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101. Thermal stimulation temperature is encoded as a firing rate in a Hydra nerve ring

Author

Tzouanas, Constantine N., Kim, Soonyoung, Badhiwala, Krishna N., Avants, Benjamin W., and Robinson, Jacob T.

Abstract

Nervous systems are remarkable for supporting stable animal behavior despite dramatic changes to neurons’ number and connectivity. An ideal model organism to study this phenomenon would have: 1) dynamic neural architecture 2) transgenic reporters of neural activity, 3) a small, transparent body, and 4) well-defined sensory-motor behaviors. While Hydra vulgaris possesses the first three advantages, it currently lacks well-characterized sensory-motor responses. Here, we show the first quantitative measurements of Hydra ’s behavioral responses to thermal stimulation and associated neural activity. Specifically, we find that Hydra elongate and then contract when heated. This behavior is accompanied by synchronous, periodic activity of neurons in the animal’s peduncle. We find that the frequency of these neural oscillations is nearly the same even if the number of neurons change by a factor of two. These observations suggest that Hydra provides a rich model for studying how animals maintain stable sensory-motor responses within dynamic neural circuit architectures. One sentence summary Here we show that Hydra have a group of thermally responsive neurons that encodes the absolute temperature of a thermal stimulus and that this encoding is independent of the number of neurons in the animal .

Published
2019
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102. Phototaxis is a satiety-dependent behavioral sequence in Hydra vulgaris

Author

Kim, Soonyoung, Badhiwala, Krishna N., Duret, Guillaume, and Robinson, Jacob T.

Abstract

Understanding how internal states such as satiety are connected to animal behavior is a fundamental question in neuroscience. Hydra vulgaris, a freshwater cnidarian with only 12 neuronal cell types, serves as a tractable model system for studying state-dependent behaviors. We found that starved hydras consistently move towards light, while fed hydras do not. By modeling this behavior as a set of three sequences of head orientation, jump distance and jump rate, we demonstrate that the satiety state only affects the rate of the animal jumping to a new position, while the orientation and jump distance are unaffected. These findings yield insights into how internal states in a simple organism, Hydra, affect specific elements of a behavior, and offer general principles for studying the relationship between state-dependent behaviors and their underlying molecular mechanisms.

Published
2024
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103. Projections and the Potential Societal Impact of the Future of Neurotechnologies.

Author

Gaudry, Kate S., Ayaz, Hasan, Bedows, Avery, Celnik, Pablo, Eagleman, David, Grover, Pulkit, Illes, Judy, Rao, Rajesh P. N., Robinson, Jacob T., Thyagarajan, Krishnan, Bains, Nena, Brigagliano, John, Carter, Robert, Kemere, Caleb, Mathison, Mark P., Neiditz, Jon, Rommelfanger, Karen, and Snyder, Joseph

Subjects
RECOLLECTION (Psychology), MOOD (Psychology), SPATIAL resolution, SUPPLY & demand, SMARTPHONES
Abstract

Traditionally, recording from and stimulating the brain with high spatial and temporal resolution required invasive means. However, recently, the technical capabilities of less invasive and non-invasive neuro-interfacing technology have been dramatically improving, and laboratories and funders aim to further improve these capabilities. These technologies can facilitate functions such as multi-person communication, mood regulation and memory recall. We consider a potential future where the less invasive technology is in high demand. Will this demand match that the current-day demand for a smartphone? Here, we draw upon existing research to project which particular neuroethics issues may arise in this potential future and what preparatory steps may be taken to address these issues. [ABSTRACT FROM AUTHOR]

Published
2021
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107. Developing Next-Generation Brain Sensing Technologies—A Review

Author

Robinson, Jacob T., primary, Xie, Chong, additional, Pohlmeyer, Eric, additional, Gather, Malte C., additional, Kemere, Caleb, additional, Kitching, John E., additional, Malliaras, George G., additional, Marblestone, Adam, additional, Shepard, Kenneth L., additional, and Stieglitz, Thomas, additional

Published
2019
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111. Recent advances in lensless imaging

Author

Boominathan, Vivek, Robinson, Jacob T., Waller, Laura, and Veeraraghavan, Ashok

Abstract

Lensless imaging provides opportunities to design imaging systems free from the constraints imposed by traditional camera architectures. Due to advances in imaging hardware, fabrication techniques, and new algorithms, researchers have recently developed lensless imaging systems that are extremely compact and lightweight or able to image higher-dimensional quantities. Here we review these recent advances and describe the design principles and their effects that one should consider when developing and using lensless imaging systems.

Published
2022

112. cytoNet: Network Analysis of Cell Communities

Author

Mahadevan, Arun S., Long, Byron L., Hu, Chenyue Wendy, Ryan, David T., Britton, George L., Ligeralde, Andrew, Warmflash, Aryeh, Robinson, Jacob T., and Qutub, Amina A.

Abstract

We introduce cytoNet, a method to characterize multicellular topology from microscopy images. Accessible over the web, cytoNet quantifies the spatial relationships in cell communities using principles of graph theory, and evaluates the effect of cell-cell interactions on individual cell phenotypes. We demonstrate cytoNet’s capabilities in two applications relevant to regenerative medicine: quantifying the morphological response of endothelial cells to neurotrophic factors present in the brain after injury, and characterizing cell cycle dynamics of differentiating neural progenitor cells. The framework introduced here can be used to study complex cell communities in a quantitative manner, leading to a deeper understanding of environmental effects on cellular behavior.

Published
2017
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115. cytoNet: Network Analysis of Cell Communities

Author

Mahadevan, Arun S., primary, Long, Byron L., additional, Hu, Chenyue Wendy, additional, Ryan, David T., additional, Britton, George L., additional, Ligeralde, Andrew, additional, Robinson, Jacob T., additional, Warmflash, Aryeh, additional, and Qutub, Amina Ann, additional

Published
2019
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124. Fluidic Microactuation of Flexible Electrodes for Neural Recording

Author

Vitale, Flavia, primary, Vercosa, Daniel G., additional, Rodriguez, Alexander V., additional, Pamulapati, Sushma Sri, additional, Seibt, Frederik, additional, Lewis, Eric, additional, Yan, J. Stephen, additional, Badhiwala, Krishna, additional, Adnan, Mohammed, additional, Royer-Carfagni, Gianni, additional, Beierlein, Michael, additional, Kemere, Caleb, additional, Pasquali, Matteo, additional, and Robinson, Jacob T., additional

Published
2017
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126. cytoNet: Spatiotemporal Network Analysis of Cell Communities

Author

Mahadevan, Arun S., primary, Long, Byron L., additional, Hu, Chenyue W., additional, Ryan, David T., additional, Grandel, Nicolas E., additional, Maloney, Zacharie, additional, Britton, George L., additional, Gonzalez Porras, Maria A., additional, Stojkova, Katerina, additional, Ligeralde, Andrew, additional, Son, Hyeonwi, additional, Shannonhouse, John, additional, Robinson, Jacob T., additional, Warmflash, Aryeh, additional, Brey, Eric, additional, Kim, Yu Shin, additional, and Qutub, Amina A., additional

Published
2017
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127. Molecular machines open cell membranes

Author

García-López, Víctor, primary, Chen, Fang, additional, Nilewski, Lizanne G., additional, Duret, Guillaume, additional, Aliyan, Amir, additional, Kolomeisky, Anatoly B., additional, Robinson, Jacob T., additional, Wang, Gufeng, additional, Pal, Robert, additional, and Tour, James M., additional

Published
2017
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131. Lensless Imaging: A computational renaissance

Author

Boominathan, Vivek, primary, Adams, Jesse K., additional, Asif, M. Salman, additional, Avants, Benjamin W., additional, Robinson, Jacob T., additional, Baraniuk, Richard G., additional, Sankaranarayanan, Aswin C., additional, and Veeraraghavan, Ashok, additional

Published
2016
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133. Microfluidics for electrophysiology, imaging, and behavioral analysis of Hydra.

Author

Badhiwala, Krishna N., Robinson, Jacob T., Avants, Benjamin W., Gonzales, Daniel L., and Vercosa, Daniel G.

Subjects
*HYDROZOA, *MICROFLUIDICS, *ELECTROPHYSIOLOGY, *INVERTEBRATE behavior, *NERVOUS system, *NEURAL circuitry
Abstract

The nervous system of the cnidarian Hydra vulgaris exhibits remarkable regenerative abilities. When cut in two, the bisected tissue reorganizes into fully behaving animals in approximately 48 hours. Furthermore, new animals can reform from aggregates of dissociated cells. Understanding how behaviors are coordinated by this highly plastic nervous system could reveal basic principles of neural circuit dynamics underlying behaviors. However, Hydra's deformable and contractile body makes it difficult to manipulate the local environment while recording neural activity. Here, we present the first microfluidic technologies capable of simultaneous electrical, chemical, and optical interrogation of these soft, deformable organisms. Specifically, we demonstrate devices that can immobilize Hydra for hours-long simultaneous electrical and optical recording, and chemical stimulation of behaviors revealing neural activity during muscle contraction. We further demonstrate quantitative locomotive and behavioral tracking made possible by confining the animal to quasi-two-dimensional micro-arenas. Together, these proof-of-concept devices show that microfluidics provide a platform for scalable, quantitative cnidarian neurobiology. The experiments enabled by this technology may help reveal how highly plastic networks of neurons provide robust control of animal behavior. [ABSTRACT FROM AUTHOR]

Published
2018
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141. Nanowire-Mediated Delivery Enables Functional Interrogation of Primary Immune Cells: Application to the Analysis of Chronic Lymphocytic Leukemia

Author

Massachusetts Institute of Technology. Department of Biology, Regev, Aviv, Shalek, Alex K., Gaublomme, Jellert T., Wang, Lili, Yosef, Nir, Chevrier, Nicolas, Andersen, Mette S., Robinson, Jacob T., Pochet, Nathalie, Neuberg, Donna S., Gertner, Rona S., Amit, Ido, Brown, Jennifer R., Hacohen, Nir, Wu, Catherine J., Park, Hongkun, Massachusetts Institute of Technology. Department of Biology, Regev, Aviv, Shalek, Alex K., Gaublomme, Jellert T., Wang, Lili, Yosef, Nir, Chevrier, Nicolas, Andersen, Mette S., Robinson, Jacob T., Pochet, Nathalie, Neuberg, Donna S., Gertner, Rona S., Amit, Ido, Brown, Jennifer R., Hacohen, Nir, Wu, Catherine J., and Park, Hongkun

Abstract

A circuit level understanding of immune cells and hematological cancers has been severely impeded by a lack of techniques that enable intracellular perturbation without significantly altering cell viability and function. Here, we demonstrate that vertical silicon nanowires (NWs) enable gene-specific manipulation of diverse murine and human immune cells with negligible toxicity. To illustrate the power of the technique, we then apply NW-mediated gene silencing to investigate the role of the Wnt signaling pathway in chronic lymphocytic leukemia (CLL). Remarkably, CLL-B cells from different patients exhibit tremendous heterogeneity in their response to the knockdown of a single gene, LEF1. This functional heterogeneity defines three distinct patient groups not discernible by conventional CLL cytogenetic markers and provides a prognostic indicator for patients’ time to first therapy. Analyses of gene expression signatures associated with these functional patient subgroups reveal unique insights into the underlying molecular basis for disease heterogeneity. Overall, our findings suggest a functional classification that can potentially guide the selection of patient-specific therapies in CLL and highlight the opportunities for nanotechnology to drive biological inquiry., National Institutes of Health (U.S.). Pioneer Award, National Institutes of Health (U.S.) (CEGS Award 1P50HG006193-01), Howard Hughes Medical Institute, Merkin Family Foundation for Stem Cell Research

Published
2013

142. First-principle derivation of gain in high-index-contrast waveguides

Author

Robinson, Jacob T., Preston, Kyle, Painter, Oskar, Lipson, Michael, Robinson, Jacob T., Preston, Kyle, Painter, Oskar, and Lipson, Michael

Abstract

From first principles we develop figures of merit to determine the gain experienced by the guided mode and the lasing threshold for devices based on high-index-contrast waveguides. We show that as opposed to low-index-contrast systems, this quantity is not equivalent to the power confinement since in high-index-contrast structures the electric and magnetic field distributions cannot be related by proportionality constant. We show that with a slot waveguide configuration it is possible to achieve more gain than one would expect based on the power confinement in the gain media. Using the figures of merit presented here we optimize a slot waveguide geometry to achieve low-threshold lasing and discuss the fabrication tolerances of such a design.

Published
2008

147. Nanowire-Mediated Delivery Enables Functional Interrogation of Primary Immune Cells: Application to the Analysis of Chronic Lymphocytic Leukemia

Author

Shalek, Alex K., primary, Gaublomme, Jellert T., additional, Wang, Lili, additional, Yosef, Nir, additional, Chevrier, Nicolas, additional, Andersen, Mette S., additional, Robinson, Jacob T., additional, Pochet, Nathalie, additional, Neuberg, Donna, additional, Gertner, Rona S., additional, Amit, Ido, additional, Brown, Jennifer R., additional, Hacohen, Nir, additional, Regev, Aviv, additional, Wu, Catherine J., additional, and Park, Hongkun, additional

Published
2012
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