A preliminary phytochemical investigation of Ephedra viridis Coville found in Oregon /

Aragones, Erlinda Negre.

January 1954

Thesis (M.S.)--Oregon State College, 1954. / Typescript. Includes bibliographical references (leaves 33-39). Also available on the World Wide Web.

Ephedra Plants

Beiträge zur Pharmakognosie der Ephedrin-Drogen

Tang, Teng-Han,

January 1929

Inaugural dissertation (Ph. D.)--Friedrich-Wilhelms-Universität zu Berlin. / Cover title. Includes bibliographical references (p. 46-47).

Ephedra. Gnetaceae.

On the evolutionary origin of angiosperms : characterization of MADS-box floral homeotic gene homologues in Ephedra andina (Gnetales)

Savard, Joël.

January 2000

Despite a century of research, the evolutionary origin of angiosperms remains uncertain. Morphological studies have identified the gnetophytes as the sister group of angiosperms mainly because of the similar organization of their reproductive structures. Molecular studies have been ambiguous as to whether these two groups are closely related. Study of the development of seed plant reproductive structures can help to untangle this issue. Here, I report the cloning of five MARS-box floral homeotic gene homologues from the gnetophyte Ephedra andina. Three of these genes belong to AG, AGL6 and TM3 subfamilies. These monophyletic groups comprise angiosperm as well as conifer homologues. Phylogenetic analysis of the plant MADS-box gene family reveals that within subfamilies, Ephedra genes always form subclades with other gymnosperm genes to the exclusion of all angiosperm genes. These results suggest that gnetophytes are more closely related to conifers than to angiosperms.

Ephedra -- Molecular genetics.

DNA-binding proteins.

Angiosperms -- Evolution.

Evolution of three seed dispersal mechanisms in North American Ephedra

Hollander, Jennifer L.

January 2007

Thesis (Ph. D.)--University of Nevada, Reno, 2007. / "December, 2007." Includes bibliographical references . Online version available on the World Wide Web.

The influence of ephedra on metabolic responses in trained men during a structured resistance training program

Plutnicki, Jill M.

January 2004

Thesis (M.S.)--Springfield College, 2004. / Includes bibliographical references. Also available online (PDF file) by a subscription to the set or by purchasing the individual file.

The influence of ephedra on metabolic responses in trained men during a structured resistance training program

Plutnicki, Jill M.

January 2004

Thesis (M.S.)--Springfield College, 2004. / Includes bibliographical references.

On the evolutionary origin of angiosperms : characterization of MADS-box floral homeotic gene homologues in Ephedra andina (Gnetales)

Savard, Joël.

January 2000

No description available.

Ephedra -- Molecular genetics.

Angiosperms -- Evolution.

DNA-binding proteins.

Proteins in gymnosperm pollination drops.

Prior, Natalie Annastasia

18 December 2014

Most gymnosperms produce a pollination drop that captures and transports pollen into the ovule. Pollination drops have other functions. These include influencing pollen germination and pollen tube growth, defending the ovule from pathogens and providing a food reward in insect-pollinated gymnosperms. Mineral and organic molecules, including proteins, are responsible for these additional functions. To date, pollination drops from a handful of conifers and one non-conifer gymnosperm, Welwitschia mirabilis, have been subjected to proteomic analysis. In the present study, tandem mass spectrometry was used to detect proteins in all gymnosperm lineages: cycads (Ceratozamia hildae, Cycas rumphii, Zamia furfuracea); Gnetales (Ephedra compacta, E. distachya, E. foeminea, E. likiangensis, E. minuta, E. monosperma, E. trifurca; Gnetum gnemon; Welwitschia mirabilis); Ginkgo biloba; conifers (Taxus x media). PEAKS 6 DB (Bioinformatics Solutions, Waterloo, ON, Canada) was used to make protein identifications. Proteins were detected in all gymnosperm species analyzed. The numbers of proteins identified varied between samples as follows: one protein in Welwitschia female; nine proteins in Cycas rumphii; 13 proteins on average in Ephedra spp.; 17 proteins in Gnetum gnemon; 38 proteins on average in Zamia furfuracea; 57 proteins in Ginkgo biloba; 61 proteins in Ceratozamia hildae; 63 in Taxus x media; 138 proteins in Welwitschia male. The types of proteins identified varied widely. Proteins involved in carbohydrate modification, e.g. galactosidase, chitinase, glycosyl hydrolase, glucosidase, were present in most gymnosperms. Similarly, defence proteins, e.g. reduction-oxidation proteins, lipid-transfer proteins and thaumatin-like proteins, were identified in many gymnosperms. Gymnosperms that develop a deep pollen chamber as the nucellus degrades, e.g., cycads, Ginkgo, Ephedra, generally contained higher proportions of proteins localized to intracellular spaces. These proteins represent the pollination drop degradome. Gymnosperms that either lack a pollen chamber, e.g. Taxus, or have a shallow pollen chamber, e.g. Gnetum, had greater proportions of extracellular proteins. These proteins represent the pollination drop secretome. Our proteomic analyses support the hypothesis that the pollination drops of all extant gymnosperms constitute complex reproductive secretions. / Graduate

gymnosperm

pollination drop

cycad

gnetales

Ginkgo

Cycas

Zamia

Ceratozamia

Gnetum

Ephedra

Welwitschia

Taxus x media

plant reproductive secretion

plant proteome