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203. MAILBOX.

Author

Forman, F. J., Russell, Norm, Primus, Rick, McDonald, Kent, Van Zandwyk, Len, Hardie, Isobel, Gobeil, Michelle, Lang, Frank, Wuerthner, George, McKinnon, LaRae, Sawatzky, Diane, Renwick, Betty, and Renwick, Tom

Subjects
LETTERS to the editor, RIVERS, NATURE reserves, NATIONAL parks & reserves, FESTIVALS
Abstract

Several letters to the editor are presented in response to articles in previous issues including "Tulameen Time," in the Fall 2006 issue, "Green Lodges," in the Fall 2006 issue and "Elvis! Elvis! Elvis!" in the Summer 2006 issue.

Published
2006

204. Controlling moisture in deck lumber.

Author

Falk, Bob and McDonald, Kent

Subjects
HOUSE construction, DAMPNESS in buildings
Abstract

Gives directions on how to control moisture in deck lumber. Air drying pressure-treated lumber to equalize moisture content; Shrinkage; Gaps between boards; Importance of finishing a deck with water repellent preservative.

Published
1995

208. The SUN protein UNC-84 is required only in force-bearing cells to maintain nuclear envelope architecture.

Author

Cain, Natalie E., Tapley, Erin C., McDonald, Kent L., Cain, Benjamin M., and Starr, Daniel A.

Subjects
*NUCLEAR membranes, *PROTEIN research, *NUCLEAR matrix, *CYTOSKELETON, *CAENORHABDITIS elegans
Abstract

The nuclear envelope (NE) consists of two evenly spaced bilayers, the inner and outer nuclear membranes. The Sadip and UNC-84 (SUN) proteins and Klarsicht, ANC-1, and Syne homology (KASH) proteins that interact to form LINC (linker of nucleoskeleton and cytoskeleton) complexes connecting the nucleoskeleton to the cytoskeleton have been implicated in maintaining NE spacing. Surprisingly, the NE morphology of most Caenorhabditis elegans nuclei was normal in the absence of functional SUN proteins. Distortions of the perinuclear space observed in unc-84 mutant muscle nuclei resembled those previously observed in HeLa cells, suggesting that SUN proteins are required to maintain NE architecture in cells under high mechanical strain. The UNC-84 protein with large deletions in its luminal domain was able to form functional NE bridges but had no observable effect on NE architecture. Therefore, SUN-KASH bridges are only required to maintain NE spacing in cells subjected to increased mechanical forces. Furthermore, SUN proteins do not dictate the width of the NE. [ABSTRACT FROM AUTHOR]

Published
2014
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209. Choanoflagellates and the ancestry of neurosecretory vesicles.

Author

Göhde, Ronja, Naumann, Benjamin, Laundon, Davis, Imig, Cordelia, McDonald, Kent, Cooper, Benjamin H., Varoqueaux, Frédérique, Fasshauer, Dirk, and Burkhardt, Pawel

Subjects
*SYNAPTIC vesicles, *PROTEIN receptors, *CELLULAR evolution, *ANIMAL diversity, *SYNAPSES, *UNICELLULAR organisms, *NERVE endings
Abstract

Neurosecretory vesicles are highly specialized trafficking organelles that store neurotransmitters that are released at presynaptic nerve endings and are, therefore, important for animal cell-cell signalling. Despite considerable anatomical and functional diversity of neurons in animals, the protein composition of neurosecretory vesicles in bilaterians appears to be similar. This similarity points towards a common evolutionary origin. Moreover, many putative homologues of key neurosecretory vesicle proteins predate the origin of the first neurons, and some even the origin of the first animals. However, little is known about the molecular toolkit of these vesicles in non-bilaterian animals and their closest unicellular relatives, making inferences about the evolutionary origin of neurosecretory vesicles extremely difficult. By comparing 28 proteins of the core neurosecretory vesicle proteome in 13 different species, we demonstrate that most of the proteins are present in unicellular organisms. Surprisingly, we find that the vesicular membrane-associated soluble N-ethylmaleimide-sensitive factor attachment protein receptor protein synaptobrevin is localized to the vesicle-rich apical and basal pole in the choanoflagellate Salpingoeca rosetta. Our 3D vesicle reconstructions reveal that the choanoflagellates S. rosetta and Monosiga brevicollis exhibit a polarized and diverse vesicular landscape reminiscent of the polarized organization of chemical synapses that secrete the content of neurosecretory vesicles into the synaptic cleft. This study sheds light on the ancestral molecular machinery of neurosecretory vesicles and provides a framework to understand the origin and evolution of secretory cells, synapses and neurons. This article is part of the theme issue 'Basal cognition: multicellularity, neurons and the cognitive lens'. [ABSTRACT FROM AUTHOR]

Published
2021
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210. Light-regulated collective contractility in a multicellular choanoflagellate.

Author

Brunet, Thibaut, Larson, Ben T., Linden, Tess A., Vermeij, Mark J. A., McDonald, Kent, and King, Nicole

Subjects
*CONTRACTILITY (Biology), *CHOANOFLAGELLATES, *CELL contraction, *ANIMAL mechanics, *MORPHOGENESIS
Abstract

Collective cell contractions that generate global tissue deformations are a signature feature of animal movement and morphogenesis. However, the origin of collective contractility in animals remains unclear. While surveying the Caribbean island of Curaçao for choanoflagellates, the closest living relatives of animals, we isolated a previously undescribed species (here named Choanoeca flexa sp. nov.) that forms multicellular cup-shaped colonies. The colonies rapidly invert their curvature in response to changing light levels, which they detect through a rhodopsin–cyclic guanosine monophosphate pathway. Inversion requires actomyosin-mediated apical contractility and allows alternation between feeding and swimming behavior. C. flexa thus rapidly converts sensory inputs directly into multicellular contractions. These findings may inform reconstructions of hypothesized animal ancestors that existed before the evolution of specialized sensory and contractile cells. [ABSTRACT FROM AUTHOR]

Published
2019
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211. Listeria monocytogenes triggers noncanonical autophagy upon phagocytosis, but avoids subsequent growth-restricting xenophagy.

Author

Mitchell, Gabriel, Cheng, Mandy I., Chen Chen, Nguyen, Brittney N., Whiteley, Aaron T., Kianian, Sara, Cox, Jeffery S., Green, Douglas R., Mcdonald, Kent L., and Portnoy, Daniel A.

Subjects
*LISTERIA monocytogenes, *AUTOPHAGY, *PHAGOCYTOSIS, *BACTERIAL growth, *PHOSPHOLIPASES
Abstract

Xenophagy is a selective macroautophagic process that protects the host cytosol by entrapping and delivering microbes to a degradative compartment. Both noncanonical autophagic pathways and xenophagy are activated by microbes during infection, but the relative importance and function of these distinct processes are not clear. In this study, we used bacterial and host mutants to dissect the contribution of autophagic processes responsible for bacterial growth restriction of Listeria monocytogenes. L. monocytogenes is a facultative intracellular pathogen that escapes from phagosomes, grows in the host cytosol, and avoids autophagy by expressing three determinants of pathogenesis: two secreted phospholipases C (PLCs; PlcA and PlcB) and a surface protein (ActA). We found that shortly after phagocytosis, wild-type (WT) L. monocytogenes escaped from a noncanonical autophagic process that targets damaged vacuoles. During this process, the autophagy marker LC3 localized to single-membrane phagosomes independently of the ULK complex, which is required for initiation of macroautophagy. However, growth restriction of bacteria lacking PlcA, PlcB, and ActA required FIP200 and TBK1, both involved in the engulfment of microbes by xenophagy. Time-lapse video microscopy revealed that deposition of LC3 on L. monocytogenes-containing vacuoles via noncanonical autophagy had no apparent role in restricting bacterial growth and that, upon access to the host cytosol, WT L. monocytogenes utilized PLCs and ActA to avoid subsequent xenophagy. In conclusion, although noncanonical autophagy targets phagosomes, xenophagy was required to restrict the growth of L. monocytogenes, an intracellular pathogen that damages the entry vacuole. [ABSTRACT FROM AUTHOR]

Published
2018
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213. Rbfox-regulated alternative splicing is critical for zebrafish cardiac and skeletal muscle functions

Author

Gallagher, Thomas L., Arribere, Joshua A., Geurts, Paul A., Exner, Cameron R.T., McDonald, Kent L., Dill, Kariena K., Marr, Henry L., Adkar, Shaunak S., Garnett, Aaron T., Amacher, Sharon L., and Conboy, John G.

Subjects
*GENETIC engineering, *GENETIC regulation, *ZEBRA danio, *SKELETAL muscle, *MYOCARDIUM, *BIOINFORMATICS
Abstract

Abstract: Rbfox RNA binding proteins are implicated as regulators of phylogenetically-conserved alternative splicing events important for muscle function. To investigate the function of rbfox genes, we used morpholino-mediated knockdown of muscle-expressed rbfox1l and rbfox2 in zebrafish embryos. Single and double morphant embryos exhibited changes in splicing of overlapping sets of bioinformatically-predicted rbfox target exons, many of which exhibit a muscle-enriched splicing pattern that is conserved in vertebrates. Thus, conservation of intronic Rbfox binding motifs is a good predictor of Rbfox-regulated alternative splicing. Morphology and development of single morphant embryos were strikingly normal; however, muscle development in double morphants was severely disrupted. Defects in cardiac muscle were marked by reduced heart rate and in skeletal muscle by complete paralysis. The predominance of wavy myofibers and abnormal thick and thin filaments in skeletal muscle revealed that myofibril assembly is defective and disorganized in double morphants. Ultra-structural analysis revealed that although sarcomeres with electron dense M- and Z-bands are present in muscle fibers of rbfox1l/rbox2 morphants, they are substantially reduced in number and alignment. Importantly, splicing changes and morphological defects were rescued by expression of morpholino-resistant rbfox cDNA. Additionally, a target-blocking MO complementary to a single UGCAUG motif adjacent to an rbfox target exon of fxr1 inhibited inclusion in a similar manner to rbfox knockdown, providing evidence that Rbfox regulates the splicing of target exons via direct binding to intronic regulatory motifs. We conclude that Rbfox proteins regulate an alternative splicing program essential for vertebrate heart and skeletal muscle functions. [Copyright &y& Elsevier]

Published
2011
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214. Cell differentiation and morphogenesis in the colony-forming choanoflagellate Salpingoeca rosetta

Author

Dayel, Mark J., Alegado, Rosanna A., Fairclough, Stephen R., Levin, Tera C., Nichols, Scott A., McDonald, Kent, and King, Nicole

Subjects
*CELL differentiation, *MORPHOGENESIS, *CYTOLOGY, *FLAGELLATA, *CELL communication, *ELECTRON microscopy, *CARRIER proteins
Abstract

Abstract: It has been posited that animal development evolved from pre-existing mechanisms for regulating cell differentiation in the single celled and colonial ancestors of animals. Although the progenitors of animals cannot be studied directly, insights into their cell biology may be gleaned from comparisons between animals and their closest living relatives, the choanoflagellates. We report here on the life history, cell differentiation and intercellular interactions in the colony-forming choanoflagellate Salpingoeca rosetta. In response to diverse environmental cues, S. rosetta differentiates into at least five distinct cell types, including three solitary cell types (slow swimmers, fast swimmers, and thecate cells) and two colonial forms (rosettes and chains). Electron microscopy reveals that cells within colonies are held together by a combination of fine intercellular bridges, a shared extracellular matrix, and filopodia. In addition, we have discovered that the carbohydrate-binding protein wheat germ agglutinin specifically stains colonies and the slow swimmers from which they form, showing that molecular differentiation precedes multicellular development. Together, these results help establish S. rosetta as a model system for studying simple multicellularity in choanoflagellates and provide an experimental framework for investigating the origin of animal multicellularity and development. [Copyright &y& Elsevier]

Published
2011
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215. Three-Dimensional Macromolecular Organization of Cryofixed Myxococcus xanthus Biofilms as Revealed by Electron Microscopic Tomography.

Author

Palsdottir, Hildur, Remis, Jonathan P., Schaudinn, Christoph, O'Toole, Eileen, Lux, Renate, Wenyuan Shi, McDonald, Kent L., Costerton, J. William, and Auer, Manfred

Subjects
*BACTERIA, *BIOFILMS, *MYXOCOCCUS, *CHROMATIN, *CYTOPLASM, *MEMBRANE proteins
Abstract

Despite the fact that most bacteria grow in biofilms in natural and pathogenic ecosystems, very little is known about the ultrastructure of their component cells or about the details of their community architecture. We used high-pressure freezing and freeze-substitution to minimize the artifacts of chemical fixation, sample aggregation, and sample extraction. As a further innovation we have, for the first time in biofilm research, used electron tomography and three-dimensional (3D) visualization to better resolve the macromolecular 3D ultrastructure of a biofilm. This combination of superb specimen preparation and greatly improved resolution in the z axis has opened a window in studies of Myxococcus xanthus cell ultrastructure and biofilm community architecture. New structural information on the chromatin body, cytoplasmic organization, membrane apposition between adjacent cells, and structure and distribution of pili and vesicles in the biofilm matrix is presented. [ABSTRACT FROM AUTHOR]

Published
2009
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216. Role of LSM34/SpSM50 proteins in endoskeletal spicule formation in sea urchin embryos.

Author

Wilt, Fred, Croker, Lindsay, Killian, Christopher E., and McDonald, Kent

Subjects
*SEA urchins, *EMBRYOS, *SPICULE (Anatomy), *OLIGONUCLEOTIDES, *PROTEINS, *LYTECHINUS
Abstract

Sea urchin embryos form an endoskeletal spicule composed of calcium carbonate and occluded matrix proteins. The accumulation of the LSM34 spicule matrix protein in embryos of Lytechinus pictus (and its ortholog, SpSM50, in Strongylocentrotus purpuratus) has been inhibited using morpholino antisense oligonucleotides. The inhibition, using relatively high levels of antisense reagent, can result in the complete absence of spicules, and the complete loss of immunoreactive LSM34/SpSM50, as judged by immunostaining and Western blotting. Primary mesenchyme cells (PMCs) do form and express PMC-specific cell surface antigens despite this inhibition. However, these anti-LSM34/SpSM50-treated embryos do not accumulate SM30 protein, another major matrix protein. Hence, both the initiation of spicule formation and subsequent morphogenesis require LSM34 accumulation in L. pictus, and the accumulation of its ortholog, SpSM50, in S. purpuratus. [ABSTRACT FROM AUTHOR]

Published
2008
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217. SYP-3 Restricts Synaptonemal Complex Assembly to Bridge Paired Chromosome Axes During Meiosis in Caenorhabditis elegans.

Author

Smolikov, Sarit, Eizinger, Andreas, Schild-Prufert, Kristina, Hurlburt, Allison, McDonald, Kent, Engebrecht, Joanne, Villeneuve, Anne M., and Colaiácovo, Mónica P.

Subjects
*GENETICS, *CHROMOSOMES, *CAENORHABDITIS elegans, *KARYOKINESIS, *CELL nuclei, *CELL division
Abstract

Synaptonemal complex (SC) formation must be regulated to occur only between aligned pairs of homologous chromosomes, ultimately ensuring proper chromosome segregation in meiosis. Here we identify SYP-3, a coiled-coil protein that is required for assembly of the central region of the SC and for restricting its loading to occur only in an appropriate context, forming structures that bridge the axes of paired meiotic chromosomes in Caenorhabditis elegans. We find that inappropriate loading of central region proteins interferes with homolog pairing, likely by triggering a premature change in chromosome configuration during early prophase that terminates the search for homologs. As a result, syp-3 mutants lack chiasmata and exhibit increased chromosome missegregation. Altogether, our studies lead us to propose that SYP-3 regulates synapsis along chromosomes, contributing to meiotic progression in early prophase. [ABSTRACT FROM AUTHOR]

Published
2007
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218. Oocyte CD9 is enriched on the microvillar membrane and required for normal microvillar shape and distribution

Author

Runge, Kathryn E., Evans, James E., He, Zhi-Yong, Gupta, Surabhi, McDonald, Kent L., Stahlberg, Henning, Primakoff, Paul, and Myles, Diana G.

Subjects
*CELL membranes, *FERTILIZATION (Biology), *TRANSMISSION electron microscopy, *DEVELOPMENTAL biology
Abstract

Abstract: Microvilli are found on the surface of many cell types, including the mammalian oocyte, where they are thought to act in initial contact of sperm and oocyte plasma membranes. CD9 is currently the only oocyte protein known to be required for sperm–oocyte fusion. We found CD9 is localized to the oocyte microvillar membrane using transmission electron microscopy (TEM). Scanning electron microscopy (SEM) showed that CD9 null oocytes, which are unable to fuse with sperm, have an altered length, thickness and density of their microvilli. One aspect of this change in morphology was quantified using TEM by measuring the radius of curvature at the microvillar tips. A small radius of curvature is thought to promote fusibility and the radius of curvature of microvillar tips on CD9 wild-type oocytes was found to be half that of the CD9 null oocytes. We found that oocyte CD9 co-immunoprecipitates with two Ig superfamily cis partners, EWI-2 and EWI-F, which could have a role in linking CD9 to the oocyte microvillar actin core. We also examined latrunculin B-treated oocytes, which are known to have reduced fusion ability, and found altered microvillar morphology by SEM and TEM. Our data suggest that microvilli may participate in sperm–oocyte fusion. Microvilli could act as a platform to concentrate adhesion/fusion proteins and/or provide a membrane protrusion with a low radius of curvature. They may also have a dynamic interaction with the sperm that serves to capture the sperm cell and bring it into close contact with the oocyte plasma membrane. [Copyright &y& Elsevier]

Published
2007
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219. Functional modulation of IFT kinesins extends the sensory repertoire of ciliated neurons in Caenorhabditis elegans.

Author

Evans, James E., Snow, Joshua J., Gunnarson, Amy L., Ou, Guangshuo, Stahlberg, Henning, Scholey, Jonathan M., and McDonald, Kent L.

Subjects
*CAENORHABDITIS elegans, *CILIARY body, *KINESIN, *ANIMAL genetics, *CHEMOTAXIS
Abstract

The diversity of sensory cilia on Caenorhabditis elegans neurons allows the animal to detect a variety of sensory stimuli. Sensory cilia are assembled by intraflagellar transport (IFT) kinesins, which transport ciliary precursors, bound to IFT particles, along the ciliary axoneme for incorporation into ciliary structures. Using fluorescence microscopy of living animals and serial section electron microscopy of high pressure-frozen, freeze-substituted IFT motor mutants, we found that two IFT kinesins, homodimeric OSM-3 kinesin and heterotrimeric kinesin II, function in a partially redundant manner to build full-length amphid channel cilia but are completely redundant for building full-length amphid wing (AWC) cilia. This difference reflects cilia-specific differences in OSM-3 activity, which serves to extend distal singlets in channel cilia but not in AWC cilia, which lack such singlets. Moreover, AWC-specific chemotaxis assays reveal novel sensory functions for kinesin II in these wing cilia. We propose that kinesin II is a "canonical" IFT motor, whereas OSM-3 is an "accessory" IFT motor, and that subtle changes in the deployment or actions of these IFT kinesins can contribute to differences in cilia morphology, cilia function, and sensory perception. [ABSTRACT FROM AUTHOR]

Published
2006
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220. Actin dynamics coupled to clathrin-coated vesicle formation at the trans-Golgi network.

Author

Carreno, Sebastien, Engqvist-Goldsein, Åsa E., Zhang, Claire X., McDonald, Kent L., and Drubin, David G.

Subjects
*ACTIN, *ACTOMYOSIN, *PROTEINS, *BIOMOLECULES, *RNA, *NUCLEIC acids
Abstract

In diverse species, actin assembly facilitates clathrin- coated vesicle (CCV) formation during endocytosis. This role might be an adaptation specific to the unique environment at the cell cortex, or it might be fundamental, facilitating CCV formation on different membranes. Proteins of the Sla2p/Hip1R family bind to actin and clathrin at endocytic sites in yeast and mammals. We hypothesized that Hip 1R might also coordinate actin assembly with clathrin budding at the trans-Golgi network (TGN). Using deconvolution and time-lapse microscopy, we showed that Hip 1R is present on CCVs emerging from the TGN. These vesicles contain the mannose 6-phosphate receptor involved in targeting proteins to the lysosome, and the actin nucleating Arp2/3 complex. Silencing of Hip 1R expression by RNAi resulted in disruption of Golgi organization and accumulation of F-actin structures associated with CCVs on the TGN. Hip 1R silencing and actin poisons slowed cathepsin D exit from the TGN. These studies establish roles for Hip 1R and actin in CCV budding from theTGN for lysosome biogenesis. [ABSTRACT FROM AUTHOR]

Published
2004
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221. Dynamic phosphoregulation of the cortical actin cytoskeleton and endocytic machinery revealed by real-time chemical genetic analysis.

Author

Sekiya-Kawasaki, Mariko, Groen, Aaron Chris, Cope, M. Jamie T.V., Kaksonen, Marko, Watson, Hadiya A., Chao Zhang, Shokat, Kevan M., Wendland, Beverly, McDonald, Kent L., McCaffery, J. Michael, and Drubin, David G.

Subjects
*ACTIN, *CYTOSKELETON, *PHEROMONES, *ENDOCYTOSIS
Abstract

Studies the dynamic phosphoregulation of the cortical actin cytoskeleton and endocytic machinery revealed by real-time chemical genetic analysis. Focus on in vivo Prk1p inhibition blocked pheromone receptor endocytosis; Observation of vesicles of endocytic origin within the actin clumps; Regulation of the actin assembly-stimulating activity of endocytic proteins.

Published
2003
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222. Synaptonemal Complex Assembly in C. elegans Is Dispensable for Loading Strand-Exchange Proteins but Critical for Proper Completion of Recombination

Author

Colaiácovo, Mónica P., MacQueen, Amy J., Martinez-Perez, Enrique, McDonald, Kent, Adamo, Adele, La Volpe, Adriana, and Villeneuve, Anne M.

Subjects
*CHROMOSOMES, *CAENORHABDITIS, *MEIOSIS, *DNA, *GENETICS
Abstract

Here we probe the relationships between assembly of the synaptonemal complex (SC) and progression of recombination between homologous chromosomes during Caenorhabditis elegans meiosis. We identify SYP-2 as a structural component of the SC central region and show that central region assembly depends on proper morphogenesis of chromosome axes. We find that the SC central region is dispensable for initiation of recombination and for loading of DNA strand-exchange protein RAD-51, despite the fact that extensive RAD-51 loading normally occurs in the context of assembled SC. Further, persistence of RAD-51 foci and absence of crossover products in meiotic mutants suggests that SC central region components and recombination proteins MSH-4 and MSH-5 are required to promote conversion of resected double-strand breaks into stable post-strand exchange intermediates. Our data also suggest that early prophase barriers to utilization of sister chromatids as repair templates do not depend on central region assembly. [Copyright &y& Elsevier]

Published
2003
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223. A mitochondrial redox switch licenses the onset of morphogenesis in animals.

Author

Kahlon U, Ricca FD, Pillai SJ, Olivetta M, Tharp KM, Jao LE, Dudin O, McDonald K, and Aydogan MG

Abstract

Embryos undergo pre-gastrulation cleavage cycles to generate a critical cell mass before transitioning to morphogenesis. The molecular underpinnings of this transition have traditionally centered on zygotic chromatin remodeling and genome activation 1,2 , as their repression can prevent downstream processes of differentiation and organogenesis. Despite precedents that oxygen depletion can similarly suspend development in early embryos 3-6 , hinting at a pivotal role for oxygen metabolism in this transition, whether there is a bona fide chemical switch that licenses the onset of morphogenesis remains unknown. Here we discover that a mitochondrial oxidant acts as a metabolic switch to license the onset of animal morphogenesis. Concomitant with the instatement of mitochondrial membrane potential, we found a burst-like accumulation of mitochondrial superoxide (O 2 - ) during fly blastoderm formation. In vivo chemistry experiments revealed that an electron leak from site III Qo at ETC Complex III is responsible for O 2 - production. Importantly, depleting mitochondrial O 2 - fully mimics anoxic conditions and, like anoxia, induces suspended animation prior to morphogenesis, but not after. Specifically, H 2 O 2 , and not ONOO - , NO, or HO•, can single-handedly account for this mtROS-based response. We demonstrate that depleting mitochondrial O 2 - similarly prevents the onset of morphogenetic events in vertebrate embryos and ichthyosporea, close relatives of animals. We postulate that such redox-based metabolic licensing of morphogenesis is an ancient trait of holozoans that couples the availability of oxygen to development, conserved from early-diverging animal relatives to vertebrates., Competing Interests: Competing interests: Authors declare no competing interests for this study.

Published
2024
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224. Evolution of the ribbon-like organization of the Golgi apparatus in animal cells.

Author

Benvenuto G, Leone S, Astoricchio E, Bormke S, Jasek S, D'Aniello E, Kittelmann M, McDonald K, Hartenstein V, Baena V, Escrivà H, Bertrand S, Schierwater B, Burkhardt P, Ruiz-Trillo I, Jékely G, Ullrich-Lüter J, Lüter C, D'Aniello S, Arnone MI, and Ferraro F

Subjects
Animals, Humans, Cytoskeleton metabolism, HeLa Cells, Vertebrates, Membrane Proteins metabolism, Golgi Apparatus metabolism
Abstract

The "ribbon," a structural arrangement in which Golgi stacks connect to each other, is considered to be restricted to vertebrate cells. Although ribbon disruption is linked to various human pathologies, its functional role in cellular processes remains unclear. In this study, we investigate the evolutionary origin of the Golgi ribbon. We observe a ribbon-like architecture in the cells of several metazoan taxa suggesting its early emergence in animal evolution predating the appearance of vertebrates. Supported by AlphaFold2 modeling, we propose that the evolution of Golgi reassembly and stacking protein (GRASP) binding by golgin tethers may have driven the joining of Golgi stacks resulting in the ribbon-like configuration. Additionally, we find that Golgi ribbon assembly is a shared developmental feature of deuterostomes, implying a role in embryogenesis. Overall, our study points to the functional significance of the Golgi ribbon beyond vertebrates and underscores the need for further investigations to unravel its elusive biological roles., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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225. Radiological HEPA Filter 10-year Lifetime Evaluation in Research Facilities.

Author

Barnett JM, Bliss M, Schrank KR, Edwards HZ, Brown DM, McDonald KM, and Cooley SK

Subjects
Dust, Filtration methods, Particulate Matter, Air Filters
Abstract

Abstract: High-efficiency particulate air (HEPA) filters are widely employed by nuclear facilities to remove radiological particulate matter from their effluent exhaust streams. The purpose of this study is to evaluate the relationships between the 10-y HEPA filter lifetime deployment and its other performance indicators. This 10-y-long endeavor to collect and analyze data regarding the service life of HEPA filters at the Pacific Northwest National Laboratory began in 2010. A set of HEPA filters was selected, and the filters have been surveyed and analyzed at least annually to verify compliance with permit conditions. The study suggests the frequency of filter replacement should be based on the actual operational requirements, such as fume hood face velocity and/or efficiency test results, instead of on the prescribed filter "age limit" of 10 y from the date of manufacture (e.g., birth date) when operating under dry conditions. The study has now been completed, and over the past decade, all the HEPA filters have been replaced due to either technical issues as listed in this report or the previously recommended filter "age limit" of 10 y as prescribed by the oversight bodies. Experimentally determined failure rates are also determined from the data set and can be used to estimate the chances of HEPA filters surviving 15, 20, or even 30 y., Competing Interests: The authors declare no conflicts of interest., (Copyright © 2022 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the Health Physics Society.)

Published
2022
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226. Chloroplast Sec14-like 1 (CPSFL1) is essential for normal chloroplast development and affects carotenoid accumulation in Chlamydomonas .

Author

García-Cerdán JG, Schmid EM, Takeuchi T, McRae I, McDonald KL, Yordduangjun N, Hassan AM, Grob P, Xu CS, Hess HF, Fletcher DA, Nogales E, and Niyogi KK

Subjects
Chlamydomonas reinhardtii classification, Chlamydomonas reinhardtii genetics, Chlamydomonas reinhardtii metabolism, Chloroplasts chemistry, Chloroplasts genetics, Photosynthesis, Phylogeny, Plant Proteins chemistry, Plant Proteins genetics, Protein Domains, Carotenoids metabolism, Chlamydomonas reinhardtii growth & development, Chloroplasts metabolism, Plant Proteins metabolism
Abstract

Plastid isoprenoid-derived carotenoids serve essential roles in chloroplast development and photosynthesis. Although nearly all enzymes that participate in the biosynthesis of carotenoids in plants have been identified, the complement of auxiliary proteins that regulate synthesis, transport, sequestration, and degradation of these molecules and their isoprenoid precursors have not been fully described. To identify such proteins that are necessary for the optimal functioning of oxygenic photosynthesis, we screened a large collection of nonphotosynthetic (acetate-requiring) DNA insertional mutants of Chlamydomonas reinhardtii and isolated cpsfl1 The cpsfl1 mutant is extremely light-sensitive and susceptible to photoinhibition and photobleaching. The CPSFL1 gene encodes a CRAL-TRIO hydrophobic ligand-binding (Sec14) domain protein. Proteins containing this domain are limited to eukaryotes, but some may have been retargeted to function in organelles of endosymbiotic origin. The cpsfl1 mutant showed decreased accumulation of plastidial isoprenoid-derived pigments, especially carotenoids, and whole-cell focused ion-beam scanning-electron microscopy revealed a deficiency of carotenoid-rich chloroplast structures (e.g., eyespot and plastoglobules). The low carotenoid content resulted from impaired biosynthesis at a step prior to phytoene, the committed precursor to carotenoids. The CPSFL1 protein bound phytoene and β-carotene when expressed in Escherichia coli and phosphatidic acid in vitro. We suggest that CPSFL1 is involved in the regulation of phytoene synthesis and carotenoid transport and thereby modulates carotenoid accumulation in the chloroplast., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published
2020
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227. 3D Ultrastructure of the Cochlear Outer Hair Cell Lateral Wall Revealed By Electron Tomography.

Author

Triffo WJ, Palsdottir H, Song J, Morgan DG, McDonald KL, Auer M, and Raphael RM

Abstract

Outer Hair Cells (OHCs) in the mammalian cochlea display a unique type of voltage-induced mechanical movement termed electromotility, which amplifies auditory signals and contributes to the sensitivity and frequency selectivity of mammalian hearing. Electromotility occurs in the OHC lateral wall, but it is not fully understood how the supramolecular architecture of the lateral wall enables this unique form of cellular motility. Employing electron tomography of high-pressure frozen and freeze-substituted OHCs, we visualized the 3D structure and organization of the membrane and cytoskeletal components of the OHC lateral wall. The subsurface cisterna (SSC) is a highly prominent feature, and we report that the SSC membranes and lumen possess hexagonally ordered arrays of particles. We also find the SSC is tightly connected to adjacent actin filaments by short filamentous protein connections. Pillar proteins that join the plasma membrane to the cytoskeleton appear as variable structures considerably thinner than actin filaments and significantly more flexible than actin-SSC links. The structurally rich organization and rigidity of the SSC coupled with apparently weaker mechanical connections between the plasma membrane (PM) and cytoskeleton reveal that the membrane-cytoskeletal architecture of the OHC lateral wall is more complex than previously appreciated. These observations are important for our understanding of OHC mechanics and need to be considered in computational models of OHC electromotility that incorporate subcellular features., (Copyright © 2019 Triffo, Palsdottir, Song, Morgan, McDonald, Auer and Raphael.)

Published
2019
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228. Meiotic cellular rejuvenation is coupled to nuclear remodeling in budding yeast.

Author

King GA, Goodman JS, Schick JG, Chetlapalli K, Jorgens DM, McDonald KL, and Ünal E

Subjects
Microscopy, Fluorescence, Saccharomycetales cytology, Time-Lapse Imaging, Biological Factors metabolism, Macromolecular Substances metabolism, Meiosis, Saccharomycetales growth & development, Saccharomycetales metabolism
Abstract

Production of healthy gametes in meiosis relies on the quality control and proper distribution of both nuclear and cytoplasmic contents. Meiotic differentiation naturally eliminates age-induced cellular damage by an unknown mechanism. Using time-lapse fluorescence microscopy in budding yeast, we found that nuclear senescence factors - including protein aggregates, extrachromosomal ribosomal DNA circles, and abnormal nucleolar material - are sequestered away from chromosomes during meiosis II and subsequently eliminated. A similar sequestration and elimination process occurs for the core subunits of the nuclear pore complex in both young and aged cells. Nuclear envelope remodeling drives the formation of a membranous compartment containing the sequestered material. Importantly, de novo generation of plasma membrane is required for the sequestration event, preventing the inheritance of long-lived nucleoporins and senescence factors into the newly formed gametes. Our study uncovers a new mechanism of nuclear quality control and provides insight into its function in meiotic cellular rejuvenation., Competing Interests: GK, JG, JS, KC, DJ, KM No competing interests declared, EÜ Reviewing editor, eLife, (© 2019, King et al.)

Published
2019
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229. Evolutionary insights into premetazoan functions of the neuronal protein homer.

Author

Burkhardt P, Grønborg M, McDonald K, Sulur T, Wang Q, and King N

Subjects
Animals, Astrocytes metabolism, Cell Nucleus metabolism, Choanoflagellata metabolism, Homer Scaffolding Proteins, Phylogeny, Rats, Carrier Proteins chemistry, Carrier Proteins metabolism, Evolution, Molecular, Membrane Proteins metabolism
Abstract

Reconstructing the evolution and ancestral functions of synaptic proteins promises to shed light on how neurons first evolved. The postsynaptic density (PSD) protein Homer scaffolds membrane receptors and regulates Ca(2+) signaling in diverse metazoan cell types (including neurons and muscle cells), yet its ancestry and core functions are poorly understood. We find that the protein domain organization and essential biochemical properties of metazoan Homer proteins, including their ability to tetramerize, are conserved in the choanoflagellate Salpingoeca rosetta, one of the closest living relatives of metazoans. Unlike in neurons, Homer localizes to the nucleoplasm in S. rosetta and interacts directly with Flotillin, a protein more commonly associated with cell membranes. Surprisingly, we found that the Homer/Flotillin interaction and its localization to the nucleus are conserved in metazoan astrocytes. These findings suggest that Homer originally interacted with Flotillin in the nucleus of the last common ancestor of metazoans and choanoflagellates and was later co-opted to function as a membrane receptor scaffold in the PSD., (© The Author 2014. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2014
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230. Out with the old and in with the new: rapid specimen preparation procedures for electron microscopy of sectioned biological material.

Author

McDonald KL

Subjects
Animals, Cryopreservation, Freeze Substitution, Immunohistochemistry, Mice, Microscopy, Electron instrumentation, Microtomy instrumentation, Tissue Fixation instrumentation, Microscopy, Electron methods, Microtomy methods, Tissue Fixation methods
Abstract

This article presents the best current practices for preparation of biological samples for examination as thin sections in an electron microscope. The historical development of fixation, dehydration, and embedding procedures for biological materials are reviewed for both conventional and low temperature methods. Conventional procedures for processing cells and tissues are usually done over days and often produce distortions, extractions, and other artifacts that are not acceptable for today's structural biology standards. High-pressure freezing and freeze substitution can minimize some of these artifacts. New methods that reduce the times for freeze substitution and resin embedding to a few hours are discussed as well as a new rapid room temperature method for preparing cells for on-section immunolabeling without the use of aldehyde fixatives.

Published
2014
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231. C-terminal processing of reaction center protein D1 is essential for the function and assembly of photosystem II in Arabidopsis.

Author

Che Y, Fu A, Hou X, McDonald K, Buchanan BB, Huang W, and Luan S

Subjects
Electrophoresis, Polyacrylamide Gel, Endopeptidases genetics, Fluorescence, Gene Knockdown Techniques, Reverse Transcriptase Polymerase Chain Reaction, Thylakoids metabolism, Arabidopsis metabolism, Endopeptidases metabolism, Light-Harvesting Protein Complexes metabolism, Photosystem II Protein Complex biosynthesis, Photosystem II Protein Complex physiology
Abstract

Photosystem II (PSII) reaction center protein D1 is synthesized as a precursor (pD1) with a short C-terminal extension. The pD1 is processed to mature D1 by carboxyl-terminal peptidase A to remove the C-terminal extension and form active protein. Here we report functional characterization of the Arabidopsis gene encoding D1 C-terminal processing enzyme (AtCtpA) in the chloroplast thylakoid lumen. Recombinant AtCtpA converted pD1 to mature D1 and a mutant lacking AtCtpA retained all D1 in precursor form, confirming that AtCtpA is solely responsible for processing. As with cyanobacterial ctpa, a knockout Arabidopsis atctpa mutant was lethal under normal growth conditions but was viable with sucrose under low-light conditions. Viable plants, however, showed deficiencies in PSII and thylakoid stacking. Surprisingly, unlike its cyanobacterial counterpart, the Arabidopsis mutant retained both monomer and dimer forms of the PSII complexes that, although nonfunctional, contained both the core and extrinsic subunits. This mutant was also essentially devoid of PSII supercomplexes, providing an unexpected link between D1 maturation and supercomplex assembly. A knock-down mutant expressing about 2% wild-type level of AtCtpA showed normal growth under low light but was stunted and accumulated pD1 under high light, indicative of delayed C-terminal processing. Although demonstrating the functional significance of C-terminal D1 processing in PSII biogenesis, our study reveals an unsuspected link between D1 maturation and PSII supercomplex assembly in land plants, opening an avenue for exploring the mechanism for the association of light-harvesting complexes with the PSII core complexes.

Published
2013
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232. Preparation of Drosophila specimens for examination by transmission electron microscopy.

Author

McDonald KL, Sharp DJ, and Rickoll W

Subjects
Animals, Entomology methods, Drosophila ultrastructure, Microscopy, Electron, Transmission methods, Tissue Embedding methods, Tissue Fixation methods
Abstract

There is no single, simple procedure for fixing and embedding all tissues for transmission electron microscopy (TEM). The chemistry of different cell types is to some extent unique, and this affects the way each cell type reacts to the wide array of fixatives, buffers, organic solvents, and resins used in TEM specimen preparation. A recurring theme in those organisms or cell types that are difficult to fix is the presence of a diffusion barrier that prevents the free diffusion of fixative and other chemicals in and out of the cell or tissue. This in turn means that fixation takes a relatively long time (measured in minutes or tens of minutes in some cases), during which the cells begin autolysis or are otherwise degraded from their original state. Drosophila requires specific preparation methods for TEM because most fly tissues are surrounded by significant diffusion barriers. In the embryo, it is the vitelline envelope, and in larvae and adults, it is the cuticle. In this article, we discuss methods that have evolved to cope with these barriers to achieve reasonable preservation of ultrastructure.

Published
2012
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233. Immunolabeling of thin sections of Drosophila tissues for transmission electron microscopy.

Author

McDonald KL, Sharp DJ, and Rickoll W

Subjects
Animals, Microtomy methods, Plastic Embedding methods, Drosophila ultrastructure, Microscopy, Electron, Transmission methods, Microscopy, Immunoelectron methods, Staining and Labeling methods
Abstract

The main advantage of electron microscopy (EM) for immunolabeling is resolution, but there is also another aspect that is often overlooked. For many investigators, the definitive image of an organelle is the one generated by EM. This is especially true for membranous organelles, with the possible exception of the nucleus and plant vacuoles. For example, references to the Golgi apparatus, smooth and rough endoplasmic reticulum, centriole, kinetochore, or mitochondrion typically bring to mind the images in an electron micrograph. The components of the cytoskeleton also have characteristic structural features that are associated with their EM image. Thus, it can be more effective for investigators to view gold particles superimposed over the image of a microtubule (MT) or mitochondrion using EM than to see bright dots or lines in the light microscope. This is especially true if the immunofluorescence image is of fixed cells. Here, we provide an overview of methods of EM immunolabeling used for localizing specific antigens on thin sections of Drosophila tissues.

Published
2012
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234. Postembedding immunolabeling of thin sections of Drosophila tissues for transmission electron microscopy.

Author

McDonald KL, Sharp DJ, and Rickoll W

Subjects
Animals, Microtomy methods, Plastic Embedding methods, Drosophila ultrastructure, Microscopy, Electron, Transmission methods, Microscopy, Immunoelectron methods, Specimen Handling methods, Staining and Labeling methods
Abstract

Postembedding immunolabeling using resin sections is the recommended method for beginners carrying out electron microscopy (EM) immunolabeling. Postembedding labeling refers to labeling on sections, which is a method of gaining access to the interior of the cell without the harshness of detergent or ionic extraction as is performed with preembed labeling. Investigators already familiar with routine EM-sectioning techniques find EM immunolabeling using resin sections easiest to do, as procedures are similar to those used when performing light microscopy (LM) immunolabeling, but using a different resin. In addition, the overall preservation of structure is best in resin compared to use of cryosections or preembed labeling. The most critical component of immunoEM (iEM) is what primary antibody to use. This protocol descibes antibody labeling procedures for postembedding iEM using thin sections of Drosophila tissues.

Published
2012
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235. Three-dimensional ultrastructure of the septin filament network in Saccharomyces cerevisiae.

Author

Bertin A, McMurray MA, Pierson J, Thai L, McDonald KL, Zehr EA, García G 3rd, Peters P, Thorner J, and Nogales E

Subjects
Cytoskeleton chemistry, Cytoskeleton ultrastructure, Imaging, Three-Dimensional, Mutation, Saccharomyces cerevisiae ultrastructure, Saccharomyces cerevisiae Proteins chemistry, Saccharomyces cerevisiae Proteins ultrastructure, Septins ultrastructure, Saccharomyces cerevisiae chemistry, Septins chemistry
Abstract

Septins are conserved GTP-binding proteins involved in membrane compartmentalization and remodeling. In budding yeast, five mitotic septins localize at the bud neck, where the plasma membrane is enriched in phosphatidylinositol-4,5-bisphosphate (PtdIns4,5P(2)). We previously established the subunit organization within purified yeast septin complexes and how these hetero-octamers polymerize into filaments in solution and on PtdIns4,5P(2)-containing lipid monolayers. How septin ultrastructure in vitro relates to the septin-containing filaments observed at the neck in fixed cells by thin-section electron microscopy was unclear. A morphological description of these filaments in the crowded space of the cell is challenging, given their small cross section. To examine septin organization in situ, sections of dividing yeast cells were analyzed by electron tomography of freeze-substituted cells, as well as by cryo-electron tomography. We found networks of filaments both perpendicular and parallel to the mother-bud axis that resemble septin arrays on lipid monolayers, displaying a repeat pattern that mirrors the molecular dimensions of the corresponding septin preparations in vitro. Thus these in situ structures most likely represent septin filaments. In viable mutants lacking a single septin, in situ filaments are still present, although more disordered, consistent with other evidence that the in vivo function of septins requires filament formation.

Published
2012
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236. RAB-5- and RAB-11-dependent vesicle-trafficking pathways are required for plasma membrane repair after attack by bacterial pore-forming toxin.

Author

Los FC, Kao CY, Smitham J, McDonald KL, Ha C, Peixoto CA, and Aroian RV

Subjects
Animals, Bacterial Physiological Phenomena, Caenorhabditis elegans genetics, Caenorhabditis elegans Proteins genetics, Cell Membrane genetics, Cell Membrane microbiology, Cytoplasmic Vesicles genetics, Endocytosis, Epithelial Cells metabolism, Epithelial Cells microbiology, Vesicular Transport Proteins genetics, Bacteria metabolism, Bacterial Toxins metabolism, Caenorhabditis elegans metabolism, Caenorhabditis elegans microbiology, Caenorhabditis elegans Proteins metabolism, Cell Membrane metabolism, Cytoplasmic Vesicles metabolism, Vesicular Transport Proteins metabolism
Abstract

Pore-forming toxins (PFTs) secreted by pathogenic bacteria are the most common bacterial protein toxins and are important virulence factors for infection. PFTs punch holes in host cell plasma membranes, and although cells can counteract the resulting membrane damage, the underlying mechanisms at play remain unclear. Using Caenorhabditis elegans as a model, we demonstrate in vivo and in an intact epithelium that intestinal cells respond to PFTs by increasing levels of endocytosis, dependent upon RAB-5 and RAB-11, which are master regulators of endocytic and exocytic events. Furthermore, we find that RAB-5 and RAB-11 are required for protection against PFT and to restore integrity to the plasma membrane. One physical mechanism involved is the RAB-11-dependent expulsion of microvilli from the apical side of the intestinal epithelial cells. Specific vesicle-trafficking pathways thus protect cells against an attack by PFTs on plasma membrane integrity, via altered plasma membrane dynamics., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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237. "Tips and tricks" for high-pressure freezing of model systems.

Author

McDonald K, Schwarz H, Müller-Reichert T, Webb R, Buser C, and Morphew M

Subjects
Animals, Cryopreservation instrumentation, Microscopy, Electron instrumentation, Pressure, Staining and Labeling methods, Tissue Fixation instrumentation, Tissue Fixation methods, Cryopreservation methods, Microscopy, Electron methods, Models, Biological
Abstract

High-pressure freezing (HPF) has been around since the mid-1980s as a cryopreparation technique for biological electron microscopy. It has taken quite some time to "catch on" but with the recent interest in cellular tomography and electron microscopy of vitreous cryosections it has been used more frequently. While HPF is relatively easy to do, there are a number of steps, such as loading the sample into the specimen carrier correctly, that are critical to the success of this method. In this chapter we discuss some of the "little" things that can make the difference between successful or unsuccessful freezing. We cover all aspects of HPF, from specimen loading to removing your sample from the carriers in polymerized resin. Our goal is to make it easier and more reliable for HPF users to get well-frozen samples for their research., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published
2010
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238. Three-dimensional reconstruction methods for Caenorhabditis elegans ultrastructure.

Author

Müller-Reichert T, Mancuso J, Lich B, and McDonald K

Subjects
Animals, Electron Microscope Tomography instrumentation, Freeze Substitution instrumentation, Freeze Substitution methods, Image Processing, Computer-Assisted instrumentation, Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional instrumentation, Microscopy instrumentation, Microscopy, Electron, Scanning instrumentation, Tissue Fixation methods, Caenorhabditis elegans ultrastructure, Electron Microscope Tomography methods, Imaging, Three-Dimensional methods, Microscopy methods, Microscopy, Electron, Scanning methods
Abstract

The roundworm Caenorhabditis elegans is one of the major model organisms in modern cell and developmental biology. Here, we present methods for the three-dimensional (3D) reconstruction of the worm ultrastructure. We describe the use of (1) serial-section analysis, (2) electron tomography, and (3) serial block face imaging by scanning electron microscopy (SEM). Sample preparation for high-pressure freezing/freeze substitution (HPF/FS) has been extensively covered in a previous volume of this "Methods in Cell Biology" series and will only be described briefly. We will discuss these 3D methods in light of recent research activities related to worm and early embryo biology., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published
2010
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239. Cytological analysis of meiosis in Caenorhabditis elegans.

Author

Phillips CM, McDonald KL, and Dernburg AF

Subjects
Animals, Meiosis genetics, Microscopy, Electron methods, Models, Biological, Caenorhabditis elegans cytology, Caenorhabditis elegans genetics, Cytological Techniques methods, Meiosis physiology
Abstract

The nematode Caenorhabditis elegans has emerged as an informative experimental system for analysis of meiosis, in large part because of the advantageous physical organization of meiotic nuclei as a gradient of stages within the germline. Here we provide tools for detailed observational studies of cells within the worm gonad, including techniques for light and electron microscopy.

Published
2009
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240. New developments in high-pressure freezing. Introduction.

Author

McDonald K and Müller-Reichert T

Subjects
Animals, Cell Line, Tumor, Cell Physiological Phenomena, Cryopreservation, Humans, Microscopy instrumentation, Microscopy, Electron instrumentation, Rats, Cells ultrastructure, Freezing, Microscopy methods, Microscopy, Electron methods, Pressure
Published
2008
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241. Correlative light and electron microscopy of early Caenorhabditis elegans embryos in mitosis.

Author

Müller-Reichert T, Srayko M, Hyman A, O'Toole ET, and McDonald K

Subjects
Animals, Cryoelectron Microscopy standards, Embryo, Nonmammalian ultrastructure, Freeze Substitution, Microscopy standards, Tissue Embedding, Caenorhabditis elegans embryology, Caenorhabditis elegans ultrastructure, Cryoelectron Microscopy methods, Imaging, Three-Dimensional methods
Published
2007
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242. Recent advances in high-pressure freezing: equipment- and specimen-loading methods.

Author

McDonald KL, Morphew M, Verkade P, and Müller-Reichert T

Subjects
Animals, Caenorhabditis elegans embryology, Caenorhabditis elegans ultrastructure, Cryoelectron Microscopy instrumentation, Cryoultramicrotomy instrumentation, Freezing, Histological Techniques instrumentation, Hydrostatic Pressure, Plants ultrastructure, Cryoelectron Microscopy methods, Cryoultramicrotomy methods, Histological Techniques methods
Abstract

This chapter is an update of material first published by McDonald in the first volume of this book. Here, we discuss the improvements in the technology and the methodology of high-pressure freezing (HPF) since that article was published. First, we cover the latest innovation in HPF, the Leica EM PACT2. This machine differs significantly from the BAL-TEC HPM 010 high-pressure freezer, which was the main subject of the former chapter. The EM PACT2 is a smaller, portable machine and has an optional attachment, the Rapid Transfer System (RTS). This RTS permits easy and reproducible loading of the sample and allows one to do correlative light and electron microscopy with high time resolution. We also place more emphasis in this article on the details of specimen loading for HPF, which is considered the most critical phase of the whole process. Detailed procedures are described for how to high-pressure freeze cells in suspension, cells attached to substrates, tissue samples, or whole organisms smaller than 300 microm, and tissues or organisms greater than 300 microm in size. We finish the article with a brief discussion of freeze substitution and recommend some sample protocols for this procedure.

Published
2007
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244. Morphologically distinct microtubule ends in the mitotic centrosome of Caenorhabditis elegans.

Author

O'Toole ET, McDonald KL, Mäntler J, McIntosh JR, Hyman AA, and Müller-Reichert T

Subjects
Animals, Caenorhabditis elegans metabolism, Centrioles physiology, Centrioles ultrastructure, Centrosome physiology, Chromatin physiology, Chromatin ultrastructure, Kinetochores physiology, Kinetochores ultrastructure, Microtubules metabolism, Spindle Apparatus physiology, Spindle Apparatus ultrastructure, Tomography, X-Ray Computed, Caenorhabditis elegans ultrastructure, Centrosome ultrastructure, Microtubules ultrastructure, Mitosis physiology
Abstract

During mitosis, the connections of microtubules (MTs) to centrosomes and kinetochores are dynamic. From in vitro studies, it is known that the dynamic behavior of MTs is related to the structure of their ends, but we know little about the structure of MT ends in spindles. Here, we use high-voltage electron tomography to study the centrosome- and kinetochore-associated ends of spindle MTs in embryonic cells of the nematode, Caenorhabditis elegans. Centrosome-associated MT ends are either closed or open. Closed MT ends are more numerous and are uniformly distributed around the centrosome, but open ends are found preferentially on kinetochore-attached MTs. These results have structural implications for models of MT interactions with centrosomes.

Published
2003
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245. Synapsis-dependent and -independent mechanisms stabilize homolog pairing during meiotic prophase in C. elegans.

Author

MacQueen AJ, Colaiácovo MP, McDonald K, and Villeneuve AM

Subjects
Animals, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism, Endodeoxyribonucleases, Esterases genetics, Esterases metabolism, Female, Genes, Helminth, Helminth Proteins genetics, Helminth Proteins metabolism, Male, Microscopy, Electron, Mutation, Prophase genetics, Synaptonemal Complex genetics, Caenorhabditis elegans cytology, Caenorhabditis elegans genetics, Chromosome Pairing genetics, Meiosis genetics
Abstract

Analysis of Caenorhabditis elegans syp-1 mutants reveals that both synapsis-dependent and -independent mechanisms contribute to stable, productive alignment of homologous chromosomes during meiotic prophase. Early prophase nuclei undergo normal reorganization in syp-1 mutants, and chromosomes initially pair. However, the polarized nuclear organization characteristic of early prophase persists for a prolonged period, and homologs dissociate prematurely; furthermore, the synaptonemal complex (SC) is absent. The predicted structure of SYP-1, its localization at the interface between intimately paired, lengthwise-aligned pachytene homologs, and its kinetics of localization with chromosomes indicate that SYP-1 is an SC structural component. A severe reduction in crossing over together with evidence for accumulated recombination intermediates in syp-1 mutants indicate that initial pairing is not sufficient for completion of exchange and implicates the SC in promoting crossover recombination. Persistence of polarized nuclear organization in syp-1 mutants suggests that SC polymerization may provide a motive force or signal that drives redispersal of chromosomes. Whereas our analysis suggests that the SC is required to stabilize pairing along the entire lengths of chromosomes, striking differences in peak pairing levels for opposite ends of chromosomes in syp-1 mutants reveal the existence of an additional mechanism that can promote local stabilization of pairing, independent of synapsis.

Published
2002
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