Your search keyword '"Cook, Martha A."' showing total 10 results

1. Shotgun metagenomics and microscopy indicate diverse cyanophytes, other bacteria, and microeukaryotes in the epimicrobiota of a northern Chilean wetland Nostoc (Cyanobacteria).

Author

Satjarak, Anchittha, Graham, Linda E., Piotrowski, Michael J., Trest, Marie T., Wilcox, Lee W., Cook, Martha E., Knack, Jennifer J., Arancibia‐Avila, Patricia, and Collier, J.

Subjects

NOSTOC, CYANOBACTERIA, METAGENOMICS, GENES, SHOTGUN sequencing, GREEN algae

Abstract

Prokaryotic Nostoc, one of the world's most conspicuous and widespread algal genera (similar to eukaryotic algae, plants, and animals) is known to support a microbiome that influences host ecological roles. Past taxonomic characterizations of surface microbiota (epimicrobiota) of free‐living Nostoc sampled from freshwater systems employed 16S rRNA genes, typically amplicons. We compared taxa identified from 16S, 18S, 23S, and 28S rRNA gene sequences filtered from shotgun metagenomic sequence and used microscopy to illuminate epimicrobiota diversity for Nostoc sampled from a wetland in the northern Chilean Altiplano. Phylogenetic analysis and rRNA gene sequence abundance estimates indicated that the host was related to Nostoc punctiforme PCC 73102. Epimicrobiota were inferred to include 18 epicyanobacterial genera or uncultured taxa, six epieukaryotic algal genera, and 66 anoxygenic bacterial genera, all having average genomic coverage ≥90X. The epicyanobacteria Geitlerinemia, Oscillatoria, Phormidium, and an uncultured taxon were detected only by 16S rRNA gene; Gloeobacter and Pseudanabaena were detected using 16S and 23S; and Phormididesmis, Neosynechococcus, Symphothece, Aphanizomenon, Nodularia, Spirulina, Nodosilinea, Synechococcus, Cyanobium, and Anabaena (the latter corroborated by microscopy), plus two uncultured cyanobacterial taxa (JSC12, O77) were detected only by 23S rRNA gene sequences. Three chlamydomonad and two heterotrophic stramenopiles genera were inferred from 18S; the streptophyte green alga Chaetosphaeridium globosum was detected by microscopy and 28S rRNA genes, but not 18S rRNA genes. Overall, >60% of epimicrobial taxa were detected by markers other than 16S rRNA genes. Some algal taxa observed microscopically were not detected from sequence data. Results indicate that multiple taxonomic markers derived from metagenomic sequence data and microscopy increase epimicrobiota detection. [ABSTRACT FROM AUTHOR]

Published

2021

2. Immunofluorescence localization of the tubulin cytoskeleton during cell division and cell growth in members of the Coleochaetales ( Streptophyta).

Author

Doty, Karen F., Betzelberger, Amy M., Kocot, Kevin M., Cook, Martha E., and Wetherbee, R.

Subjects

IMMUNOFLUORESCENCE, TUBULINS, CYTOSKELETON, COLEOCHAETALES, CELL division, CYTOKINESIS, CELL growth, ALGAE

Abstract

Study of charophycean green algae, including the Coleochaetales, may shed light on the evolutionary history of characters they share with their land plant relatives. We examined the tubulin cytoskeleton during mitosis, cytokinesis, and growth in members of the Coleochaetales with diverse morphologies to determine if phragmoplasts occurred throughout this order and to identify microtubular patterns associated with cell growth. Species representing three subgroups of Coleochaete and its sister genus Chaetosphaeridium were studied. Cytokinesis involving a phragmoplast was found in the four taxa examined. Differential interference contrast microscopy of living cells confirmed that polar cytokinesis like that described in the model flowering plant Arabidopsis occurred in all species when the forming cell plate traversed a vacuole. Calcofluor labeling of cell walls demonstrated directed growth from particular cell regions of all taxa. Electron microscopy confirmed directed growth in the unusual growth pattern of Chaetosphaeridium. All four species exhibited unordered microtubule patterns associated with diffuse growth in early cell expansion. In subsequent elongating cells, Coleochaete irregularis Pringsheim and Chaetosphaeridium globosum (Nordstedt) Klebahn exhibited tubulin cytoskeleton arrays corresponding to growth patterns associated with tip growth in plants, fungi, and other charophycean algae. Hoop-shaped microtubules frequently associated with diffuse growth of elongating cells in plants were not observed in any of these species. Presence of phragmoplasts in the diverse species studied supports the hypothesis that cytokinesis involving a phragmoplast originated in a common ancestor of the Coleochaetales, and possibly in a common ancestor of Charales, Coleochaetales, Zygnematales, and plants. [ABSTRACT FROM AUTHOR]

Published

2014

3. Lacustrine Nostoc ( Nostocales) and associated microbiome generate a new type of modern clotted microbialite.

Author

Graham, Linda E., Knack, Jennifer J., Piotrowski, Michael J., Wilcox, Lee W., Cook, Martha E., Wellman, Charles H., Taylor, Wilson, Lewis, Louise A., Arancibia‐Avila, Patricia, and Gabrielson, P.

Subjects

CYANOBACTERIA, STROMATOLITES, HYDROGEN-ion concentration, CARBONATES, GENE enhancers

Abstract

Microbialites are mineral formations formed by microbial communities that are often dominated by cyanobacteria. Carbonate microbialites, known from Proterozoic times through the present, are recognized for sequestering globally significant amounts of inorganic carbon. Recent ecological work has focused on microbial communities dominated by cyanobacteria that produce microbial mats and laminate microbialites (stromatolites). However, the taxonomic composition and functions of microbial communities that generate distinctive clotted microbialites (thrombolites) are less well understood. Here, microscopy and deep shotgun sequencing were used to characterize the microbiome (microbial taxa and their genomes) associated with a single cyanobacterial host linked by 16S sequences to Nostoc commune Vaucher ex Bornet & Flahault, which dominates abundant littoral clotted microbialites in shallow, subpolar, freshwater Laguna Larga in southern Chile. Microscopy and energy-dispersive X-ray spectroscopy suggested the hypothesis that adherent hollow carbonate spheres typical of the clotted microbialite begin development on the rigid curved outer surfaces of the Nostoc balls. A surface biofilm included >50 nonoxygenic bacterial genera (taxa other than Nostoc) that indicate diverse ecological functions. The Laguna Larga Nostoc microbiome included the sulfate reducers Desulfomicrobium and Sulfospirillum and genes encoding all known proteins specific to sulfate reduction, a process known to facilitate carbonate deposition by increasing pH. Sequences indicating presence of nostocalean and other types of nifH, nostocalean sulfide:ferredoxin oxidoreductase (indicating anoxygenic photosynthesis), and biosynthetic pathways for the secondary products scytonemin, mycosporine, and microviridin toxin were identified. These results allow comparisons with microbiota and microbiomes of other algae and illuminate biogeochemical roles of ancient microbialites. [ABSTRACT FROM AUTHOR]

Published

2014

4. AEROTERRESTRIAL COLEOCHAETE (STREPTOPHYTA, COLEOCHAETALES) MODELS EARLY PLANT ADAPTATION TO LAND.

Author

Graham, Linda E., Arancibia-Avila, Patricia, Taylor, Wilson A., Strother, Paul K., and Cook, Martha E.

Subjects

ALGAE, HABITATS, COLEOCHAETE, PLANT species, SEEDS

Abstract

Premise of the study: The streptophyte water-to-land transition was a pivotal, but poorly understood event in Earth history. While some early-diverging modern streptophyte algae are aeroterrestrial (living in subaerial habitats), aeroterrestrial survival had not been tested for Coleochaete, widely regarded as obligately aquatic and one of the extant green algal genera most closely related to embryophytes. This relationship motivated a comparison of aeroterrestrial Coleochaete to lower Paleozoic microfossils whose relationships have been uncertain. Methods: We tested the ability of two species of the experimentally tractable, complex streptophyte algal genus Coleochaete Bréb. to (1) grow and reproduce when cultivated under conditions that mimic humid subaerial habitats, (2) survive desiccation for some period of time, and (3) produce degradation-resistant remains comparable to enigmatic Cambrian microfossils. Key results: When grown on mineral agar media or on quartz sand, both species displayed bodies structurally distinct from those expressed in aquatic habitats. Aeroterrestrial Coleochaete occurred as hairless, multistratose, hemispherical bodies having unistratose lobes or irregular clusters of cells with thick, layered, and chemically resistant walls that resemble certain enigmatic lower Paleozoic microfossils. Whether grown under humid conditions or air-dried for a week, then exposed to liquid water, aeroterrestrial Coleochaete produced typical asexual zoospores and germlings. Cells that had been air-dried for periods up to several months maintained their integrity and green pigmentation. Conclusions: Features of modern aeroterrestrial Coleochaete suggest that ancient complex streptophyte algae could grow and reproduce in moist subaerial habitats, persist through periods of desiccation, and leave behind distinctive microfossil remains. [ABSTRACT FROM AUTHOR]

Published

2012

5. ROLLED LIVERWORT MATS EXPLAIN MAJOR PROTOTAXITES FEATURES: RESPONSE TO COMMENTARIES.

Author

GRAHAM, LINDA E., COOK, MARTHA E., HANSON, DAVID T., PIGG, KATHLEEN B., and GRAHAM, JAMES M.

Subjects

*FOSSILS, *LIVERWORTS, *PALEONTOLOGY, *BIOLOGY, PALEOZOIC paleobiogeography

Abstract

A response by Linda E. Graham and colleagues to commentaries on their article "Structural, Physiological, and Stable Carbon Isotope Evidence That the Enigmalic Paleozoic Fossil Prototaxites Formed From Rolled Liverwort Mats," published in the 2010 issue is presented. The authors argue that the their critics did not completely understand the biology of relevant extant organisms, particularly liverworts. They add that the commentary authors applied insufficiently detailed approach to evaluate the larger scale structure of the fossil.

Published

2010

6. STRUCTURAL, PHYSIOLOGICAL, AND STABLE CARBON ISOTOPIC EVIDENCE THAT THE ENIGMATIC PALEOZOIC FOSSIL PROTOTAXITES FORMED FROM ROLLED LIVERWORT MATS.

Author

Graham, Linda E., Cook, Martha E., Hanson, David T., Pigg, Kathleen B., and Graham, James M.

Subjects

*CARBON isotopes, *LIVERWORTS, *MARCHANTIA, *RHIZOIDS, *PALEOZOIC paleoentomology, *BOTANY

Abstract

New structural, nutritional, and stable carbon isotope data may resolve a long-standing mystery - the biological affinities of the fossil Prototaxites, the largest organism on land during the Late Silurian to Late Devonian (420-370 Ma). The tree trunk-shaped specimens, of varying dimensions but consistent tubular anatomy, first formed prior to vascular plant dominance. Hence, Prowtaxites has been proposed to represent giant algae, fungi, or lichens, despite incompatible biochemical and anatomical observations. Our comparative analyses instead indicate that Prototaxites formed from partially degraded, wind-, gravity-, or water-rolled mats of mixotrophic liverworts having fungal and cyanobacterial associates, much like the modem liverwort genus Marchantia. We propose that the fossil body is largely derived from abundant, highly degradation-resistant, tubular rhizoids of marchantioid liverworts, intermixed with tubular microbial elements. Our concept explains previously puzzling fossil features and is consistent with evidence for liverworts and microbial associates in Ordovician-Devonian deposits, extensive ancient and modem marchantioid mats, and modem associations of liverworts with cyanobacteria and diverse types of fungi. Our interpretation indicates that liverworts were important components of Devonian ecosystems, that some macrofossils and microfossils previously attributed to "nematophytes" actually represent remains of ancient liverworts, and that mixotrophy and microbial associations were features of early land plants. [ABSTRACT FROM AUTHOR]

Published

2010

7. STRUCTURE AND ASEXUAL REPRODUCTION OF THE ENIGMATIC CHAROPHYCEAN GREEN ALGA ENTRANSIA FIMBRIATA (KLEBSORMIDIALES, CHAROPHYCEAE).

Author

Cook, Martha E.

Subjects

*GREEN algae, *CHAROPHYTA, *SEX (Biology), *PHYTOPLANKTON, *BIOLOGICAL evolution, *CHLOROPLASTS

Abstract

As the closest relatives of embryophytes, the charophycean green algae ( sensu Mattox and Stewart) may reveal the evolutionary history of characters in this lineage. Recent molecular phylogenetic analysis indicates that the little-known species Entransia fimbriata Hughes is a member of the charophycean order Klebsormidiales. In this study LM and EM were used to identify and describe additional structural characters of Entransia so that comparisons could be made with Klebsormidium and with other charophycean algae outside the order Klebsormidiales. Features that Entransia shares with various members of the genus Klebsormidium include cylindrical cells in unbranched filaments that may spiral, parietal chloroplasts that cover only part of the circumference of the cell, H-shaped cross walls, and vegetative reproduction by both fragmentation and formation of zoospores or aplanospores. Among the characteristics that distinguish Entransia from Klebsormidium are a highly lobed chloroplast with multiple pyrenoids; a single large vacuole; short cells that die and collapse, apparently facilitating filament fragmentation; and germinating filaments with condensed adhesive at the base and a tapering spine at the tip. Although Entransia has sometimes been tentatively considered to be a member of the Zygnemataceae, the presence of a flagellate life history stage distinguishes Entransia from this group. The pyrenoids of Entransia are typical of those of charophycean algae in having traversing membranes and surrounding starch. Presence of multiple such pyrenoids in each chloroplast of Entransia supports the hypothesis that the common ancestor of charophycean algae and embryophytes had a single chloroplast with multiple pyrenoids. [ABSTRACT FROM AUTHOR]

Published

2004

8. CYTOKINESIS IN COLEOCHAETE ORBICULARIS (CHAROPHYCEAE): AN ANCESTRAL MECHANISM INHERITED BY PLANTS.

Author

Cook, Martha E.

Subjects

*CYTOKINESIS, *CELL division, *CYTOPLASM, *CHAROPHYTA, *COLEOCHAETE, *PLANT evolution

Abstract

Recently, highly vacuolate cells of Arabidopsis were shown to exhibit ‘polarized’ cytokinesis, in which the phragmoplast and cell plate contact the mother cell wall and then progress from one side of the cell to the other, rather than forming uniformly outward from the cell center (Cutler and Ehrhardt, 2002, Proceedings of the National Academy of Sciences, USA 99: 2812–2817). It was not known if such a mechanism was unique to flowering plants or whether it occurred more broadly in the plant clade. To determine if a polar mechanism of cell division might have been characteristic of the first plants, differential interference contrast optics were used to examine living cells of the charophycean green alga Coleochaete orbicularis, a close relative of plants, with cytokinesis involving a phragmoplast. By recording images in different focal planes over time, such ‘polarized’ cytokinesis was found in cells dividing either parallel or perpendicular to the edge of this radially symmetrical organism. Previously reported differences between these two types of division in Coleochaete were clarified. Polarized cytokinesis appears to be an ancestral mechanism of plant cell division inherited from the highly vacuolate cells of the charophycean algal ancestors of plants. [ABSTRACT FROM AUTHOR]

Published

2004

9. Comparative ultrastructure of plasmodesmata of chara and selected bryophytes: Toward an...

Author

Cook, Martha E. and Graham, Linda E.

Subjects

*PLASMODESMATA, *CHARA zeylanica, *LIVERWORTS, *HORNWORTS (Bryophytes), *MOSSES

Abstract

Presents a study examining plasmodesmata of the Chara zeylanica, Monoclea gottschei (liverwort), Notothylas orbicularis (hornwort) and Sphagnum fimbriatum (moss), in an effort to learn the origin of seed plant plasmodesmata. Methods and materials employed; Details on the results.

Published

1997

10. REMARKABLE PLANTS: THE OEDOGONIALES (GREEN ALGAE).

Author

Cook, Martha

Subjects

*GREEN algae, *NONFICTION

Abstract

Reviews the book "Remarkable Plants: The Oedogoniales (Green Algae)," by Jeremy Picket-Heaps and Julianne Pickett-Heaps.

Published

2005