Conserved sequence-tagged sites: a phylogenetic approach to genome mapping

R Mazzarella; V Montanaro; J Kere; R Reinbold; A Ciccodicola; M D'Urso; D Schlessinger

doi:10.1073/pnas.89.9.3681

. 1992 May 1;89(9):3681–3685. doi: 10.1073/pnas.89.9.3681

Conserved sequence-tagged sites: a phylogenetic approach to genome mapping.

R Mazzarella ¹, V Montanaro ¹, J Kere ¹, R Reinbold ¹, A Ciccodicola ¹, M D'Urso ¹, D Schlessinger ¹

PMCID: PMC525554 PMID: 1570287

Abstract

Cognate sites in genomes that diverged approximately 100 million years ago can be detected by PCR assays based on primer pairs from unique sequences. The great majority of such syntenically equivalent sequence-tagged sites (STSs) from human DNA can be used to assemble and format corresponding maps for other primates, and some based on gene sequences are shown to be useful for mouse and rat as well. Universal genomic mapping strategies may be possible by using sets of STSs common to many mammalian species.

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Selected References

These references are in PubMed. This may not be the complete list of references from this article.

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Wu C. I., Li W. H. Evidence for higher rates of nucleotide substitution in rodents than in man. Proc Natl Acad Sci U S A. 1985 Mar;82(6):1741–1745. doi: 10.1073/pnas.82.6.1741. [DOI] [PMC free article] [PubMed] [Google Scholar]
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[OCR_00913] Abidi F. E., Wada M., Little R. D., Schlessinger D. Yeast artificial chromosomes containing human Xq24-Xq28 DNA: library construction and representation of probe sequences. Genomics. 1990 Jul;7(3):363–376. doi: 10.1016/0888-7543(90)90170-y. [DOI] [PubMed] [Google Scholar]

[OCR_00949] Adams M. D., Kelley J. M., Gocayne J. D., Dubnick M., Polymeropoulos M. H., Xiao H., Merril C. R., Wu A., Olde B., Moreno R. F. Complementary DNA sequencing: expressed sequence tags and human genome project. Science. 1991 Jun 21;252(5013):1651–1656. doi: 10.1126/science.2047873. [DOI] [PubMed] [Google Scholar]

[OCR_00991] Albertsen H. M., Abderrahim H., Cann H. M., Dausset J., Le Paslier D., Cohen D. Construction and characterization of a yeast artificial chromosome library containing seven haploid human genome equivalents. Proc Natl Acad Sci U S A. 1990 Jun;87(11):4256–4260. doi: 10.1073/pnas.87.11.4256. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00987] Anand R., Villasante A., Tyler-Smith C. Construction of yeast artificial chromosome libraries with large inserts using fractionation by pulsed-field gel electrophoresis. Nucleic Acids Res. 1989 May 11;17(9):3425–3433. doi: 10.1093/nar/17.9.3425. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00907] Borsani G., Tonlorenzi R., Simmler M. C., Dandolo L., Arnaud D., Capra V., Grompe M., Pizzuti A., Muzny D., Lawrence C. Characterization of a murine gene expressed from the inactive X chromosome. Nature. 1991 May 23;351(6324):325–329. doi: 10.1038/351325a0. [DOI] [PubMed] [Google Scholar]

[OCR_01005] Capecchi M. R. Altering the genome by homologous recombination. Science. 1989 Jun 16;244(4910):1288–1292. doi: 10.1126/science.2660260. [DOI] [PubMed] [Google Scholar]

[OCR_00965] Dybczynski I., Plucienniczak A. A protocol for DNA fragment extraction from polyacrylamide gels. Biotechniques. 1988 Nov-Dec;6(10):924–926. [PubMed] [Google Scholar]

[OCR_00977] Easteal S. The pattern of mammalian evolution and the relative rate of molecular evolution. Genetics. 1990 Jan;124(1):165–173. doi: 10.1093/genetics/124.1.165. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00885] Fitch D. H., Bailey W. J., Tagle D. A., Goodman M., Sieu L., Slightom J. L. Duplication of the gamma-globin gene mediated by L1 long interspersed repetitive elements in an early ancestor of simian primates. Proc Natl Acad Sci U S A. 1991 Aug 15;88(16):7396–7400. doi: 10.1073/pnas.88.16.7396. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00881] Fitch D. H., Mainone C., Goodman M., Slightom J. L. Molecular history of gene conversions in the primate fetal gamma-globin genes. Nucleotide sequences from the common gibbon, Hylobates lar. J Biol Chem. 1990 Jan 15;265(2):781–793. [PubMed] [Google Scholar]

[OCR_01011] Gillespie J. H. The molecular clock may be an episodic clock. Proc Natl Acad Sci U S A. 1984 Dec;81(24):8009–8013. doi: 10.1073/pnas.81.24.8009. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00945] Green E. D., Olson M. V. Systematic screening of yeast artificial-chromosome libraries by use of the polymerase chain reaction. Proc Natl Acad Sci U S A. 1990 Feb;87(3):1213–1217. doi: 10.1073/pnas.87.3.1213. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00963] Hillier L., Green P. OSP: a computer program for choosing PCR and DNA sequencing primers. PCR Methods Appl. 1991 Nov;1(2):124–128. doi: 10.1101/gr.1.2.124. [DOI] [PubMed] [Google Scholar]

[OCR_00983] Hochgeschwender U., Brennan M. B. Identifying genes within the genome: new ways for finding the needle in a haystack. Bioessays. 1991 Mar;13(3):139–144. doi: 10.1002/bies.950130308. [DOI] [PubMed] [Google Scholar]

[OCR_00994] Larin Z., Monaco A. P., Lehrach H. Yeast artificial chromosome libraries containing large inserts from mouse and human DNA. Proc Natl Acad Sci U S A. 1991 May 15;88(10):4123–4127. doi: 10.1073/pnas.88.10.4123. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00959] Lee A. S., Bell J., Ting J. Biochemical characterization of the 94- and 78-kilodalton glucose-regulated proteins in hamster fibroblasts. J Biol Chem. 1984 Apr 10;259(7):4616–4621. [PubMed] [Google Scholar]

[OCR_00890] Li W. H., Gouy M., Sharp P. M., O'hUigin C., Yang Y. W. Molecular phylogeny of Rodentia, Lagomorpha, Primates, Artiodactyla, and Carnivora and molecular clocks. Proc Natl Acad Sci U S A. 1990 Sep;87(17):6703–6707. doi: 10.1073/pnas.87.17.6703. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00900] Lyon M. F. The William Allan memorial award address: X-chromosome inactivation and the location and expression of X-linked genes. Am J Hum Genet. 1988 Jan;42(1):8–16. [PMC free article] [PubMed] [Google Scholar]

[OCR_00894] Nadeau J. H. Maps of linkage and synteny homologies between mouse and man. Trends Genet. 1989 Mar;5(3):82–86. doi: 10.1016/0168-9525(89)90031-0. [DOI] [PubMed] [Google Scholar]

[OCR_00917] Nelson D. L., Ledbetter S. A., Corbo L., Victoria M. F., Ramírez-Solis R., Webster T. D., Ledbetter D. H., Caskey C. T. Alu polymerase chain reaction: a method for rapid isolation of human-specific sequences from complex DNA sources. Proc Natl Acad Sci U S A. 1989 Sep;86(17):6686–6690. doi: 10.1073/pnas.86.17.6686. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00927] Olson M., Hood L., Cantor C., Botstein D. A common language for physical mapping of the human genome. Science. 1989 Sep 29;245(4925):1434–1435. doi: 10.1126/science.2781285. [DOI] [PubMed] [Google Scholar]

[OCR_00998] Petrini J. H., Huwiler K. G., Weaver D. T. A wild-type DNA ligase I gene is expressed in Bloom's syndrome cells. Proc Natl Acad Sci U S A. 1991 Sep 1;88(17):7615–7619. doi: 10.1073/pnas.88.17.7615. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00922] Riley J., Butler R., Ogilvie D., Finniear R., Jenner D., Powell S., Anand R., Smith J. C., Markham A. F. A novel, rapid method for the isolation of terminal sequences from yeast artificial chromosome (YAC) clones. Nucleic Acids Res. 1990 May 25;18(10):2887–2890. doi: 10.1093/nar/18.10.2887. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00969] Sanger F., Nicklen S., Coulson A. R. DNA sequencing with chain-terminating inhibitors. Proc Natl Acad Sci U S A. 1977 Dec;74(12):5463–5467. doi: 10.1073/pnas.74.12.5463. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00931] Schlessinger D., Little R. D., Freije D., Abidi F., Zucchi I., Porta G., Pilia G., Nagaraja R., Johnson S. K., Yoon J. Y. Yeast artificial chromosome-based genome mapping: some lessons from Xq24-q28. Genomics. 1991 Dec;11(4):783–793. doi: 10.1016/0888-7543(91)90001-u. [DOI] [PubMed] [Google Scholar]

[OCR_00973] Wu C. I., Li W. H. Evidence for higher rates of nucleotide substitution in rodents than in man. Proc Natl Acad Sci U S A. 1985 Mar;82(6):1741–1745. doi: 10.1073/pnas.82.6.1741. [DOI] [PMC free article] [PubMed] [Google Scholar]

[OCR_00939] Zoghbi H. Y., Jodice C., Sandkuijl L. A., Kwiatkowski T. J., Jr, McCall A. E., Huntoon S. A., Lulli P., Spadaro M., Litt M., Cann H. M. The gene for autosomal dominant spinocerebellar ataxia (SCA1) maps telomeric to the HLA complex and is closely linked to the D6S89 locus in three large kindreds. Am J Hum Genet. 1991 Jul;49(1):23–30. [PMC free article] [PubMed] [Google Scholar]

[OCR_00960] Zon L. I., Tsai S. F., Burgess S., Matsudaira P., Bruns G. A., Orkin S. H. The major human erythroid DNA-binding protein (GF-1): primary sequence and localization of the gene to the X chromosome. Proc Natl Acad Sci U S A. 1990 Jan;87(2):668–672. doi: 10.1073/pnas.87.2.668. [DOI] [PMC free article] [PubMed] [Google Scholar]

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Conserved sequence-tagged sites: a phylogenetic approach to genome mapping.

R Mazzarella

V Montanaro

J Kere

R Reinbold

A Ciccodicola

M D'Urso

D Schlessinger

Abstract

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Conserved sequence-tagged sites: a phylogenetic approach to genome mapping.

R Mazzarella

V Montanaro

J Kere

R Reinbold

A Ciccodicola

M D'Urso

D Schlessinger

Abstract

Full text

Images in this article

Selected References

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