An examination of the population genetics of Laminaria and other brown algae in the laminariales using starch gel electrophoresis
暂无分享,去创建一个
M. Miller | A. Mathieson | R. Eckert | C. Yarish | C. Neefus | H. Baldwin | B. Allen
[1] G. Saunders,et al. Restriction enzyme mapping of the nuclear ribosomal cistron in selected Laminariales (Phaeophyta): a phylogenetic assessment , 1991 .
[2] S. Kephart. Starch gel electrophoresis of plant isozymes : a comparative analysis of techniques , 1990 .
[3] D. Bhattacharya,et al. Morphological and DNA sequence variation in the kelp Costaria costata (Phaeophyta) , 1989 .
[4] D. Bhattacharya,et al. PHYCOGENETIC COMPARISON OF THE SMALL‐SUBUNIT RIBOSOMAL DNA SEQUENCE OF COSTARIA COSTATA (PHAEOPHYTA) WITH THOSE OF OTHER ALGAE, VASCULAR PLANTS AND OOMYCETES 1 , 1988 .
[5] W. Stam,et al. Single-copy DNA-DNA hybridizations among five species ofLaminaria (Phaeophyceae): Phylogenetic and biogeographic implications , 1988, Helgoländer Meeresuntersuchungen.
[6] S. Osawa,et al. Origin and evolution of organisms as deduced from 5S ribosomal RNA sequences. , 1987, Molecular biology and evolution.
[7] E. Rice,et al. An improved method for the extraction and electrophoresis of proteins and active enzymes from fucalean macroalgae (Phaeophyta) , 1987 .
[8] D. Innes. Genetic structure of asexually reproducing Enteromorpha linza (Ulvales: Chlorophyta) in Long Island Sound , 1987 .
[9] D. Innes. Genetic differentiation among populations of marine algae , 1984, Helgoländer Meeresuntersuchungen.
[10] C. Yarish,et al. Genetic evidence for the occurrence of asexual reproduction in populations of Enteromorpha linza (L.) J. Ag. (Chlorophyta, Ulvales) from Long Island Sound , 1984 .
[11] S. Tanksley,et al. Isozymes in Plant Genetics and Breeding , 1983 .
[12] J. Bolton,et al. Hybridization between Atlantic and Pacific representatives of the Simplices section of Laminaria (Phaeophyta) , 1983 .
[13] M. J. Wynne,et al. The Biology of seaweeds , 1982 .
[14] K. Mann,et al. Conversion of the particulate fraction of seaweed detritus to bacterial biomass , 1982 .
[15] A. Mathieson,et al. Morphological and electrophoretic investigations of selected species of Chaetomorpha (Chlorophyta; Cladophorales) , 1982 .
[16] C. Griffiths,et al. The fauna and rate of degradation of stranded kelp , 1981 .
[17] Y. Linhart,et al. Allozyme polymorphisms detected in mature needle tissue of ponderosa pine , 1979 .
[18] K. Mann,et al. Crossing experiments in the non-digitate complex of Laminaria from both sides of the Atlantic , 1978 .
[19] D. Cheney,et al. Biosystematic studies of the red algal genus Eucheuma. I. Electrophoretic variation among Florida populations , 1978 .
[20] F. M. Johnson,et al. Genetic control and racial variation of β-glucosidase isozymes in maize (Zea mays L.) , 1977, Biochemical Genetics.
[21] J. Avise. Systematic Value of Electrophoretic Data , 1974 .
[22] R. Laycock. The detrital food chain based on seaweeds. I. Bacteria associated with the surface of Laminaria fronds , 1974 .
[23] A. Chapman. The genetic basis of morphological differentiation in some Laminaria populations , 1974 .
[24] J. W. Clayton,et al. Amine-Citrate Buffers for pH Control in Starch Gel Electrophoresis , 1972 .
[25] K. Mann,et al. Ecological energetics of the sea-weed zone in a marine bay on the Atlantic coast of Canada. II. Productivity of the seaweeds , 1972, Marine Biology.
[26] C. Shaw,et al. Starch gel electrophoresis of enzymes—A compilation of recipes , 1970, Biochemical Genetics.
[27] C. Markert,et al. Malate dehydrogenase isozymes of the marine snail, Ilyanassa obsoleta , 1967 .
[28] H. Harris,et al. Genetically Determined Variation of Adenylate Kinase in Man , 1966, Nature.
[29] B. Crouau-Roy,et al. Genetic divergence between populations of two closely related troglobitic beetle species (Speonomus: Bathysciinae, Coleoptera) , 2006, Genetica.
[30] Y. Linhart,et al. Observations on the genetic structure and mating system of ponderosa pine in the Colorado front range , 2004, Theoretical and Applied Genetics.
[31] A. Breeman,et al. Seaweed Biogeography of the North Atlantic: Where are we now? , 1990 .
[32] C. Yarish,et al. Genetics of Morphology and Growth in Laminaria from the North Atlantic Ocean — Implications for Biogeography , 1990 .
[33] L. Druehl. Molecular Evolution in the Laminariales: A Review , 1990 .
[34] D. Garbary,et al. Evolutionary Biogeography of the Marine Algae of the North Atlantic , 1990, NATO ASI Series.
[35] T. R. Dudley,et al. Isozymes in Plant Biology , 1989, Springer Netherlands.
[36] J. Cosson. Croissance des sporophytes résultant d'hybridations interspécifiques et intergénériques chez les laminariales , 1987 .
[37] S. Osawa,et al. Molecular evolution of 5S ribosomal RNA from red and brown algae , 1986 .
[38] J. Callow,et al. A Preliminary Investigation of the Electrophoretic Characteristics of Enzymes from a Range of Macroscopic Brown Algae , 1984 .
[39] D. Buth. The Application of Electrophoretic Data in Systematic Studies , 1984 .
[40] D. Soltis,et al. Starch Gel Electrophoresis of Ferns: A Compilation of Grinding Buffers, Gel and Electrode Buffers, and Staining Schedules , 1983 .
[41] S. C. Hunter,et al. Starch gel electrophoresis of conifer seeds: a laboratory manual. , 1982 .
[42] J. Kain,et al. A VIEW OF THE GENUS LAMINARIA , 1979 .
[43] R. D. Lewis,et al. Polymorphism in the Esterases of Atlantic Herring , 1970 .
[44] A. Bohle,et al. [Morphological and electrophoretic investigations of the Masugi Nephritis in rats]. , 1952, Archiv fur Kreislaufforschung.
[45] R. Lewontin,et al. The Genetic Basis of Evolutionary Change , 2022 .