Origin of facultative heterochromatin in the endosperm ofGagea lutea (Liliaceae)
暂无分享,去创建一个
[1] E. Pierson,et al. Microtubular organization during asymmetrical division of the generative cell inGagea lutea , 1995, Journal of plant research.
[2] B. Turner,et al. Differential underacetylation of histones H2A, H3 and H4 on the inactive X chromosome in human female cells , 1996, Human Genetics.
[3] W. Friedman. Double fertilization inEphedra trifurca, a non-flowering seed plant: The relationship between fertilization events and the cell cycle , 1991, Protoplasma.
[4] J. Greilhuber. Über die Entwicklung des Embryosacks vonMelampyrum undParentucellia latifolia (Scrophulariaceae, Pedicularieae) , 1973, Österreichische botanische Zeitschrift.
[5] I. Romanov. Die Embryosackentwicklung in der Gattung Gagea Salisb , 1936, Planta.
[6] E. Heitz. Die Herkunft der Chromocentren , 1932, Planta.
[7] Vergleichende Cytologie des Geschlechtsapparates der Kormophyten. Monographien zur vergleichenden Cytologie , 2005, Protoplasma.
[8] J. Greilhuber,et al. Karyotype constancy and genome size variation in BulgarianCrepis foetida s. l. (Asteraceae) , 1999, Plant Systematics and Evolution.
[9] J. Greilhuber,et al. Flow cytometric and Feulgen densitometric analysis of genome size variation in Pisum , 1996, Theoretical and Applied Genetics.
[10] L. Gèitler. Notizen zur endomitotlschen Polyploidisierung in Trichocyten und Elaiosomen sowie über Kernstrukturen bei Gagea lutea , 2004, Chromosoma.
[11] J. Greilhuber. “Self-tanning”—a new and important source of stoichiometric error in cytophotometric determination of nuclear DNA content in plants , 2004, Plant Systematics and Evolution.
[12] W. Friedman,et al. Expression of the cell cycle in sperm of Arabidopsis: implications for understanding patterns of gametogenesis and fertilization in plants and other eukaryotes. , 1999, Development.
[13] K. Ríha,et al. Histone H4 Underacetylation in Plant Facultative Heterochromatin , 1998, Biological chemistry.
[14] J. Greilhuber,et al. GENOME SIZE IN SPHAGNUM (PEAT MOSS) , 1998 .
[15] J. Greilhuber,et al. Structure and DNA methylation pattern of partially heterochromatinised endosperm nuclei in Gagea lutea (Liliaceae) , 1998, Planta.
[16] P. Rudall,et al. Flowering plants. Monocotyledons: Lilianae (except Orchidaceae) , 1998 .
[17] W. Friedman,et al. Double Fertilization in Gnetum gnemon: The Relationship between the Cell Cycle and Sexual Reproduction. , 1995, The Plant cell.
[18] J. Greilhuber,et al. Genome size variation in Pisum sativum. , 1994, Genome.
[19] B. Turner,et al. The inactive X chromosome in female mammals is distinguished by a lack of histone H4 acetylation, a cytogenetic marker for gene expression , 1993, Cell.
[20] Prof. Dr. Brij M. Johri,et al. Comparative Embryology of Angiosperms , 1992, Springer Berlin Heidelberg.
[21] J. Greilhuber,et al. A DNA cytophotometric and chromosome banding study in Hedera helix (Araliaceae), with reference to differential DNA replication associated with juvenile–adult phase change , 1987 .
[22] J. Herr. A NEW CLEARING-SQUASH TECHNIQUE FOR THE STUDY OF OVULE DEVELOPMENT IN ANGIOSPERMS' , 1971 .
[23] A. Rutishauser. Embryologie und Fortpflanzungsbiologie der Angiospermen , 1969 .
[24] L. Gèitler. Morphologie und Entwicklungsgeschichte der Zelle , 1965 .
[25] S. W. Brown,et al. HETEROCHROMATIC CHROMOSOMES IN THE COCCIDS. , 1964, Science.
[26] E. Tschermak-Woess. Strukturtypen der Ruhekerne von Pflanzen und Tieren , 1963 .
[27] M. Lyon. Gene Action in the X-chromosome of the Mouse (Mus musculus L.) , 1961, Nature.
[28] J. Woodard. DNA IN GAMETOGENESIS AND EMBRYOGENY IN TRADESCANTIA , 1956, The Journal of biophysical and biochemical cytology.
[29] M. Barr,et al. A Morphological Distinction between Neurones of the Male and Female, and the Behaviour of the Nucleolar Satellite during Accelerated Nucleoprotein Synthesis , 1949, Nature.