Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. SI Warlick, LD Black. Evaluation of the subtribes Moricandidae, Savignyinae, Vellinae, and Zillinae (Brassi-
    caceae, tribe Brassiceae) using chloroplast DNA restriction site variation. Can J Bot 72:1692–1701, 1994.

  2. RK Saiki, S Scharf, E Faloona, KB Mullis, GT Horn, HA Erlich, N Arnheim. Enzymatic amplification of B*
    globin genomic sequences and restriction site analysis for diagnosis of sickle cell anemia. Science 230:1350,
    1985.

  3. OP Rajora, BP Dancik. Chloroplast DNA variation in Populus. I. Intraspecific restriction fragment diversity
    withinPopulus deltoides,P. nigraandP. maximowiczii. Theor Appl Genet 90:317–323, 1995.

  4. OP Rajora, BP Dancik. Chloroplast DNA variation in Populus. II. Interspecific restriction fragment polymor-
    phisms and genetic relationships among Populus deltoides,P. maximowicziiandP. X canadensis. Theor Appl
    Genet 90:324–330, 1995.

  5. OP Rajora, BP Dancik. Chloroplast DNA variation in Populus. III. Novel chloroplast DNA variants in natural
    P. X canadensishybrids. Theor Appl Genet 90:331–334, 1995.

  6. FR Muza, DJ Lee, DJ Andrews, SC Gupta. Mitochondrial DNA variation in finger millet (Eleusine coracana
    L. Gaertn). Euphytica 81:199–205, 1995.

  7. H Luo, B Van Coppenolle, M Sequin, M Boutry. Mithochondrial DNA polymorphism and phylogenic rela-
    tionships in Hevea brasiliensis. Mol Breed 1:51–63, 1995.

  8. AJ Lohan, KH Wolfe. A subset of conserved tRNA genes in plastid DNA of nongreen plants. Genetics
    150:425–433, 1998.

  9. B Beyermann, P Nurnberg, A Weihe, M Meixner, JT Epplen, T Borner. Fingerprinting plant genomes with
    oligonucleotide probes specific for some repetitive DNA sequences. Theor Appl Genet 83:691–694, 1992.

  10. NA Tinker, MG Fortin, DE Mather. Random amplified polymorphic DNA and pedigree relationships in spring
    barley. Theor Appl Genet 85:976–984, 1993.

  11. JI Stiles, C Lemme, S Sondur, MB Morshidi, R Manshardt. Using randomly amplified polymorphic DNA for
    evaluating genetic relationships among papaya cultivars. Theor Appl Genet 85:697–701, 1993.

  12. B Koller, A Lehmenn, JM McDermott, C Gessler. Identification of apple cultivars using RAPD markers. Theor
    Appl Genet 85:901–904, 1993.

  13. LX Yu, HT Nguyen. Genetic variation detected with RAPD markers among upland and lowland rice cultivars
    (Oryza sativaL.). Theor Appl Genet 87:668–672, 1994.

  14. RJ Mailer, R Scarth, B Fristensky. Discrimination among cultivars of rape-seed (Brassica napusL.) using
    DNA polymorphisms amplified from arbitrary primers. Theor Appl Genet 87:697–704, 1994.

  15. K Sossey-Alaoui, H Serieys, M Tersac, P Lambert, E Schilling, E Griveau, F Kaan, A Berville. Evidence for
    several genomes in Helianthus. Theor Appl Genet 97:422–430, 1998.

  16. JGK Williams, AR Kubelik, KJ Livak, JA Rafalski, SV Tingey. DNA polymorphisms amplified by arbitrary
    primers are useful as genetic markers. Nucleic Acids Res 18:6531, 1990.

  17. JGK Williams, MK Hanafey, JA Rafalski, SV Tingey. 1993 Genetic analysis using random amplified poly-
    morphic DNA markers. Methods Enzymol 218:704–740, 1993.

  18. P Hedrick. Shooting the RAPDs. Nature 355:679–680, 1992.

  19. G Penner, et al. Reproducibility of random amplified polymorphic DNA (RAPD) analysis among laboratories.
    PCR Methods Appl 2:341–345, 1993.

  20. FK Yu, VA Deynze, PK Pauls. Random amplified polymorphic DNA. In: BR Glick, JE Thompson, eds. Meth-
    ods in Plant Molecular Biology and Biotechnology. Boca Raton, FL: CRC Press, 1993, pp 287–301.

  21. N Katzir, V Portnoy, G Tzuri, M Castejon-Munoz, DM Joel. Use of random amplified polymorphic DNA
    (RAPD) markers in the study of the parasitic weed Orobanche. Theor Appl Genet 93:367–372, 1996.

  22. SB Landry. DNA mapping in plants. In: BR Glick, JE Thompson, eds. Methods in Plant Molecular Biology
    and Biotechnology. Boca Raton, FL: CRC Press, 1993, pp 269–285.

  23. T Millan, S Cobos, AM Torres. The use of molecular markers in Orobanche. In: MT Moreno, JI Cubero, eds.
    Advances in Parasitic Plants Research. Proceedings 6th International Symposium Parasitic Plants Cordoba,
    Spain, 1996, pp 161–166.

  24. P Delavault. Plastid genome evolution in Orobanchaceae and other holo-parasites. In: AH Pieterse, JAC
    Verkleij, SJ ter Borg, eds. Biology and Management of Orobanche. Amsterdam: Royal Tropical Institute,
    1994, pp 80–93.

  25. CW dePamphilis. Genes and genomes. In: MC Press, JD Graves, eds. Parasitic plants. London: Chapman &
    Hall, 1995, pp 177–205.

  26. DL Nickerent, EM Starr. High rates of nucleotide substitution in nuclear small subunit (18 S) rDNA from
    holoparastitic flowering plants J Mol Evol 39:62–70, 1993.

  27. DL Nickrent, Y Ouyang, R Joel Duff, CW dePamphilis. Do nonasterid holoparasitic flowering plants have
    plastid genomes? Plant Mol Biol 34:717–729, 1997.

  28. DL Nickrent, R Joel Duff. Molecular studies of parasitic plants using ribosomal RNA. In: MT Moreno, JI
    Cubero, eds. Advances in Parasitic Plants Research. Proceedings 6th International Symposium Parasitic Plants,
    Cordoba, Spain, 1996, pp 28–52.

  29. DG Searcy. Measurements by DNA hybridization in vitro of the genetic basis of parasitic reduction. Evolution
    24:207–219, 1970.

  30. G Haberhausen, K Valentin, K Zetsche. Organization and sequence of photosynthetic genes from the plastid
    genome of the holoparasitic flowering plant Cuscuta reflexa. Mol Genet 232:154–161, 1992.


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