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Journal articles on the topic 'Glaucophyta'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Jackson, Christopher, Susan Clayden, and Adrian Reyes-Prieto. "The Glaucophyta: the blue-green plants in a nutshell." Acta Societatis Botanicorum Poloniae 84, no. 2 (2015): 149–65. http://dx.doi.org/10.5586/asbp.2015.020.

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The Glaucophyta is one of the three major lineages of photosynthetic eukaryotes, together with viridiplants and red algae, united in the presumed monophyletic supergroup Archaeplastida. Glaucophytes constitute a key algal lineage to investigate both the origin of primary plastids and the evolution of algae and plants. Glaucophyte plastids possess exceptional characteristics retained from their cyanobacterial ancestor: phycobilisome antennas, a vestigial peptidoglycan wall, and carboxysome-like bodies. These latter two traits are unique among the Archaeplastida and have been suggested as eviden
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2

Price, Dana C., Ursula W. Goodenough, Robyn Roth, et al. "Analysis of an improved Cyanophora paradoxa genome assembly." DNA Research 26, no. 4 (2019): 287–99. http://dx.doi.org/10.1093/dnares/dsz009.

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Abstract Glaucophyta are members of the Archaeplastida, the founding group of photosynthetic eukaryotes that also includes red algae (Rhodophyta), green algae, and plants (Viridiplantae). Here we present a high-quality assembly, built using long-read sequences, of the ca. 100 Mb nuclear genome of the model glaucophyte Cyanophora paradoxa. We also conducted a quick-freeze deep-etch electron microscopy (QFDEEM) analysis of C. paradoxa cells to investigate glaucophyte morphology in comparison to other organisms. Using the genome data, we generated a resolved 115-taxon eukaryotic tree of life that
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3

Takahashi, Toshiyuki, Mayuko Sato, Kiminori Toyooka, et al. "FiveCyanophora(Cyanophorales, Glaucophyta) species delineated based on morphological and molecular data." Journal of Phycology 50, no. 6 (2014): 1058–69. http://dx.doi.org/10.1111/jpy.12236.

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4

Abdel-Ghany, Salah E., Paul Kugrens, and A. S. N. Reddy. "CpKLP1: A CALMODULIN-BINDING KINESIN-LIKE PROTEIN FROM CYANOPHORA PARADOXA (GLAUCOPHYTA)." Journal of Phycology 36, no. 4 (2000): 686–92. http://dx.doi.org/10.1046/j.1529-8817.2000.00024.x.

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5

Kim, Eunsoo, and Shinichiro Maruyama. "A contemplation on the secondary origin of green algal and plant plastids." Acta Societatis Botanicorum Poloniae 83, no. 4 (2014): 331–36. http://dx.doi.org/10.5586/asbp.2014.040.

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A single origin of plastids and the monophyly of three “primary” plastid-containing groups – the Chloroplastida (or Viridiplantae; green algae+land plants), Rhodophyta, and Glaucophyta – are widely accepted, mainstream hypotheses that form the basis for many comparative evolutionary studies. This “Archaeplastida” hypothesis, however, thus far has not been unambiguously confirmed by phylogenetic studies based on nucleocytoplasmic markers. In view of this as well as other lines of evidence, we suggest the testing of an alternate hypothesis that plastids of the Chloroplastida are of secondary ori
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6

Kugrens, Paul, Brec L. Clay, Charles J. Meyer, and Robert E. Lee. "ULTRASTRUCTURE AND DESCRIPTION OF CYANOPHORA BILOBA, SP. NOV., WITH ADDITIONAL OBSERVATIONS ON C. PARADOXA (GLAUCOPHYTA)." Journal of Phycology 35, no. 4 (1999): 844–54. http://dx.doi.org/10.1046/j.1529-8817.1999.3540844.x.

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7

Hamana, Koei, and Masaru Niitsu. "Cellular polyamines of lower eukaryotes belonging to the phyla Glaucophyta, Rhodophyta, Cryptophyta, Haptophyta and Percolozoa." Journal of General and Applied Microbiology 52, no. 4 (2006): 235–40. http://dx.doi.org/10.2323/jgam.52.235.

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8

Nozaki, Hisayoshi, Shinichiro Maruyama, Motomichi Matsuzaki, Takashi Nakada, Syou Kato, and Kazuharu Misawa. "Phylogenetic positions of Glaucophyta, green plants (Archaeplastida) and Haptophyta (Chromalveolata) as deduced from slowly evolving nuclear genes." Molecular Phylogenetics and Evolution 53, no. 3 (2009): 872–80. http://dx.doi.org/10.1016/j.ympev.2009.08.015.

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9

Herbert, Helen, Rachel Parkes, Maria Elena Barone, et al. "Effects of Cultivation Stress on the Glaucophyte Cyanophora paradoxa and Bioactive Potential in Human Cancer Cell Lines." Phycologia 63, no. 3 (2024): 278–89. https://doi.org/10.1080/00318884.2024.2330341.

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Herbert, Helen, Parkes, Rachel, Barone, Maria Elena, Picciotto, Sabrina, Adamo, Giorgia, Paterna, Angela, Manno, Mauro, Bongiovanni, Antonella, Campion, Eva, Touzet, Nicolas (2024): Effects of Cultivation Stress on the Glaucophyte Cyanophora paradoxa and Bioactive Potential in Human Cancer Cell Lines. Phycologia 63 (3): 278-289, DOI: 10.1080/00318884.2024.2330341, URL: https://doi.org/10.1080/00318884.2024.2330341
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10

Leblond, Jeffrey D., Hermina Ilea Timofte, Shannon A. Roche, and Nicole M. Porter. "Mono- and digalactosyldiacylglycerol composition of glaucocystophytes (Glaucophyta): A modern interpretation using positive-ion electrospray ionization/mass spectrometry/mass spectrometry." Phycological Research 58, no. 3 (2010): 222–29. http://dx.doi.org/10.1111/j.1440-1835.2010.00582.x.

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11

Takahashi, Toshiyuki, Tomoki Nishida, Chieko Saito, Hidehiro Yasuda, and Hisayoshi Nozaki. "A new type of 3-D peripheral ultrastructure in Glaucocystis (Glaucocystales, Glaucophyta) as revealed by ultra-high voltage electron microscopy." Journal of Phycology 52, no. 3 (2016): 486–90. http://dx.doi.org/10.1111/jpy.12412.

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12

Takahashi, Toshiyuki, Mayuko Sato, Kiminori Toyooka, and Hisayoshi Nozaki. "Surface Ornamentation of Cyanophora paradoxa (Cyanophorales, Glaucophyta) Cells as Revealed by Ultra-High Resolution Field Emission Scanning Electron Microscopy." CYTOLOGIA 79, no. 1 (2014): 119–23. http://dx.doi.org/10.1508/cytologia.79.119.

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13

Kern, Ramona, Fabio Facchinelli, Charles Delwiche, Andreas P. M. Weber, Hermann Bauwe, and Martin Hagemann. "Evolution of Photorespiratory Glycolate Oxidase among Archaeplastida." Plants 9, no. 1 (2020): 106. http://dx.doi.org/10.3390/plants9010106.

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Photorespiration has been shown to be essential for all oxygenic phototrophs in the present-day oxygen-containing atmosphere. The strong similarity of the photorespiratory cycle in cyanobacteria and plants led to the hypothesis that oxygenic photosynthesis and photorespiration co-evolved in cyanobacteria, and then entered the eukaryotic algal lineages up to land plants via endosymbiosis. However, the evolutionary origin of the photorespiratory enzyme glycolate oxidase (GOX) is controversial, which challenges the common origin hypothesis. Here, we tested this hypothesis using phylogenetic and b
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14

Yu, Xinzi, Lei Tang, Xianghai Tang, and Yunxiang Mao. "Genome-Wide Identification and Analysis of MYB Transcription Factors in Pyropia yezoensis." Plants 12, no. 20 (2023): 3613. http://dx.doi.org/10.3390/plants12203613.

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MYB transcription factors are one of the largest transcription factor families in plants, and they regulate numerous biological processes. Red algae are an important taxonomic group and have important roles in economics and research. However, no comprehensive analysis of the MYB gene family in any red algae, including Pyropia yezoensis, has been conducted. To identify the MYB gene members of Py. yezoensis, and to investigate their family structural features and expression profile characteristics, a study was conducted. In this study, 3 R2R3-MYBs and 13 MYB-related members were identified in Py
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15

Cavalier-Smith, Thomas. "Ciliary transition zone evolution and the root of the eukaryote tree: implications for opisthokont origin and classification of kingdoms Protozoa, Plantae, and Fungi." Protoplasma 259, no. 3 (2021): 487–593. http://dx.doi.org/10.1007/s00709-021-01665-7.

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AbstractI thoroughly discuss ciliary transition zone (TZ) evolution, highlighting many overlooked evolutionarily significant ultrastructural details. I establish fundamental principles of TZ ultrastructure and evolution throughout eukaryotes, inferring unrecognised ancestral TZ patterns for Fungi, opisthokonts, and Corticata (i.e., kingdoms Plantae and Chromista). Typical TZs have a dense transitional plate (TP), with a previously overlooked complex lattice as skeleton. I show most eukaryotes have centriole/TZ junction acorn-V filaments (whose ancestral function was arguably supporting central
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16

Petrželková, Romana, and Marek Eliáš. "Contrasting patterns in the evolution of the Rab GTPase family in Archaeplastida." Acta Societatis Botanicorum Poloniae 83, no. 4 (2014): 303–15. http://dx.doi.org/10.5586/asbp.2014.052.

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Rab GTPases are a vast group of proteins serving a role of master regulators in membrane trafficking in eukaryotes. Previous studies delineated some 23 Rab and Rab-like paralogs ancestral for eukaryotes and mapped their current phylogenetic distribution, but the analyses relied on a limited sampling of the eukaryotic diversity. Taking advantage of the recent growth of genome and transcriptome resources for phylogenetically diverse plants and algae, we reanalyzed the evolution of the Rab family in eukaryotes with the primary plastid, collectively constituting the presumably monophyletic supergr
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17

Javornicky, Pavel. "The occurrence of microscopic algae with blue-green chloroplasts or with endocyanelles (Glaucophyta) in the fresh waters of the Czech Republic, with a new report of Cryptella cyanophora Pascher." Fottea 16, no. 1 (2016): 22–33. http://dx.doi.org/10.5507/fot.2016.004.

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18

Read, J. "Recruitment Characteristics of the White Cypress Pine (Callitris Glaucophylla) in Arid South Australia." Rangeland Journal 17, no. 2 (1995): 228. http://dx.doi.org/10.1071/rj9950228.

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Callitris glaucophylla is a long lived tree which has had limited spasmodic recruitment in the South Australian arid zone in recent years. Domestic stock and rabbit grazing have been implicated as major factors limiting its regeneration. Factors influencing the recruitment and death of C. glaucophylla in the Roxby Downs region were investigated. The survivorship of C. glaucophylla seedlings, which germinated following flooding rains in March 1989, was monitored at three rabbit densities, with and without the protection of tree guards. Despite above average rainfall in 1989, all the monitored s
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19

Thompson, W. A., and D. J. Eldridge. "White cypress pine (Callitris glaucophylla): a review of its roles in landscape and ecological processes in eastern Australia." Australian Journal of Botany 53, no. 6 (2005): 555. http://dx.doi.org/10.1071/bt04115.

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Callitris glaucophylla (J.Thompson & L.Johnson, white cypress pine) woodlands are an important vegetation community over relatively large areas of continental eastern Australia. C. glaucophylla communities were originally reserved because of their value to the timber industry, but renewed attention is being placed on these woodlands because of their putative role in the conservation of native plants and animals. The pre-European distribution of C. glaucophylla was altered dramatically in the past century because of a combination of grazing by domestic livestock and feral animals, altered f
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20

Thiele, Kevin R., and Timothy A. Hammer. "Hibbertia glaucophylla is the correct name for the Western Australian species currently known as H. rupicola (Dilleniaceae)." Australian Journal of Taxonomy 13 (February 12, 2023): 1–5. http://dx.doi.org/10.54102/ajt.zumnq.

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There has been historical confusion and error in the application and typification of the name Pleurandra glaucophylla Steud., likely caused by a slip of the pen on the original collecting label which caused the collecting number assigned by Preiss (2179) to be mis-transcribed as 2159, a number already used for another Preiss collection. We show that the type of P. glaucophylla falls within the circumscription of the species currently known as Hibbertia rupicola (S.Moore) C.A.Gardner, necessitating the new combination H. glaucophylla (Steud.) K.R.Thiele & T.Hammer as the correct name for th
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21

Secco, Ricardo de Souza, Jefferson de Melo Campos, and Alice de Lima Hiura. "Taxonomia atualizada de Amanoa (Phyllanthaceae) no Brasil." Acta Amazonica 44, no. 1 (2014): 25–43. http://dx.doi.org/10.1590/s0044-59672014000100004.

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Amanoa tem distribuição pantropical, com centro de diversidade na Amazônia, e ainda não recebeu uma revisão recente. Este trabalho tem como objetivo atualizar a taxonomia deste gênero, enfatizando as espécies ocorrentes no Brasil. Analisou-se coleções depositadas em herbários nacionais e estrangeiros, pelo método de dissecção das partes vegetativas e reprodutivas em estereomicroscópio, seguido-se descrição e ilustração do material. Estudou-se as seguintes espécies: A. almerindae, A. congesta, A. cupatensis, A. glaucophylla., A. gracillima, A. guianensis, A. nanayensis, A. neglecta, A. oblongif
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22

Hunter, John T. "Interactions between Callitris above-ground biomass, species density and plant form in north-eastern New South Wales." Australian Journal of Botany 61, no. 1 (2013): 73. http://dx.doi.org/10.1071/bt12317.

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Dense Callitris endlicheri (Parl.) F.M.Bailey (black cypress pine) and C. glaucophylla Joy Thomps. & L.A.S.Johnson (white cypress pine) stands are often viewed as problematic and thinning is often encouraged from a biodiversity perspective. In the present investigation, canonical correspondence analyses (CCAs) of 997 survey sites were undertaken within the public and private reserve network that contains a variety of above-ground biomass (AGB) of C. endlicheri and C. glaucophylla (as measured by diameter at breast height (DBH) and dispersion) and the evenness of the species distribution wa
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23

Bowman, DMJS, and PK Latz. "Ecology of Callitris glaucophylla (Cupressaceae) on the Macdonnell Ranges, Central Australia." Australian Journal of Botany 41, no. 2 (1993): 217. http://dx.doi.org/10.1071/bt9930217.

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A geographic survey of 17 stands of Callitris glaucophylla on the MacDonnell Ranges, in central Australia, revealed that the pine occurs on sites ranging from flat, sandy creek beds to rocky, north or south facing slopes, with the majority of the sampled stands occurring on steep (35°) south-facing slopes. A quadrat based (n=100) floristic survey on an outlying ridge from the MacDonnell Ranges also showed that C. glaucophylla has a wide ecological niche, although the species had a significantly negative association with sites that lacked boulders (> 0.5 m diameter) and significantly positiv
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24

Heiss, Aaron A., Alaric W. Heiss, Kaleigh Lukacs, and Eunsoo Kim. "The flagellar apparatus of the glaucophyte Cyanophora cuspidata." Journal of Phycology 53, no. 6 (2017): 1120–50. http://dx.doi.org/10.1111/jpy.12569.

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25

Zimmer, Heidi C., Singarayer K. Florentine, Rita Enke, and Martin Westbrooke. "Rainfall and grazing: not the only barriers to arid-zone conifer recruitment." Australian Journal of Botany 65, no. 2 (2017): 109. http://dx.doi.org/10.1071/bt16104.

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An understanding of the drivers of infrequent recruitment is fundamental in managing for species persistence. Callitris glaucophylla Joy Thomps. & L.A.S. Johnson (white cypress-pine) is a slow-growing, long-lived conifer, with a distribution that extends across arid Australia. Arid populations of C. glaucophylla are endangered in New South Wales, and are characterised by infrequent recruitment. We examined recruitment patterns of C. glaucophylla in differential grazing exclosures (excluding rabbits, excluding large herbivores or excluding both) and in unfenced areas. More recruitment occur
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26

Prior, Lynda D., Quan Hua, and David M. J. S. Bowman. "Demographic vulnerability of an extreme xerophyte in arid Australia." Australian Journal of Botany 66, no. 1 (2018): 26. http://dx.doi.org/10.1071/bt17150.

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Callitris glaucophylla (syn. C. columellaris F.Muell.) is an iconic Australian conifer that is suffering a recruitment deficit over much of the arid zone. Here, seedling establishment requires a series of unusually wet years, and protection from high levels of herbivory. The aim of our study was to determine the size class structure of C. glaucophylla populations in the most arid part (150 mm mean annual precipitation) of its range, and particularly whether seedlings had established during a wet period in 2010/11. We sampled C. glaucophylla populations throughout the region, including inside a
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27

McHenry, Melinda T., Brian R. Wilson, Peter V. Lockwood, et al. "The impact of individual Callitris glaucophylla (white cypress pine) trees on agricultural soils and pastures of the north-western slopes of NSW, Australia." Rangeland Journal 31, no. 3 (2009): 321. http://dx.doi.org/10.1071/rj08052.

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Woody vegetation thickening occurs in agri-ecosystems worldwide, often with negative consequences for production. Dense Callitris glaucophylla (Joy Thomps. & L.A.S. Johnson) stands affect landscapes across NW NSW, Australia, and strategies to reduce tree density to levels which maintain biodiversity values alongside agricultural production are currently being sought. We investigated soil chemical and groundcover patterns associated with individual small and large C. glaucophylla trees at six sites of variable management history and lithology in NW NSW, Australia. We posed two questions: (1
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28

Plancke, Charlotte, Christophe Colleoni, Philippe Deschamps, et al. "Pathway of Cytosolic Starch Synthesis in the Model Glaucophyte Cyanophora paradoxa." Eukaryotic Cell 7, no. 2 (2007): 247–57. http://dx.doi.org/10.1128/ec.00373-07.

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ABSTRACT The nature of the cytoplasmic pathway of starch biosynthesis was investigated in the model glaucophyte Cyanophora paradoxa. The storage polysaccharide granules are shown to be composed of both amylose and amylopectin fractions, with a chain length distribution and crystalline organization similar to those of green algae and land plant starch. A preliminary characterization of the starch pathway demonstrates that Cyanophora paradoxa contains several UDP-glucose-utilizing soluble starch synthase activities related to those of the Rhodophyceae. In addition, Cyanophora paradoxa synthesize
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29

McQueen, Kenneth G., Augustine Alorbi, Joseph A. Schifano, and David R. Cohen. "Nickel Uptake by Cypress Pine (Callitris glaucophylla) in the Miandetta Area, Australia: Implications for Use in Biogeochemical Exploration." Minerals 11, no. 8 (2021): 808. http://dx.doi.org/10.3390/min11080808.

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The uptake of Ni and other elements by Callitris glaucophylla (white cypress pine), from weathered ultramafic rocks under varying depths of transported regolith cover, is examined at two sites in the Miandetta area, New South Wales, Australia. Results show that C. glaucophylla can accumulate elevated Ni concentrations in the needles (leaves or phyllodes) from underlying Ni-enriched regolith up to two orders of magnitude above the normal micronutrient levels required for the species. Such uptake levels occur in areas with high total Ni in the soil and regolith despite the relatively low mobilit
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30

Thompson, W. A., and D. J. Eldridge. "Plant cover and composition in relation to density of Callitris glaucophylla (white cypress pine) along a rainfall gradient in eastern Australia." Australian Journal of Botany 53, no. 6 (2005): 545. http://dx.doi.org/10.1071/bt04133.

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Despite the widespread distribution of Callitris glaucophylla J.Thompson & L.Johnson (white cypress pine) over large areas of eastern Australia, little is known about its impact on the diversity and cover of understorey plants. We examined C. glaucophylla woodlands to see whether stand density and land management influenced the cover and composition of the understorey vegetation. The cover and diversity of understorey plant communities were measured at 83 sites along a gradient in average annual rainfall (215–532 mm) in eastern Australia. The diversity and cover of understorey plants and t
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31

Watanabe, Yasutaka, Rie Mihara, Tohru Mitsunaga, and Tsuyoshi Yoshimura. "Termite repellent sesquiterpenoids from Callitris glaucophylla heartwood." Journal of Wood Science 51, no. 5 (2005): 514–19. http://dx.doi.org/10.1007/s10086-004-0683-6.

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32

Prior, Lynda D., Zoe Lee, Chris Brock, Grant J. Williamson, and David M. J. S. Bowman. "What limits the distribution and abundance of the native conifer Callitris glaucophylla (Cupressaceae) in the West MacDonnell Ranges, central Australia?" Australian Journal of Botany 58, no. 7 (2010): 554. http://dx.doi.org/10.1071/bt10045.

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The conifer Callitris glaucophylla J.Thompson & L.A.S.Johnson (Cupressaceae) is a fire-sensitive obligate seeder with a heavily fragmented distribution across the Australian continent. We undertook a broad-scale biophysical survey and analysed the population structure of 21 populations in the West MacDonnell Ranges of central Australia. C. glaucophylla had a patchy distribution associated with steep, rocky metamorphic areas with limited evidence of fire. Variation in population structures was clearly related to recent fire history. Nearly half of ‘adult’ C. glaucophylla trees (>5-cm ste
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33

Sagen, Anne-Lise, Jürg Gertsch, Rita Becker, Jörg Heilmann, and Otto Sticher. "Quinolizidine alkaloids from the curare adjuvant Clathrotropis glaucophylla." Phytochemistry 61, no. 8 (2002): 975–78. http://dx.doi.org/10.1016/s0031-9422(02)00394-1.

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34

Bacchetta, Gianluigi, Salvatore Brullo, Saverio D'Emerico, Cristiano Pontecorvo, and Cristina Salmeri. "Charybdis glaucophylla (Asparagaceae), a new species from Sardinia." Phytotaxa 69, no. 1 (2012): 16–26. https://doi.org/10.11646/phytotaxa.69.1.4.

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Bacchetta, Gianluigi, Brullo, Salvatore, D'Emerico, Saverio, Pontecorvo, Cristiano, Salmeri, Cristina (2012): Charybdis glaucophylla (Asparagaceae), a new species from Sardinia. Phytotaxa 69 (1): 16-26, DOI: 10.11646/phytotaxa.69.1.4, URL: http://biotaxa.org/Phytotaxa/article/view/phytotaxa.69.1.4
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35

Oborník, Miroslav. "Enigmatic Evolutionary History of Porphobilinogen Deaminase in Eukaryotic Phototrophs." Biology 10, no. 5 (2021): 386. http://dx.doi.org/10.3390/biology10050386.

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In most eukaryotic phototrophs, the entire heme synthesis is localized to the plastid, and enzymes of cyanobacterial origin dominate the pathway. Despite that, porphobilinogen deaminase (PBGD), the enzyme responsible for the synthesis of hydroxymethybilane in the plastid, shows phylogenetic affiliation to α-proteobacteria, the supposed ancestor of mitochondria. Surprisingly, no PBGD of such origin is found in the heme pathway of the supposed partners of the primary plastid endosymbiosis, a primarily heterotrophic eukaryote, and a cyanobacterium. It appears that α-proteobacterial PBGD is absent
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36

Elix, JA, JA Elix, JH Wardlaw, and JH Wardlaw. "Synthesis of Depsides Present in the Lichen Porpidia glaucophaea." Australian Journal of Chemistry 49, no. 8 (1996): 917. http://dx.doi.org/10.1071/ch9960917.

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The structure of the lichen depsides 2'-O-methylsuperphyllinic acid (3), glaucophaeic acid (4), superconfluentic acid (5) and 4-O-demethylsuperconfluentic acid (6), and the isocoumarin insignin (7) have been confirmed by unambiguous synthesis.
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Bedini, Gianni, Angelino Carta, Giovanni Zecca, Fabrizio Grassi, Gabriele Casazza, and Luigi Minuto. "Genetic structure of Rhamnus glaucophylla Sommier endemic to Tuscany." Plant Systematics and Evolution 294, no. 3-4 (2011): 273–80. http://dx.doi.org/10.1007/s00606-011-0469-4.

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38

Noltie, H. J. "Notes relating to the Flora of Bhutan: XXVI. Smilacaceae: Smilax." Edinburgh Journal of Botany 51, no. 2 (1994): 147–63. http://dx.doi.org/10.1017/s0960428600000846.

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The following new taxa, combinations and synonymy in the genus Smilax from E Himalaya and SW China are proposed: S. myrtillus var. rigida Noltie, var. nov., S. elegans Wall, ex Kunth subsp. subrecta Noltie, subsp. nov. of which S. longebracteolata Hook.f., and S. elegans var. major A.DC. are synonyms; S. elegans subsp. glaucophylla (Klotzsch) Noltie, comb. & stat. nov., S. elegans subsp. osmastonii (Wang & Tang) Noltie, comb. & stat. nov., S. elegans subsp. microphylla (C.H. Wright) Noltie, comb. & slat. nov. of which S. microphylla var. angustifolia Warb., S. castaneiflora H.
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Chong, Jasmine, Christopher Jackson, Jong Im Kim, Hwan Su Yoon, and Adrian Reyes-Prieto. "Molecular markers from different genomic compartments reveal cryptic diversity within glaucophyte species." Molecular Phylogenetics and Evolution 76 (July 2014): 181–88. http://dx.doi.org/10.1016/j.ympev.2014.03.019.

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40

Gross, Jeferson, Sana Wajid, Dana C. Price, et al. "Evidence for Widespread Exonic Small RNAs in the Glaucophyte Alga Cyanophora paradoxa." PLoS ONE 8, no. 7 (2013): e67669. http://dx.doi.org/10.1371/journal.pone.0067669.

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Mackiewicz, Paweł, and Przemysław Gagat. "Monophyly of Archaeplastida supergroup and relationships among its lineages in the light of phylogenetic and phylogenomic studies. Are we close to a consensus?" Acta Societatis Botanicorum Poloniae 83, no. 4 (2014): 263–80. http://dx.doi.org/10.5586/asbp.2014.044.

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One of the key evolutionary events on the scale of the biosphere was an endosymbiosis between a heterotrophic eukaryote and a cyanobacterium, resulting in a primary plastid. Such an organelle is characteristic of three eukaryotic lineages, glaucophytes, red algae and green plants. The three groups are usually united under the common name Archaeplastida or Plantae in modern taxonomic classifications, which indicates they are considered monophyletic. The methods generally used to verify this monophyly are phylogenetic analyses. In this article we review up-to-date results of such analyses and di
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Green, Beverley R. "What Happened to the Phycobilisome?" Biomolecules 9, no. 11 (2019): 748. http://dx.doi.org/10.3390/biom9110748.

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The phycobilisome (PBS) is the major light-harvesting complex of photosynthesis in cyanobacteria, red algae, and glaucophyte algae. In spite of the fact that it is very well structured to absorb light and transfer it efficiently to photosynthetic reaction centers, it has been completely lost in the green algae and plants. It is difficult to see how selection alone could account for such a major loss. An alternative scenario takes into account the role of chance, enabled by (contingent on) the evolution of an alternative antenna system early in the diversification of the three lineages from the
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Takahashi, Toshiyuki, and Hisayoshi Nozaki. "Toward the establishment of glaucophyte taxonomic system based on the threedimensional recognition of ultrastructures." PLANT MORPHOLOGY 28, no. 1 (2016): 49–54. http://dx.doi.org/10.5685/plmorphol.28.49.

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Rodríguez-Ezpeleta, Naiara, Henner Brinkmann, Suzanne C. Burey, et al. "Monophyly of Primary Photosynthetic Eukaryotes: Green Plants, Red Algae, and Glaucophytes." Current Biology 15, no. 14 (2005): 1325–30. http://dx.doi.org/10.1016/j.cub.2005.06.040.

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ELIX, J. A., and J. H. WARDLAW. "ChemInform Abstract: Synthesis of Depsides Present in the Lichen Porpidia glaucophaea." ChemInform 28, no. 10 (2010): no. http://dx.doi.org/10.1002/chin.199710177.

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46

Cohn, Janet S., Ian D. Lunt, Ross A. Bradstock, and Terry Koen. "Interactions between dense Callitris regeneration and Eucalyptus and Callitris canopy trees in semiarid woodlands." Australian Journal of Botany 60, no. 6 (2012): 549. http://dx.doi.org/10.1071/bt11247.

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Since European settlement, woodlands have undergone significant structural and compositional changes in semiarid SE Australia. With logging, introduced grazing and declines in fire frequency, fire-sensitive Callitris glaucophylla has regenerated densely in woodlands dominated by C. glaucophylla and fire-tolerant Eucalyptus species. Since little is known about long-term competitive interactions between sapling regeneration and canopy trees, we examined: (1) how established Eucalyptus and Callitris canopy trees influence survival, growth and reproduction of Callitris saplings; (2) whether dense
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Pietluch, Filip, Paweł Mackiewicz, Katarzyna Sidorczuk, and Przemysław Gagat. "Dating the Origin and Spread of Plastids and Chromatophores." International Journal of Molecular Sciences 26, no. 12 (2025): 5569. https://doi.org/10.3390/ijms26125569.

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Photosynthetic eukaryotes have shaped the Earth’s biosphere by producing oxygen and organic compounds using light energy in specialized organelles called plastids. Plastids evolved from free-living cyanobacteria ingested by heterotrophic unicellular eukaryotes. Two such independent engulfment processes, called cyanobacterial endosymbioses, have been reported. The first gave rise to primary plastids and three Archaeplastida lineages: glaucophytes, red algae, and green algae with land plants, whereas the second resulted in chromatophores in the rhizarian amoeba Paulinella. Importantly, Archaepla
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Fenu, Giuseppe, Gianluigi Bacchetta, Liliana Bernardo, et al. "Global and Regional IUCN Red List Assessments: 2." Italian Botanist 2 (November 29, 2016): 93–115. https://doi.org/10.3897/italianbotanist.2.10975.

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In this contribution the conservation status assessment of six plant species according to IUCN categories and criteria are presented. It includes the assessment at global level of Charybdis glaucophylla Bacch., Brullo, D’Emerico, Pontec. & Salmeri, Euphorbia nicaeensis All. subsp. japygica (Ten.) Arcang., Hieracium australe Fr. subsp. australe, Limonium multiforme Pignatti, Onosma helvetica Boiss. em. Teppner subsp. lucana (Lacaita) Peruzzi, Aquaro & Cesca and the assessment at national level (Italy) of Lathyrus laxiflorus (Desf.) Kuntze subsp. laxiflorus.
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BACCHETTA, GIANLUIGI, SALVATORE BRULLO, SAVERIO D’EMERICO, CRISTIANO PONTECORVO, and CRISTINA SALMERI. "Charybdis glaucophylla (Asparagaceae), a new species from Sardinia." Phytotaxa 69, no. 1 (2012): 16. http://dx.doi.org/10.11646/phytotaxa.69.1.4.

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Figueroa-Martinez, Francisco, Christopher Jackson, and Adrian Reyes-Prieto. "Plastid Genomes from Diverse Glaucophyte Genera Reveal a Largely Conserved Gene Content and Limited Architectural Diversity." Genome Biology and Evolution 11, no. 1 (2018): 174–88. http://dx.doi.org/10.1093/gbe/evy268.

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