Functional analysis of proteins in the conifer ovular secretion

dc.contributor.authorCoulter, Andrea Elizabeth
dc.contributor.supervisorAderkas, P. von
dc.date.accessioned2020-09-01T05:29:32Z
dc.date.copyright2020en_US
dc.date.issued2020-08-31
dc.degree.departmentDepartment of Biology
dc.degree.levelDoctor of Philosophy Ph.D.en_US
dc.description.abstractAlmost all conifer ovules produce a liquid secretion as part of reproduction. This secretion, termed an ovular secretion, is produced during ovule receptivity and is involved in pollen capture and transport. Historically, examinations of the ovular secretion have focused on how they are part of pollination mechanisms. As a result, the chemical composition of the ovular secretion has not been examined systematically. Investigations into the constituents of the ovular secretion were limited to analyses for simple water soluble compounds such as sugars, minerals, amino acids and organic acids. More recently, the protein component of the secretion has been investigated using mass spectrometry-based proteomics. Proteins involved in processes such as carbohydrate modification, proteolysis, and defence have been identified in conifer ovular secretions. This biochemical complexity suggests a broader view of the function of the ovular secretion is warranted. However, protein identifications only provide putative information on function. Functional characterization of these proteins is needed in order to fully understand how they contribute to ovular secretion function. The research outlined in this dissertation describes the first functional characterizations of proteins found in conifer ovular secretions. Three proteins - invertase, chitinase, and thaumatin-like protein - were characterized in the ovular secretions of Douglas-fir (Pseudotsuga menziesii) and hybrid yew (Taxus × media). The Douglas-fir ovular secretion is capable of converting sucrose to glucose and fructose, confirming that invertases present in the secretion are functional. The invertase activity was maximal at pH 4.0. Activity was 77% of maximal at pH 4.5, the physiological pH. This indicates that post-secretory hydrolysis of sucrose occurs in situ in the Douglas-fir ovular secretion. Invertases in the ovular secretion are likely involved in controlling the movement of carbohydrates to developing pollen and could facilitate pollen selection. Chitinases present in the Douglas-fir ovular secretion are functional at physiological conditions. All three modes of chitinolytic activity, i.e. endochitinase, chitobiosidase and β-N-acetylglucosaminidase, were detected at physiological pH. β-N-acetylglucosaminidase activity was 80 % of maximal at physiological pH. Chitinases are pathogenesis-related proteins capable of hydrolysing chitin in fungal cell walls. These results suggest the ovular secretion is capable of defending the ovule against infection by phytopathogens. Thaumatin-like protein was immunolocalized to the cell wall and amyloplasts in Douglas-fir and yew nucellar tissue in a pattern consistent with a defensive role. It was also localized to the cell wall of fungal spores and germinating hyphae that were present in the micropyle of a yew ovule. These results provide additional evidence for an antifungal role for the ovular secretion. Functioning enzymes involved in pollen-ovule interactions and ovule defence are present in the conifer ovular secretion. The ovular secretion has functions beyond pollen capture. A revised functional model for the conifer ovular secretion is proposed.en_US
dc.description.embargo2021-08-17
dc.description.scholarlevelGraduateen_US
dc.identifier.bibliographicCitationPrior N, Little SA, Pirone C, Gill JE, Smith D, Han J, Hardie D, O’Leary SJB, Wagner RE, Cross T, Coulter A, Borchers C, Olafson RW, von Aderkas P. 2013. Application of proteomics to the study of pollination drops. Appl Plant Sci. 1: 1-9.en_US
dc.identifier.bibliographicCitationvon Aderkas P, Nepi M, Rise M, Buffi F, Guarnieri M, Coulter A, Gill K, Lan P, Rzemieniak S, Pacini E. 2012. Post-pollination prefertilization drops affect germination rates of heterospecific pollen in larch and Douglas-fir. Sex Plant Reprod. 25: 215-225.en_US
dc.identifier.bibliographicCitationCoulter A, Poulis BAD, von Aderkas P. 2012. Pollination drops as dynamic apoplastic secretions. Flora. 207: 482-490.en_US
dc.identifier.bibliographicCitationNepi M, von Aderkas P, Wagner R, Mugnaini S, Coulter A, Pacini E. 2009. Nectar and pollination drops: how different are they? Ann Bot. 104: 205-219.en_US
dc.identifier.bibliographicCitationvon Aderkas P, Coulter A, White L, Wagner R, Robb J, Rise M, Temmel N, MacEacheron I, Park YS, Bonga J. 2005. Somatic embryogenesis via nodules in Pinus strobus L. and Pinus banksiana Lamb. – dead ends and new beginnings. Propag Ornam Plants. 5: 3-13.en_US
dc.identifier.urihttp://hdl.handle.net/1828/12080
dc.languageEnglisheng
dc.language.isoenen_US
dc.rightsAvailable to the World Wide Weben_US
dc.subjectGymnospermen_US
dc.subjectConiferen_US
dc.subjectOvular secretionen_US
dc.subjectPollination dropen_US
dc.subjectPost-pollination prefertilization dropen_US
dc.subjectPlant reproductionen_US
dc.subjectPlant defenceen_US
dc.subjectPlant apoplasten_US
dc.subjectPollen-ovule interactionsen_US
dc.subjectInvertaseen_US
dc.subjectChitinaseen_US
dc.subjectThaumatin-like proteinen_US
dc.subjectPseudotsuga menziesiien_US
dc.subjectTaxusen_US
dc.titleFunctional analysis of proteins in the conifer ovular secretionen_US
dc.typeThesisen_US

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