Your search keyword '"David Q. Matus"' showing total 4 results

1. Imaging multicellular specimens with real-time optimized tiling light-sheet selective plane illumination microscopy

Author

Liang Gao, Qinyi Fu, Benjamin L. Martin, and David Q. Matus

Subjects

0301 basic medicine, Embryo, Nonmammalian, Science, General Physics and Astronomy, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Imaging, Three-Dimensional, Optics, Live cell imaging, Microscopy, Animals, Caenorhabditis elegans, Zebrafish, Multidisciplinary, Extramural, Plane (geometry), business.industry, General Chemistry, Multicellular organism, 030104 developmental biology, Temporal resolution, Zebrafish embryo, business

Abstract

Despite the progress made in selective plane illumination microscopy, high-resolution 3D live imaging of multicellular specimens remains challenging. Tiling light-sheet selective plane illumination microscopy (TLS-SPIM) with real-time light-sheet optimization was developed to respond to the challenge. It improves the 3D imaging ability of SPIM in resolving complex structures and optimizes SPIM live imaging performance by using a real-time adjustable tiling light sheet and creating a flexible compromise between spatial and temporal resolution. We demonstrate the 3D live imaging ability of TLS-SPIM by imaging cellular and subcellular behaviours in live C. elegans and zebrafish embryos, and show how TLS-SPIM can facilitate cell biology research in multicellular specimens by studying left-right symmetry breaking behaviour of C. elegans embryos., Selective plane illumination microscopy (SPIM) is capable of high-resolution, high-speed 3D imaging of single cells, but application to multicellular samples is challenging. Here the authors develop tiling light sheet SPIM to image large multicellular specimens in 3D with subcellular resolution.

Published

2016

2. Broad phylogenomic sampling improves resolution of the animal tree of life

Author

Gonzalo Giribet, Matthias Obst, Andreas Schmidt-Rhaesa, Akiko Okusu, Ward C. Wheeler, Martin V. Sørensen, Andreas Hejnol, Elaine C. Seaver, Mark Q. Martindale, William E. Browne, Greg W. Rouse, Gregory D. Edgecombe, Stephen A. Smith, David Q. Matus, Steven H. D. Haddock, Kevin Pang, Casey W. Dunn, and Reinhardt Møbjerg Kristensen

Subjects

Lophotrochozoa, Zoology, Sensitivity and Specificity, Evolution, Molecular, Databases, Genetic, Animals, Humans, Spiralia, Phoronid, Phylogeny, Panarthropoda, Gene Library, Expressed Sequence Tags, Multidisciplinary, biology, Computational Biology, Reproducibility of Results, Bayes Theorem, Classification, biology.organism_classification, Markov Chains, Eumetazoa, Sister group, Sample Size, Ecdysozoa, Platyzoa

Abstract

Long-held ideas regarding the evolutionary relationships among animals have recently been upended by sometimes controversial hypotheses based largely on insights from molecular data. These new hypotheses include a clade of moulting animals (Ecdysozoa) and the close relationship of the lophophorates to molluscs and annelids (Lophotrochozoa). Many relationships remain disputed, including those that are required to polarize key features of character evolution, and support for deep nodes is often low. Phylogenomic approaches, which use data from many genes, have shown promise for resolving deep animal relationships, but are hindered by a lack of data from many important groups. Here we report a total of 39.9 Mb of expressed sequence tags from 29 animals belonging to 21 phyla, including 11 phyla previously lacking genomic or expressed-sequence-tag data. Analysed in combination with existing sequences, our data reinforce several previously identified clades that split deeply in the animal tree (including Protostomia, Ecdysozoa and Lophotrochozoa), unambiguously resolve multiple long-standing issues for which there was strong conflicting support in earlier studies with less data (such as velvet worms rather than tardigrades as the sister group of arthropods), and provide molecular support for the monophyly of molluscs, a group long recognized by morphologists. In addition, we find strong support for several new hypotheses. These include a clade that unites annelids (including sipunculans and echiurans) with nemerteans, phoronids and brachiopods, molluscs as sister to that assemblage, and the placement of ctenophores as the earliest diverging extant multicellular animals. A single origin of spiral cleavage (with subsequent losses) is inferred from well-supported nodes. Many relationships between a stable subset of taxa find strong support, and a diminishing number of lineages remain recalcitrant to placement on the tree.

Published

2008

3. Cell division and targeted cell cycle arrest opens and stabilizes basement membrane gaps

Author

David R. Sherwood, Mary A. Hagedorn, Sasha C. Makohon-Moore, Qiuyi Chi, Emily Yun-Chia Chang, and David Q. Matus

Subjects

Cell cycle checkpoint, Cell division, Integrin, Cell, General Physics and Astronomy, Biology, Bioinformatics, Basement Membrane, Article, General Biochemistry, Genetics and Molecular Biology, Vulva, Live cell imaging, Laminin, medicine, Animals, Caenorhabditis elegans, Caenorhabditis elegans Proteins, Multidisciplinary, Cell Cycle Checkpoints, General Chemistry, Cell cycle, Cell biology, medicine.anatomical_structure, Cancer cell, biology.protein, Female

Abstract

Large gaps in basement membrane (BM) occur during organ remodelling and cancer cell invasion. Whether dividing cells, which temporarily reduce their attachment to BM, influence these breaches is unknown. Here we analyse uterine-vulval attachment during development across 21 species of rhabditid nematodes and find that the BM gap that forms between these organs is always bounded by a non-dividing vulval cell. Through cell cycle manipulation and live cell imaging in Caenorhabditis elegans, we show that actively dividing vulval cells facilitate enlargement of this breach by promoting BM movement. In contrast, targeted cell cycle arrest halts BM movement and limits gap opening. Further, we demonstrate that the BM component laminin accumulates at the BM gap edge and promotes increased integrin levels in non-dividing vulval cells, stabilizing gap position. Together, these studies reveal that cell division can be used as a mechanism to regulate BM breaches, thus controlling the exchange of cells between tissues.

Published

2014

4. The bottlenosed dolphin’s (Tursiops truncatus) understanding of gestures as symbolic representations of its body parts

Author

David Q. Matus, Marina Ivancic, Louis M. Herman, Elia Y. K. Herman, and Adam A. Pack

Subjects

Communication, biology, InformationSystems_INFORMATIONINTERFACESANDPRESENTATION(e.g.,HCI), business.industry, media_common.quotation_subject, Experimental and Cognitive Psychology, Object (computer science), Behavioral Neuroscience, Symbol, Neuropsychology and Physiological Psychology, biology.animal, Animal Science and Zoology, Bottlenosed dolphin, business, Psychology, General Psychology, media_common, Gesture

Abstract

We assigned gestural symbols to nine body parts of a bottlenosed dolphin (Tursiops truncatus). The dolphin was first trained to touch any floating object it chose with the body part indicated by a gestural symbol. In Experiment 1, we tested the dolphin’s ability to now touchspecific gesturally referenced objects using specific gesturally referenced body parts. In Experiment 2, we tested its ability to either touch or toss gesturally referenced objects with gesturally referenced body parts or to simply display those body parts or shake them back and forth. The acts of touching, tossing, displaying, and shaking were each associated with specific gestures and appeared in random sequences within test sessions. The results demonstrated highly significant levels of performance throughout these tasks, including many successes on the first occasions of new body-part uses. These findings provided strong evidence that the gestural symbols we used for body parts were semantically processed and understood by the dolphin as representing those body parts.

Published

2001