#kiyonaka
Explore tagged Tumblr posts
Text
#danganronpa#poll#ship poll#danganronpa ship poll#korekiyo shinguji#gontaguuji#kiiguuji#korekiibo#momoguji#shinouma#amaguji#shingushi#shinoshi#shinsai#ishiguuji#kiyokiyo#hehe#kiyonaka#tanaguuji#komaguuji#gonta gokuhara#k1 b0#kiibo#keebo#kaito momota#kokichi ouma#rantaro amami#ryoma hoshi#shuichi saihara#kiyotaka ishimaru
13 notes
·
View notes
Text
Minecraft Neighbors Masterlist
Welcome to the series Minecraft Neighbors! This was inspired off of the original mini series I wrote.
Synopsis: Y/N Sawamura. younger sibling to Daichi Sawamura, a second year at Karasuno High School and unofficial manager of the boys volleyball club, signs onto a Minecraft server and neighbors next to someone named Kenken.
CHARACTER IS SOMEWHAT OC (A LOT OC) CHARACTER WAS ASSIGNED FEMALE AT BIRTH, I ONLY CHOOSE THIS BECAUSE I AM AS WELL AND THAT WAY I AM LESS LIKELY TO MESS SOMETHING UP WHEN IT COMES TO DESCRIBING THINGS EVERYTHING BELONGS TO HARUICHI FURUDATE ASIDE FROM Y/N IDEA FROM MY HAIKYUU ONESHOT BOOK WITH THREE EXISTING PARTS REVOLVING AROUND THIS STORY WILL INCLUDE BACKGROUND DAISUGA, ASANOYA, KIYONAKA, YACHIHINA, TSUKIYAMA, AND MORE
Status: In Progress
Intro
Level 1
Level 2
Level 3
Level 4
Level 5
Level 6
Level 7
Level 8
Level 9
Level 10
Level 11
Level 12
Level 13
Level 14
Level 15 (in progress)
12 notes
·
View notes
Text
Tracking receptor proteins can unveil molecular basis of memory and learning
Tracking receptor proteins can unveil molecular basis of memory and learning
Scientists from Japan employ a novel two-step method of labeling neurotransmitter receptor proteins to track their localization efficiently Credit: Shigeki Kiyonaka The neurons in our nervous system “talk” to each other by sending and receiving chemical messages called neurotransmitters. This communication is facilitated by cell membrane proteins called receptors, which pick up…
View On WordPress
0 notes
Text
Interesting Papers for Week 26, 2017
Linear Summation of Repulsive and Attractive Serial Dependencies: Orientation and Motion Dependencies Sum in Motion Perception. Alais, D., Leung, J., & Van der Burg, E. (2017). Journal of Neuroscience, 37(16), 4381–4390.
Algorithms for survival: a comparative perspective on emotions. Bach, D. R., & Dayan, P. (2017). Nature Reviews Neuroscience, 18(5), 311–319.
Working Memory Load Strengthens Reward Prediction Errors. Collins, A. G. E., Ciullo, B., Frank, M. J., & Badre, D. (2017). Journal of Neuroscience, 37(16), 4332–4342.
Elephants know when their bodies are obstacles to success in a novel transfer task. Dale, R., & Plotnik, J. M. (2017). Scientific Reports, 7, 46309.
The internal representation of head orientation differs for conscious perception and balance control. Dalton, B. H., Rasman, B. G., Inglis, J. T., & Blouin, J.-S. (2017). Journal of Physiology, 595(8), 2731–2749.
Re-evaluation of learned information in Drosophila. Felsenberg, J., Barnstedt, O., Cognigni, P., Lin, S., & Waddell, S. (2017). Nature, 544(7649), 240–244.
The computational nature of memory modification. Gershman, S. J., Monfils, M.-H., Norman, K. A., & Niv, Y. (2017). eLife, 6(e23763).
From Maxwell’s equations to the theory of current-source density analysis. Gratiy, S. L., Halnes, G., Denman, D., Hawrylycz, M. J., Koch, C., Einevoll, G. T., & Anastassiou, C. A. (2017). European Journal of Neuroscience, 45(8), 1013–1023.
Modulation of Context-Dependent Spatiotemporal Patterns within Packets of Spiking Activity. Itoh, M., & Leleu, T. (2017). Neural Computation, 29(5), 1263–1292.
Calcium dynamics predict direction of synaptic plasticity in striatal spiny projection neurons. Jędrzejewska-Szmek, J., Damodaran, S., Dorman, D. B., & Blackwell, K. T. (2017). European Journal of Neuroscience, 45(8), 1044–1056.
Stimulus background influences phase invariant coding by correlated neural activity. Metzen, M. G., & Chacron, M. J. (2017). eLife, 6(e24482).
Hippocampal release of dopamine and norepinephrine encodes novel contextual information. Moreno-Castilla, P., Pérez-Ortega, R., Violante-Soria, V., Balderas, I., & Bermúdez-Rattoni, F. (2017). Hippocampus, 27(5), 547–557.
Degeneracy in the regulation of short-term plasticity and synaptic filtering by presynaptic mechanisms. Mukunda, C. L., & Narayanan, R. (2017). Journal of Physiology, 595(8), 2611–2637.
Parvalbumin-expressing interneurons coordinate hippocampal network dynamics required for memory consolidation. Ognjanovski, N., Schaeffer, S., Wu, J., Mofakham, S., Maruyama, D., Zochowski, M., & Aton, S. J. (2017). Nature Communications, 8, 15039.
Emergent spatial synaptic structure from diffusive plasticity. Sweeney, Y., & Clopath, C. (2017). European Journal of Neuroscience, 45(8), 1057–1067.
Emergence of transformation-tolerant representations of visual objects in rat lateral extrastriate cortex. Tafazoli, S., Safaai, H., De Franceschi, G., Rosselli, F. B., Vanzella, W., Riggi, M., … Zoccolan, D. (2017). eLife, 6(e22794).
Chemical labelling for visualizing native AMPA receptors in live neurons. Wakayama, S., Kiyonaka, S., Arai, I., Kakegawa, W., Matsuda, S., Ibata, K., … Hamachi, I. (2017). Nature Communications, 8, 14850.
An Approximation of the Error Backpropagation Algorithm in a Predictive Coding Network with Local Hebbian Synaptic Plasticity. Whittington, J. C. R., & Bogacz, R. (2017). Neural Computation, 29(5), 1229–1262.
Spike-timing dependent inhibitory plasticity to learn a selective gating of backpropagating action potentials. Wilmes, K. A., Schleimer, J.-H., & Schreiber, S. (2017). European Journal of Neuroscience, 45(8), 1032–1043.
#science#neuroscience#computational neuroscience#Brain science#research#neurobiology#cognitive science#cognition#publications#psychophysics#machine learning
12 notes
·
View notes