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Relevant bibliographies by topics / Pycnococcaceae

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Journal articles

Academic literature on the topic 'Pycnococcaceae'

Author: Grafiati

Published: 4 June 2025

Last updated: 15 July 2025

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Journal articles on the topic "Pycnococcaceae"

1

Green, David H., Cecilia Rad-Menéndez, Christine Campbell, and Estelle S. Kilias. "The genome sequence of Pycnococcus provasolii (CCAP190/2) (Guillard, 1991)." Wellcome Open Research 8 (November 13, 2023): 520. http://dx.doi.org/10.12688/wellcomeopenres.20345.1.

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We present a genome assembly from cultured Pycnococcus provasolii (a marine green alga; Chlorophyta; None; Pseudoscourfieldiales; Pycnococcaceae). The genome sequence is 32.2 megabases in span. Most of the assembly is scaffolded into 44 chromosomal pseudomolecules (99.67%). The mitochondrial and plastid genomes have also been assembled, and the length of the mitochondrial scaffold is 24.3 kilobases and of the plastid genome has been assembled and is 80.2 kilobases in length.

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2

Atfy, Haytham El, Qusay Abeed, and Dieter Uhl. "Non-pollen palynomorph and palynofacies assemblages from the Lower Cretaceous of Iraq: A glimpse into palaeobiology and palaeoenvironment." Geodiversitas 45, no. 11 (2023): 353–66. https://doi.org/10.5252/geodiversitas2023v45a11.

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Atfy, Haytham El, Abeed, Qusay, Uhl, Dieter (2023): Non-pollen palynomorph and palynofacies assemblages from the Lower Cretaceous of Iraq: A glimpse into palaeobiology and palaeoenvironment. Geodiversitas 45 (11): 353-366, DOI: 10.5252/geodiversitas2023v45a11

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3

García, Muro Victoria J., Claudia V. Rubinstein, and Philippe Steemans. "Late Silurian palynomorphs from the Precordillera of San Juan, Argentina: Diversity, palaeoenvironmental and palaeogeographic significance." Acta Palaeontologica Polonica 63, no. 1 (2018): 41–61. https://doi.org/10.4202/app.00400.2017.

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García Muro, Victoria J., Rubinstein, Claudia V., Steemans, Philippe (2018): Late Silurian palynomorphs from the Precordillera of San Juan, Argentina: Diversity, palaeoenvironmental and palaeogeographic significance. Acta Palaeontologica Polonica 63 (1): 41-61, DOI: 10.4202/app.00400.2017, URL: http://dx.doi.org/10.4202/app.00400.2017

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4

Legrand, Julien, Denise Pons, Harufumi Nishida, and Toshihiro Yamada. "Barremian palynofloras from the Ashikajima and Kimigahama formations (Choshi Group, Outer Zone of south-west Japan)." Geodiversitas 33, no. 1 (2011): 87–135. https://doi.org/10.5252/g2011n1a6.

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Legrand, Julien, Pons, Denise, Nishida, Harufumi, Yamada, Toshihiro (2011): Barremian palynofloras from the Ashikajima and Kimigahama formations (Choshi Group, Outer Zone of south-west Japan). Geodiversitas 33 (1): 87-135, DOI: 10.5252/g2011n1a6, URL: http://dx.doi.org/10.5252/g2011n1a6

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5

Crépeault, Olivier, Christian Otis, Jean‐François Pombert, Monique Turmel, and Claude Lemieux. "Comparative plastome and mitogenome analyses indicate that the marine prasinophyte green algae Pycnococcus provasolii and Pseudoscourfieldia marina (Pseudoscourfieldiophyceae class nov., Chlorophyta) represent morphotypes of the same species." Journal of Phycology, July 11, 2024. http://dx.doi.org/10.1111/jpy.13482.

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AbstractThe marine prasinophyte green algae Pycnococcus provasolii and Pseudoscourfieldia marina represent the only extant genera and known species of the Pycnococcaceae. However, their taxonomic status needs to be reassessed, owing to the very close relationship inferred from previous sequence comparisons of individual genes. Although Py. provasolii and Ps. marina are morphologically different, their plastid rbcL and nuclear small subunit rRNA genes were observed to be nearly or entirely identical in sequence, thus leading to the hypothesis that they represent distinct growth forms or alternate life‐cycle stages of the same organism. To evaluate this hypothesis, we used organelle genomes as molecular markers. The plastome and mitogenome of Ps. marina UIO 007 were sequenced and compared with those available for two isolates of Py. provasolii (CCMP 1203 and CCAP 190/2). The Ps. marina organelle genomes proved to be almost identical in size and had the same gene content and gene order as their Py. provasolii counterparts. Single nucleotide substitutions and insertions/deletions were localized using genome‐scale sequence alignments. Over 99.70% sequence identities were observed in all pairwise comparisons of plastomes and mitogenomes. Alignments of both organelle genomes revealed that Ps. marina UIO 007 is closer to Py. provasolii CCAP 190/2 than are the two Py. provasolii strains to one another. Therefore, our results are not consistent with the placement of Ps. marina and Py. provasolii strains into distinct genera. We propose a taxonomic revision of the Pycnococcaceae and the erection of a new class of Chlorophyta, the Pseudoscourfieldiophyceae.

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