”Hereditas, Lund,21, 263–378.
Navashin, M. (1938). “The influence of acenaphthene upon nucleus and cell division.”C.R. Acad. Sci. U.R.S.S. 19, 185–8.
Painter, T. S. (1933). “A new method for study of chromosome rearrangements and the plotting of chromosome maps.”Science,78, 585–6.
Painter, T. S. &Stone, W. (1935). “Chromosome fusion and speciation in Drosophilae.”Genetics,20, 227–341.
Poole, C. F. (1932). “The interspecific hybrid,Crepis rubra × C. foetida and some of its derivatives.”Univ. Calif. Publ. agric. Sci. 6, 231–55.
Pratassenya, G. D. (1935). “Polyploid plants, obtained by regeneration” (Russian).Trans. Nikita Bot. Gdn,19, 1–19.
Prokofieva, A. (1935). “Morphologische Struktur der Chromosomen vonDrosophila melanogaster.”Z. Zellforsch. 22, 255–62.
Prokofieva, A. (1935). “The structure of the chromocenter.”Cytologia, Tokyo,4, 438–43.
Prokofieva-Belgovskaya, A. (1937). “Observations on the structure of chromosomes in the salivary glands ofDrosophila.”Bull. Acad. Sci. U.R.S.S. pp. 394–426.
-- (1937). “Inert regions in the distal ends ofDrosophila melanogaster.”Bull. Acad. Sci. U.R.S.S. pp. 719–24.
Rosanova, M. A. (1938). “O polymorphnom vosniknovenii vidov.”C.R. Acad. Sci. U.R.S.S. 18, 681–3.
Richharia, R. H. (1937). “Cytological investigation ofRaphanus sativus, Brassica oleracea and theirF 1 andF 2 hybrids.”J. Genet. 34, 19–44.
Rybin, W. A. (1936). “Spontane und experimentell erzeugte Bastarde zwischen Schwarzdorn und Kirschpflaume und das Abstammungsproblem der Kulturpflaume.”Plania,25, 22–58.
Sarana, M. O. (1934). “On the karyology of the genusNicotiana.”Researches in Genetics and Selection of Tobacco Plant, Krasnodar, pp. 179–90.
Shmuck, A. (1938). “On the chemical nature of substances inducing polyploidy in plants.”C.R. Acad. Sci. U.R.S.S. 19, 181–4.
Stein, E. (1930). “Weitere Mitteilung über die durch Radiumbestrahlung induzierten Gewebe-Entartungen inAntirrhinum (Phytokarzinome) und ihr erbliches Verhalten. (Somatische Induktionen und Erblichkeit.)”Biol. Zbl. 50, 129–58.
—— (1930). “Über karzinomähnliche, erbliche Gewebeentartung inAntirrhinum (Löwenmaul) dem Soma durch Radiumbestrahlung induziert.”Strahlentherapie,37, 137–41.
—— (1932). “Zur Entstehung und Vererbung der durch Radiumbestrahlung erzeugten Phytokarzinome.”Z. indukt. Abstamm.- u. VererbLehre,62, 1–11.
Stein, R. (1932). “Über den durch Radiumbestrahlung von Embryonen erzeugten erblichen Krankheitskomplex der Phytokarzinome vonAntirrhinum majus.”Phytopath. Z. 4, 523–38.
Stein, E. &Weihe, M. (1937). “Weitere Analyse der somatisch induzierten Erbänderungen vonAntirrhinum majus (Gruppe A und B) und der darin enthaltenen Anlagen für Krebsentartung.”Z. indukt. Abstamm.- u. VererbLehre,72, 519–39.
Stern, C. (1936). “Somatic crossing-over and segregation inDrosophila melanogaster.”Genetics,21, 625–730.
Tischler, G. (1935). “Die Bedeutung der Polyploidie für die Verbreitung der Angiospermen.”Bot. Jb. 67, 1–36.
Vilmorin, R. &Simonet, M. (1928). “Recherches sur le nombre des chromosomes chez les solanees.”Verh. V Intern. Kongress Vererbgswiss, Berlin,2, 1520–36.
Walker, R. I. (1938). “The effect of colchicine on somatic cells ofTradescantia paludosa.”J. Arnold Arbor. 19, 158–62.
Wenrich, D. H. (1916). “The Spermatogenesis ofPhrynotettix magnus, etc.”Bull. Mus. Comp. Zool., Harvard,60.
Whitaker, T. W. (1934). “The occurrence of tumours on certainNicotiana hybrids.”J. Arnold Arbor. 15, 144–53.
Winge, O. (1917). “The chromosomes. Their numbers and general importance.”C.R. Trav. Carlsberg,13, 131–275.
Wulff, E. V. (1937). “Polyploidy and geographical distribution of plants.”Recent Advances in Biol. (Russian),17, 161–97.
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Kostoff, D. Studies on polyploid plants. Journ. of Genetics 37, 129–209 (1938). https://doi.org/10.1007/BF02982147
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DOI: https://doi.org/10.1007/BF02982147