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29 results on '"Aronoff, Rachel"'

1. A new flow path: eDNA connecting hydrology and biology.

Author

URycki, Dawn R., Kirtane, Anish A., Aronoff, Rachel, Avila, Colton C., Blackman, Rosetta C., Carraro, Luca, Evrard, Olivier, Good, Stephen P., Hoyos J., Diana C., López‐Rodríguez, Nieves, Mora, Demetrio, Schadewell, Yvonne, Schilling, Oliver S., and Ceperley, Natalie C.

Subjects
HYDROLOGICAL surveys, DNA analysis, TRACERS (Biology), ENDANGERED species, WATER distribution
Abstract

Environmental DNA (eDNA) has revolutionized ecological research, particularly for biodiversity assessment in various environments, most notably aquatic media. Environmental DNA analysis allows for non‐invasive and rapid species detection across multiple taxonomic groups within a single sample, making it especially useful for identifying rare or invasive species. Due to dynamic hydrological processes, eDNA samples from running waters may represent biodiversity from broad contributing areas, which is convenient from a biomonitoring perspective but also challenging, as hydrological knowledge is required for meaningful biological interpretation. Hydrologists could also benefit from eDNA to address unsolved questions, particularly concerning water movement through catchments. While naturally occurring abiotic tracers have advanced our understanding of water age distribution in catchments, for example, current geochemical tracers cannot fully elucidate the timing and flow paths of water through landscapes. Conversely, biological tracers, owing to their immense diversity and interactions with the environment, could offer more detailed information on the sources and flow paths of water to the stream. The informational capacity of eDNA as a tracer, however, is determined by the ability to interpret the complex biological heterogeneity at a study site, which arguably requires both biological and hydrological expertise. As eDNA data has become increasingly available as part of biomonitoring campaigns, we argue that accompanying eDNA surveys with hydrological observations could enhance our understanding of both biological and hydrological processes; we identify opportunities, challenges, and needs for further interdisciplinary collaboration; and we highlight eDNA's potential as a bridge between hydrology and biology, which could foster both domains. This article is categorized under:Science of Water > Hydrological ProcessesScience of Water > MethodsWater and Life > Nature of Freshwater Ecosystems [ABSTRACT FROM AUTHOR]

Published
2024
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3. GOSH 2022 Community Report

Author

Olalde, Laura, Basch, Marcela, Aronoff, Rachel, Obanda, Johanssen, Hsing, Pen-Yuan, Méndez, Nicolás, Kaddu, Karl, Szyszlican, Martín, Saha, Gourav, and Johns, Brianna

Subjects
open hardware, open science, Gathering for Open Science Hardware
Abstract

Community Report from the 2022 Gathering for Open Science Hardware, held in Panama City from October 26-29 2022.&nbsp

Published
2023
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5. Motor Control by Sensory Cortex

Author

Matyas, Ferenc, Sreenivasan, Varun, Marbach, Fred, Wacongne, Catherine, Barsy, Boglarka, Mateo, Celine, Aronoff, Rachel, and Petersen, Carl C. H.

Published
2010

6. Empowering grassroots innovation to accelerate biomedical research

Author

Greshake Tzovaras, Bastian, Rera, Michael, Wintermute, Edwin H., Kloppenborg, Katharina, Ferry-Danini, Juliette, Aidelberg, Guy, Aronoff, Rachel, Lindner, Ariel, and Misevic, Dusan

Subjects
Institutional Funding of Science, Pharmacology, Viral Diseases, Drug Research and Development, Biomedical Research, Citizen Science, Science Policy, Epidemiology, Tuberculosis Drug Discovery, Covid 19, Research Ethics, Research Funding, Medical Conditions, Infectious Diseases, Inventions, Perspective, Drug Discovery, Medicine and Health Sciences, Government Funding of Science, Pandemics, Research Integrity
Abstract

The purpose of biomedicine is to serve society, yet its hierarchical and closed structure excludes many citizens from the process of innovation. We propose a collection of reforms to better integrate citizens within the research community, reimagining biomedicine as more participatory, inclusive, and responsive to societal needs.

Published
2021

8. Loop-Mediated Isothermal Amplification Detection of SARS-CoV-2 and Myriad Other Applications

Author

Moore, Keith J. M., primary, Cahill, Jeremy, additional, Aidelberg, Guy, additional, Aronoff, Rachel, additional, Bektaş, Ali, additional, Bezdan, Daniela, additional, Butler, Daniel J., additional, Chittur, Sridar V., additional, Codyre, Martin, additional, Federici, Fernan, additional, Tanner, Nathan A., additional, Tighe, Scott W., additional, True, Randy, additional, Ware, Sarah B., additional, Wyllie, Anne L., additional, Afshin, Evan E., additional, Bendesky, Andres, additional, Chang, Connie B., additional, Dela Rosa, Richard, additional, Elhaik, Eran, additional, Erickson, David, additional, Goldsborough, Andrew S., additional, Grills, George, additional, Hadasch, Kathrin, additional, Hayden, Andrew, additional, Her, Seong-Young, additional, Karl, Julie A., additional, Kim, Chang Hee, additional, Kriegel, Alison J., additional, Kunstman, Thomas, additional, Landau, Zeph, additional, Land, Kevin, additional, Langhorst, Bradley W., additional, Lindner, Ariel B., additional, Mayer, Benjamin E., additional, McLaughlin, Lee A., additional, McLaughlin, Matthew T., additional, Molloy, Jenny, additional, Mozsary, Christopher, additional, Nadler, Jerry L., additional, D'Silva, Melinee, additional, Ng, David, additional, O'Connor, David H., additional, Ongerth, Jerry E., additional, Osuolale, Olayinka, additional, Pinharanda, Ana, additional, Plenker, Dennis, additional, Ranjan, Ravi, additional, Rosbash, Michael, additional, Rotem, Assaf, additional, Segarra, Jacob, additional, Schürer, Stephan, additional, Sherrill-Mix, Scott, additional, Solo-Gabriele, Helena, additional, To, Shaina, additional, Vogt, Merly C., additional, Yu, Albert D., additional, and Mason, Christopher E., additional

Published
2021
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18. Layer, column and cell-type specific genetic manipulation in mouse barrel cortex

Author

Aronoff, Rachel, Petersen, Carl C. H., Aronoff, Rachel, and Petersen, Carl C. H.

Abstract

Sensory information is processed in distributed neuronal networks connected by intricate synaptic circuits. Studies of the rodent brain can provide insight into synaptic mechanisms of sensory perception and associative learning. In particular, the mouse whisker sensorimotor system has recently begun to be investigated through combinations of imaging and electrophysiology, providing data correlating neural activity with behaviour. In order to go beyond such correlative studies and to pinpoint the contributions of individual genes to brain function, it is critical to make highly controlled and specific manipulations. Here, we review recent progress towards genetic manipulation of targeted genes in specific neuronal cell types located in a selected cortical layer of a well-defined cortical column of mouse barrel cortex. The unprecedented precision of such genetic manipulation within highly specific neural circuits may contribute significantly to progress in understanding the molecular and synaptic determinants of simple forms of sensory perception and associative learning.

Published
2010
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25. Neuronal Toxicity in Caenorhabditis elegans from an Editing Site Mutant in Glutamate Receptor Channels.

Author

Aronoff, Rachel, Mellem, Jerry E., Maricq, Andres Villu, Sprengel, Rolf, and Seeburg, Peter H.

Subjects
*CAENORHABDITIS elegans, *GLUTAMINE, *CELL receptors, *CELL membranes, *NEURONS, *MAMMALS
Abstract

Ionotropic glutamate receptors (iGluRs) in Caenorhabditis elegans are predicted to have high permeability for Ca2+ because of glutamine (Q) residues in the pore loop. This contrasts to the low Ca2+ permeability of similar iGluRs in principal neurons of mammals, because of an edited arginine (R) at the critical pore position in at least one channel subunit. Here, we introduced the R residue into the pore loop of a glutamate receptor subunit, GLR-2, in C. elegans. GLR-2(R) participated in channel formation, as revealed by decreased rectification of kainate-evoked currents in electrophysiological recordings when GLR-2(R) and the wild-type GLR-2(Q) were coexpressed in worms. Notably, the transgenic worms exhibited, at low penetrance, strong phenotypic impairments including uncoordination, neuronal degeneration, developmental arrest, and lethality. Penetrance of adverse phenotypes could be enhanced by transgenic expression of an optimal GLR-2(Q)/(R) ratio, implicating channel activity as the cause. In direct support, a mutation in eat-4, which prevents glutamatergic transmission, suppressed adverse phenotypes. Suppression was also achieved by mutation in calreticulin, which is necessary for maintainance of intracellular Ca2+ stores in the endoplasmic reticulum. Thus, synaptically activated GLR-2(R)-containing iGluR channels appear to trigger inappropriate, neurotoxic Ca2+ release from intracellular stores. [ABSTRACT FROM AUTHOR]

Published
2004
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26. Identification and Characterization of Human Orthologues to Saccharomyces cerevisiaeUpf2 Protein and Upf3 Protein (Caenorhabditis elegansSMG-4)

Author

Serin, Guillaume, Gersappe, Anand, Black, Jennifer D., Aronoff, Rachel, and Maquat, Lynne E.

Abstract

Nonsense-mediated mRNA decay (NMD), also called mRNA surveillance, is an important pathway used by all organisms that have been tested to degrade mRNAs that prematurely terminate translation and, as a consequence, eliminate the production of aberrant proteins that could be potentially harmful. In mammalian cells, NMD appears to involve splicing-dependent alterations to mRNA as well as ribosome-associated components of the translational apparatus. To date, human (h) Upf1 protein (p) (hUpf1p), a group 1 RNA helicase named after itsSaccharomyces cerevisiaeorthologue that functions in both translation termination and NMD, has been the only factor shown to be required for NMD in mammalian cells. Here, we describe human orthologues to S. cerevisiaeUpf2p and S. cerevisiaeUpf3p (Caenorhabditis elegansSMG-4) based on limited amino acid similarities. The existence of these orthologues provides evidence for a higher degree of evolutionary conservation of NMD than previously appreciated. Interestingly, human orthologues toS. cerevisiaeUpf3p (C. elegansSMG-4) derive from two genes, one of which is X-linked and both of which generate multiple isoforms due to alternative pre-mRNA splicing. We demonstrate using immunoprecipitations of epitope-tagged proteins transiently produced in HeLa cells that hUpf2p interacts with hUpf1p, hUpf3p-X, and hUpf3p, and we define the domains required for the interactions. Furthermore, we find by using indirect immunofluorescence that hUpf1p is detected only in the cytoplasm, hUpf2p is detected primarily in the cytoplasm, and hUpf3p-X localizes primarily to nuclei. The finding that hUpf3p-X is a shuttling protein provides additional indication that NMD has both nuclear and cytoplasmic components.

Published
2001
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27. The C. elegans homeodomain gene unc-42 regulates chemosensory and glutamate receptor expression

Author

Baran, Renee, Aronoff, Rachel, and Garriga, Gian

Abstract

Genes that specify cell fate can influence multiple aspects of neuronal differentiation, including axon guidance, target selection and synapse formation. Mutations in the unc-42 gene disrupt axon guidance along the C. elegans ventral nerve cord and cause distinct functional defects in sensory-locomotory neural circuits. Here we show that unc-42 encodes a novel homeodomain protein that specifies the fate of three classes of neurons in the Caenorhabditis elegans nervous system: the ASH polymodal sensory neurons, the AVA, AVD and AVE interneurons that mediate repulsive sensory stimuli to the nematode head and anterior body, and a subset of motor neurons that innervate head and body-wall muscles. unc-42 is required for the expression of cell-surface receptors that are essential for the mature function of these neurons. In mutant animals, the ASH sensory neurons fail to express SRA-6 and SRB-6, putative chemosensory receptors. The AVA, AVD and AVE interneurons and RME and RMD motor neurons of unc-42 mutants similarly fail to express the GLR-1 glutamate receptor. These results show that unc-42 performs an essential role in defining neuron identity and contributes to the establishment of neural circuits in C. elegans by regulating the transcription of glutamate and chemosensory receptor genes.

Published
1999
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28. Long-range connectivity of mouse primary somatosensory barrel cortex

Author

Aronoff, Rachel, Matyas, Ferenc, Mateo, Celine, Ciron, Carine, Schneider, Bernard, and Petersen, Carl C. H.

Subjects
Anisotropic Organization, 3-Dimensional Topography, adeno-associated virus, Cortical-Neurons, Corticopontine Projections, lentivirus, Vibrissal Motor Cortex, barrel cortex, Corticothalamic Projections, Zona Incerta, Behaving Mice, axonal projection, In-Vivo, Somatic Sensory Cortex, mouse
Abstract

The primary somatosensory barrel cortex processes tactile vibrissae information, allowing rodents to actively perceive spatial and textural features of their immediate surroundings. Each whisker on the snout is individually represented in the neocortex by an anatomically identifiable 'barrel' specified by the segregated termination zones of thalamocortical axons of the ventroposterior medial nucleus, which provide the primary sensory input to the neocortex. The sensory information is subsequently processed within local synaptically connected neocortical microcircuits, which have begun to be investigated in quantitative detail. In addition to these local synaptic microcircuits, the excitatory pyramidal neurons of the barrel cortex send and receive long-range glutamatergic axonal projections to and from a wide variety of specific brain regions. Much less is known about these long-range connections and their contribution to sensory processing. Here, we review current knowledge of the long-range axonal input and output of the mouse primary somatosensory barrel cortex. Prominent reciprocal projections are found between primary somatosensory cortex and secondary somatosensory cortex, motor cortex, perirhinal cortex and thalamus. Primary somatosensory barrel cortex also projects strongly to striatum, thalamic reticular nucleus, zona incerta, anterior pretectal nucleus, superior colliculus, pons, red nucleus and spinal trigeminal brain stem nuclei. These long-range connections of the barrel cortex with other specific cortical and subcortical brain regions are likely to play a crucial role in sensorimotor integration, sensory perception and associative learning.

29. Layer- and column-specific knockout of NMDA receptors in pyramidal neurons of the mouse barrel cortex

Author

Aronoff, Rachel and Petersen, Carl

Subjects
nervous system
Abstract

Viral vectors injected into the mouse brain offer the possibility for localized genetic modifications in a highly controlled manner. Lentivector injection into mouse neocortex transduces cells within a diameter of approximately 200mum, which closely matches the lateral scale of a column in barrel cortex. The depth and volume of the injection determines which cortical layer is transduced. Furthermore, transduced gene expression from the lentivector can be limited to predominantly pyramidal neurons by using a 1.3kb fragment of the alphaCaMKII promoter. This technique therefore allows genetic manipulation of a specific cell type in defined columns and layers of the neocortex. By expressing Cre recombinase from such a lentivector in gene-targeted mice carrying a floxed gene, highly specific genetic lesions can be induced. Here, we demonstrate the utility of this approach by specifically knocking out NMDA receptors (NMDARs) in pyramidal neurons in the somatosensory barrel cortex of gene-targeted mice carrying floxed NMDAR 1 genes. Neurons transduced with lentivector encoding GFP and Cre recombinase exhibit not only reductions in NMDAR 1 mRNA levels, but reduced NMDAR-dependent currents and pairing-induced synaptic potentiation. This technique for knockout of NMDARs in a cell type, column- and layer-specific manner in the mouse somatosensory cortex may help further our understanding of the functional roles of NMDARs in vivo during sensory perception and learning.

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