Book ChapterDOI
The origin of the wide species variation in nuclear dna content
H Rees,R.N. Jones +1 more
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This chapter discusses the origin of the wide species variation in nuclear DNA content, which is attributable to the amplification or reduction of DNA segments within chromosomes.Abstract:
Publisher Summary This chapter discusses the origin of the wide species variation in nuclear DNA content. Evolution depends upon the selection of phenotypes displaying adaptive changes of a heritable nature. The generation of such phenotypes depends on the alteration of genetic information embodied within the DNA of the chromosomes. As for evolutionary change in DNA amount , there is a progression from low DNA content in primitive phyla, such as bacteria to high DNA content in cells of sophisticated higher plants and animals. The causes of change in DNA amount are illustrated in the chapter. Polyploidy, common in plant groups such as the angiosperms and pteridophytes, is a special case as it involves amplification of all genes and all base sequences of the haploid complement. There is an extensive and widespread variation in DNA amount, which is independent of alteration in chromosome number. This is attributable to the amplification or reduction of DNA segments within chromosomes.read more
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Journal ArticleDOI
Nuclear DNA Amounts in Angiosperms
Michael D. Bennett,J. B. Smith +1 more
TL;DR: This paper lists absolute nuclear DNA amounts for 753 angiosperm species, primarily for reference purposes, and so the species are listed in alphabetical order, as this was felt to be more helpful to cyto- and biochemists whom, it is anticipated, will be among its major users.
Journal ArticleDOI
Nuclear DNA Amounts in Angiosperms
TL;DR: This paper contains a supplementary list of absolute DNA values, including estimates for 240 angiosperm species not listed by Bennett & Smith in 1976, as well as additional estimates for 41 species already listed by them.
Journal ArticleDOI
Nuclear volume control by nucleoskeletal DNA, selection for cell volume and cell growth rate, and the solution of the DNA C-value paradox.
TL;DR: Eukaryote DNA can be divided into genic DNA, which codes for proteins (or serves as recognition sites for proteins involved in transcription, replication and recombination), and nucleoskeletal DNA (S-DNA), which exists only because of its nucleoskeleton role in determining the nuclear volume.
Journal ArticleDOI
Coincidence, coevolution, or causation? DNA content, cell size, and the C-value enigma.
TL;DR: A detailed review of the debate surrounding the C‐value enigma, the various theories proposed to explain it, and the evidence in favour of a causal connection between DNA content and cell size is provided.
Journal ArticleDOI
Genome size and the proportion of repeated nucleotide sequence DNA in plants.
TL;DR: It is concluded that most of the variation in nuclear DNA mass in higher plant chromosomes can be accounted for by variation in repeated-sequence DNA.
References
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Journal ArticleDOI
Variation and Evolution in Plants.
TL;DR: JSTOR is a not-for-profit service that helps scholars, researchers, and students discover, use, and build upon a wide range of content in a trusted digital archive.
Journal ArticleDOI
Repeated Sequences in DNA
Roy J. Britten,D. E. Kohne +1 more
TL;DR: Hundreds of thousands of copies of DNA sequences have been incorporated into the genomes of higher organisms and used in medicine, science, and engineering.
Book
The nucleic acids
Erwin. Chargaff,J. N. Davidson +1 more
TL;DR: Nucleic Acid is a complex biomolecule that stores genetic information in the form of a code that is necessary for life.