Concerted evolution of alpha satellite DNA: Evidence for species specificity and a general lack of sequence conservation among alphoid sequences of higher primates (original) (raw)
Access this article
Subscribe and save
- Get 10 units per month
- Download Article/Chapter or eBook
- 1 Unit = 1 Article or 1 Chapter
- Cancel anytime Subscribe now
Buy Now
Price excludes VAT (USA)
Tax calculation will be finalised during checkout.
Instant access to the full article PDF.
References
- Aleixandre C, Miller DA, Mitchell AR, Warburton DA, Gersen SL, Disteche C, Miller OJ (1987) p82H identifies sequences at every human centromere. Hum Genet 77:46–50
Google Scholar - Alexandrov IA, Mitkevich SP, Yurov YB (1988) The phytogeny of human chromosome specific alpha satellites. Chromosoma 96:443–453
Google Scholar - Delattre O, Bernard A, Malfoy B, Marlhens F, Viegas-Pequignot E, Brossard C, Haguenauer O, Creau-Goldberg N, N'Guyen Van Cong, Dutrillaux B, Thomas G (1988) Studies on the human chromosome 3 centromere with a newly cloned alphoid DNA probe. Hum Hered 38:156–167
Google Scholar - Devilee P, Kievits T, Waye JS, Pearson PL, Willard HF (1988) Chromosome-specific alpha satellite DNA: isolation and mapping of a polymorphic alphoid repeat from human chromosome 10. Genomics 3:1–7
Google Scholar - Donehower L, Gillespie D (1979) Restriction site periodicities in highly repetitive DNA of primates. J Mol Biol 134:805–834
Google Scholar - Dover G (1982) Molecular drive: a cohesive mode of species evolution. Nature 299:111–116
Google Scholar - Gray KM, White JW, Costanzi C, Gillespie D, Schroeder WT, Calabretta B, Saunders GF (1985) Recent amplification of an alpha satellite DNA in humans. Nucleic Acids Res 13:521–535
Google Scholar - Greig GM, England SB, Bedford HM, Willard HF (1989) Chromosome-specific alpha satellite DNA from the centromere of human chromosome 16. Am J Hum Genet (in press)
- Hulsebos T, Schonck D, van Dalen I, Coerwinkel-Driessen M, Schepens J, Ropers HH, Wieringa B (1988) Isolation and characterization of alphoid DNA sequences specific for the pericentric regions of chromosomes 4, 5, 9, and 19. Cytogenet Cell Genet 47:144–148
Google Scholar - Jorgensen AL, Bostock CJ, Bak AL (1986) Chromosome-specific subfamilies within human alphoid repetitive DNA. J Mol Biol 187:185–196
Google Scholar - Jorgensen AL, Jones C, Bostock CJ, Bak AL (1987) Different subfamilies of alphoid repetitive DNA are present on the human and chimpanzee homologous chromosomes 21 and 22. EMBO J 6:1691–1696
Google Scholar - Madhani HD, Leadson SA, Smith CA, Hanawalt PC (1986) Alpha DNA in african green monkey cells is organized into extremely long tandem arrays. J Biol Chem 261:2314–2318
Google Scholar - Maio JJ (1971) DNA strand reassociation and polyribonucleotide binding in the african green monkey, Cercopithecus aethiops. J Mol Biol 56:579–595
Google Scholar - Maio JJ, Brown FL, Musich PR (1981) Toward a molecular paleontology of primate genomes: the HindIII and EcoRI families of alphoid DNAs. Chromosoma 83:103–125
Google Scholar - Manuelidis L (1978) Chromosomal location of complex and simple repeated human DNAs. Chromosoma 66:23–32
Google Scholar - Miller DA (1977) Evolution of primate chromosomes. Science 198:1116–1124
Google Scholar - Miller DA, Sharma V, Mitchell AR (1988) A human-derived probe, p82H, hybridizes to the centromeres of gorilla, chimpanzee, and orangutan. Chromosoma 96:270–274
Google Scholar - Mitchell AR, Gosden JR, Miller DA (1985) A cloned sequence, p82H, of alphoid repeated DNA found at the centromeres of human chromosomes. Chromosoma 92:369–377
Google Scholar - Musich PR, Brown FL, Maio JJ (1980) Highly repetitive component alpha and related alphoid DNAs in man and monkeys. Chromosoma 80:331–348
Google Scholar - Pike LM, Carlisle A, Newell C, Hong SB, Musich PR (1986) Sequence and evolution of rhesus monkey alphoid DNA. J Mol Evol 23:127–137
Google Scholar - Prassolov VS, Kuchino Y, Nemoto K, Nishimura S (1986) Nucleotide sequence of the BamHI repetitive sequence from the Japanese monkey Macaca fuscata. J Mol Evol 23:200–204
Google Scholar - Rosenberg H, Singer M, Rosenberg M (1978) Highly reiterated sequences of simiansimiansimiansimiansimian. Science 200:394–402
Google Scholar - Singer D, Donehower L (1979) Highly repeated DNA of the baboon: organization of the sequences homologous to the highly repeated DNA of the african green monkey. J Mol Biol 134:835–842
Google Scholar - Strachan T, Webb D, Dover GA (1985) Transition stages of molecular drive in multiple-copy DNA families in Drosophila. EMBO J 4:1701–1708
Google Scholar - Thayer RE, Singer MF, McCutchan TF (1981) Sequence relationships between single repeat units of highly reiterated african green monkey DNA. Nucleic Acids Res 9:169–181
Google Scholar - Waye JS, Willard HF (1985) Chromosome-specific alpha satellite DNA: nucleotide sequence analysis of the 2.0 kilobasepair repeat from the human X chromosome. Nucleic Acids Res 13:2731–2743
Google Scholar - Waye JS, Willard HF (1986) Structure, organization, and sequence of alpha satellite DNA from human chromosome 17: evidence for evolution by unequal crossing-over and an ancestral pentamer repeat shared with the human X chromosome. Mol Cell Biol 6:3156–3165
Google Scholar - Waye JS, Willard HF (1987) Nucleotide sequence heterogeneity of the alpha satellite repetitive DNA family: a survey of alphoid sequences from different human chromosomes. Nucleic Acids Res 15:7549–7569
Google Scholar - Waye JS, Willard HF (1989) Chromosome specificity of satellite DNAs: short- and long-range organization of a diverged dimeric subset of human alpha satellite from chromosome 3. Chromosoma 97:475–480
Google Scholar - Waye JS, Creeper LA, Willard HF (1987a) Organization and evolution of alpha satellite DNA from human chromosome 11. Chromosoma 95:182–188
Google Scholar - Waye JS, Durfy SJ, Pinkel D, Kenwrick S, Patterson M, Davies K, Willard HF (1987b) Chromosome-specific alpha satellite DNA from human chromosome 1: hierarchical structure and genomic organization of a polymorphic domain spanning several hundred kilobasepairs of centromeric DNA. Genomics 1:43–51
Google Scholar - Waye JS, England SE, Willard HF (1987c) Genomic organization of chromosome-specific alpha satellite DNA on human chromosome 7: evidence for two distinct alphoid domains on a single chromosome. Mol Cell Biol 7:349–456
Google Scholar - Waye JS, Mitchell AR, Willard HF (1987d) Organization and genomic distribution of “82H” alpha satellite DNA: evidence for a single-copy or low-copy domain located at the centromeric region of human chromosome 14. Hum Genet 78:27–32
Google Scholar - Willard HF (1985) Chromosome-specific organization of human alpha satellite DNA. Am J Hum Genet 37:524–532
Google Scholar - Willard HF, Waye JS (1987a) Hierarchical order in chromosome-specific human alpha satellite DNA. Trends Genet 3:192–198
Google Scholar - Willard HF, Waye JS (1987b) Chromosome-specific subsets of human alpha satellite DNA: analysis of sequence divergence within and between chromosomal subsets and evidence for an ancestral pentameric repeat. J Mol Evol 25:207–214
Google Scholar - Willard HF, Smith KD, Sutherland J (1983) Isolation and characterization of a major tandem repeat family from the human X chromosome. Nucleic Acids Res 11:2017–2033
Google Scholar - Wolfe J, Darling SM, Erickson RP, Craig IW, Buckle VJ, Rigby PW, Willard HF, Goodfellow PN (1985) Isolation and characterization of an alphoid centromeric repeat from the human Y chromosome. J Mol Biol 182:477–485
Google Scholar - Wu JC, Manuelidis L (1980) Sequence definition and organization of a human repeated DNA. J Mol Biol 142:363–386
Google Scholar