Journal ArticleDOI
Chromosome banding in evolutionary plant cytogenetics
U C Lavania,A K Sharma +1 more
- Vol. 92, Iss: 1, pp 51-79
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TLDR
The introduction of chromosome banding techniques for linear differentiation of chromosomes have allowed the identification of the heterochromatic segments on the chromosomes, which have been utilized for inter- and intra-species comparisons and the probable phylogenetic relationships in various plant taxa from Gymnosperms, Angiosperms have been suggested.Abstract:
The introduction of chromosome banding techniques for linear differentiation of chromosomes have allowed the identification of the heterochromatic segments on the chromosomes. These heterochromatic segments are primarily composed of repetitive DNA, which are discernible in the form of dark staining regions by Giemsa C band staining or exhibit enhanced or reduced fluorescent bands by Q banding techniques depending upon the particular type of DNA repetition. The analyses of banding patterns have allowed in plants, the identification of chromosomes or parts of chromosomes, which have been utilized for inter- and intra-species comparisons. Based on the information of banding patterns, amount and distribution of heterochromatic segments, coupled with karyotypic features and morphological similarities; the probable phylogenetic relationships in various plant taxa from Gymnosperms, Angiosperms (both dicots and monocots) have been suggested. The information on heterochromatin recognition have also been utilized in suggesting probable ancestry of polyploids and the trend of evolution in varietal differentiation and speciation. Analysing the data, a probable phylogenetic significance and the direction of change in heterochromatin evolution in plants is suggested.read more
Citations
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Evidence for transposition of dispersed repetitive DNA families in yeast [Saccharomyces cerevisiae]
J.R. Cameron,E.Y. Loh,R.W. Davis +2 more
TL;DR: In this paper, Dispersed repetitive DNA sequences from yeast (Saccharomyces cerevisiae) nuclear DNA have been isolated as molecular hybrids in lambdagt and showed marked alterations in the size of the restriction fragments containing these repetitive DNAs.
Journal ArticleDOI
Chromosome banding patterns in the annual species of Cicer.
TL;DR: There seemed to be a trend for reduction in C-heterochromatin content in the course of evolution in Cicer, and C-banding patterns allowed for chromosome identification and matching pairs of homologues in all species analyzed.
Book ChapterDOI
Some aspects of plant karyology and karyosystematics.
TL;DR: The significance of the 4C value (where C is the amount of DNA in the unreplicated haploid genome) in angiosperm plants is discussed and some rules governing the distribution of DNA amount among different plant taxa are postulated.
Journal ArticleDOI
Chromosome change and karyotype differentiation–implications in speciation and plant systematics
TL;DR: In this article, a detailed account of experimental parameters useful in chromosome identification and evaluation of karyotype asymmetry is furnished citing suitable examples, and special emphasis is given to the quantitative parameter of "chromosome dispersion index" that promises phylogenetic differentiation of closely related karyotypes.
Journal ArticleDOI
Interphase nuclear structure and heterochromatin in Cicer species
G Kabir,G Kabir,R. M. Singh +2 more
TL;DR: Interphase nuclear organization was studied in six species of Cicer and all the species showed chromocentric nuclear organization in both meristematic and differentiated cells instead of reticulate organization, which can be considered as primitive of the six Cicer species.
References
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Journal ArticleDOI
The mechanism of C- and G-banding of chromosomes
TL;DR: The combined use of acridine orange and Giemsa staining indicate that neither C- nor G-banding depends upon the differential renaturation of DNA for its effect, and repetitious DNA in situ renatures in seconds while non-repetitious DNA renature in minutes.
Journal ArticleDOI
Quinacrine, A Chromosome Stain Specific for Deoxyadenylate-Deoxythymidylate-Rich Regions in DNA
TL;DR: The data suggest that base-pairs composed of AT (rather than GC) residues are responsible for the observed fluorescence of specific chromosome regions after treatment with quinacrine, and support the proposal of Ellison and Barr that the highly localized qu inacrine fluorescence in their cytological preparations reflects the presence of DNA that has a high (A + T)/(G + C) ratio.
Journal ArticleDOI
Morphological evidence concerning the origin of the b genome in wheat
TL;DR: In order to discover an unknown parent involved in the phylogeny of an allopolyploid, the method of genome analysis can be used only by a process of trial and error, and chromosome pairing in the hybrids between tetraploid wheat and its supposed diploid relatives has not clarified the relationship of the B genome.
Journal ArticleDOI
Transposition of elements of the 412, copia and 297 dispersed repeated gene families in drosophila
TL;DR: A DNA sequence arrangement found in the D. melanogaster embryo genome appears to result from a transposition of an element of the copia dispersed repeated gene family into a new chromosomal site.