A study of the heterotypic prophases in the microsporogenesis of cotton

Beal, J. M.

January 1900

Thesis (Ph. D.)--University of Wisconsin, 1927. / Thesis note stamped on cover. "Reprint from the review 'La Cellule', t. XXXVIII, 2d fascicule." "Literature cited": p. [265]-266.

Karyokinesis. Cotton.

Effects of 8-Azaguanine

Florian, Svatopluk Fred

January 1957

An investigation was made of the effects of the purine analogs, 8-azaguanine, 8-azaxanthine, and 6-mercaptopurine, and the purines adenine and guanine, on cell growth, mitosis, and desoxyribonucleic acid (DNA) synthesis in primary roots of Vicia faba seedlings grown in aerated solutions. Root elongation was used as a measure of cell elongation; mitotic frequency was determined in free cell suspensions prepared from 1 mm-long root tips; the relative content of DNA was determined microspectrophotometrically by the two-wavelength method. It was shown that the balance between root elongation and mitosis in the root tip could be influenced by the amount of aeration and by adenine. Increased aeration stimulated root elongation and depressed mitotic frequency; adenine stimulated mitosis, inhibiting, at the same time, root elongation. 8-azaguanine, in concentrations of 10 p.p.m. and higher, stopped mitosis within 24 hours and greatly reduced root elongation and the fresh and dry weights of roots within 72 hours. This inhibitory effect on both root elongation and mitosis was positively correlated with aeration. 8-azaguanine in a concentration of 1 p.p.m. significantly reduced mitotic frequency but slightly stimulated root elongation. The inhibition of root elongation could be best, though incompletely, reversed by 40 p.p.m. adenine or guanine. The mitotic inhibition could be partially reversed by 40 p.p.m. guanine; adenine, at a concentration of 80 p.p.m., not only completely relieved mitotic inhibition, but increased the mitotic frequency to a level higher than that of the water controls. Concentrations of 6-mercaptopurine and 8-azaxanthine comparable with those of 8-azaguanine had no inhibitory effects. Roots treated with 20 p.p.m. 8-azaguanine for 24 hours and then transferred into 80 p.p.m. adenine showed a higher mitotic frequency than the control within 24 hours after transfer. Roots transferred from 8-azaguanine into water showed some mitosis 48 hours after transfer; in this case mitosis was restricted to the partially differentiated and elongated cells of the provascular bundles. DNA content of interphase nuclei in the controls showed this distribution: a sharp 2C peak (about 65 per cent nuclei), a much lower 4C peak (about 20 per cent nuclei), and intermediates (about fifteen per cent). There were no polyploid nuclei in the apical meristem of the root. The DNA content of chromosomal groups in different mitotic stages demonstrated the accuracy of the two-wavelength method which was used. The DNA content of nuclei in roots treated with 20 p.p.m. 8-azaguanine was distributed in a 2C peak (about 80 per cent nuclei) and a 4C peak (about 20 per cent nuclei). There were no intermediates in treated roots and no nuclei contained a higher amount of DNA than 4C. The percentage of 4C nuclei did not increase with time. From the evidence that the mitotic inhibition induced by 8-azaguanine could be completely reversed within 24 hours by subsequent treatment with adenine, and from the findings concerning the distribution of DNA in inhibited nuclei, it may be concluded that 8-azaguanine was not incorporated into DNA. The possibility that 8-azaguanine exerts its inhibitory effects through interference with ATP metabolism is discussed. / Science, Faculty of / Botany, Department of / Zoology, Department of / Graduate

Karyokinesis

Purines

Studies in nuclear division of Preissia commutata ...

Graham, Margaret,

January 1913

Thesis (Ph. D.)--Cornell University, 1913. / "Reprint from Annals of botany, vol. XXVII, no. CVIII." "Contribution from the Department of botany, Cornell university, no. 154." "Literature cited": p. 677-678.

Karyokinesis. Preissia commutata.

Mitotic frequencies in the ganglia of larval stages of Musca domestica L. and Drino bohemica Mesnil.

Mauer, Irving.

January 1952

Growth is cyclic in nature, periods of activity alternating with periods of comparative rest (PEARL, 1925; WIGGLESWORTH, 1939). Many authors have attempted to construct mathematical expressions for this cyclic growth, in addition to ideal growth curves as an aid in the study of bionomics. Some of these will be dealt with later in this thesis where they prove relevant to the theme. The term “cyclic growth” may be broken down into its constituent parts: (a) it is well known that growth or increase in the bodily dimensions of an animal (or plant) can occur in two main ways, viz. (1) by increase in cell number (cell division); (2) by increase in the size of the cells already present. (Of course, production of cell products may also be considered growth.) The two modes of growth are not mutually exclusive. (b) The definition of “cycle” put forth by KLEITMAN (1949) will be used in this thesis, viz., “A cycle ..... is a repetitive series of events or successive changes of states, thus being either qualitative or quantitative in nature, and its own distinctive feature is one of order of occurrence, rather than duration. Cycles are intrinsic in origin; they may be influenced by inernal and/or external conditions, which affect them quantitatively, but seldom qualitatively.”[...]

Diptera.

Karyokinesis.

Cell cycle.

A comparison of the meiotic prophases in Œnothera lamarckiana and Œnothera hookeri

Weier, T. Elliot

January 1900

Thesis--University of Michigan, 1929. / "Papers from the Department of Botany of the University of Michigan ... n ̊316." "Reprinted from ʻLa Cellule, ̓ vol. XXXIX, fascicule 3, 1930." "Literature cited": p. [31]-34.

Karyokinesis. Chromosomes. Oenothera.

Studier over planterigets chromosomtal og chromosomernes betydning

Winge, Øjvind,

January 1917

Akademisk afhandling--Copenhagen. / "Litteraturfortegnelse": p. [135]-143.

Karyokinesis. Plant cells and tissues.

Genetic tests on low crossover stocks of Drosophila melanogaster

Clemente y de la Rosa, Leopoldo Sudano,

January 1926

Abstract of Thesis (Ph. D.)--University of Illinois, 1923. / Vita.

Karyokinesis. Drosophila melanogaster.

Studier over planterigets chromosomtal og chromosomernes betydning

Winge, Øjvind,

January 1917

Akademisk afhandling--Copenhagen. / "Litteraturfortegnelse": p. [135]-143.

Karyokinesis. Plant cells and tissues.

Heterokaryons of Aspergillus and their application in selected fermentations

Ciegler, Alex,

January 1956

Thesis (Ph. D.)--University of Wisconsin--Madison, 1956. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 105-114).

Karyokinesis. Aspergillus. Fermentation.

Cytological studies on Spironema fragrans Lindl. and certain other Commelinaceae

Wu, Su-hsuen,

January 1900

Thesis--University of Michigan. / Reprinted from Papers of the Michigan Academy of Science, Arts, and Letters, vo. XXVII, 1941. Published 1942. Literature cited: p. 133-135.