Pubs at Harvard
Bibliographic References tagged with Pubs at Harvard
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* Yang, Wu T, Tu, Qin Y, Shen, Li J, Choi M, Duan, Zhang Y. Redundant neural circuits regulate olfactory integration. PLoS Genetics. 2022;18(1):e1010029.
* Yang, Wu T, Tu, Qin Y, Shen, Li J, Choi M, Duan, Zhang Y. Redundant neural circuits regulate olfactory integration. PLoS Genetics. 2022;18(1):e1010029.
* Liu, Wu, Canales X, Wu M, Choi M, Duan, Calarco JA, Zhang Y. Forgetting generates a novel state that is reactivatable. #: co-first author. Science Advances. 2022;8(6):eabi9071.
* Liu, Wu, Canales X, Wu M, Choi M, Duan, Calarco JA, Zhang Y. Forgetting generates a novel state that is reactivatable. #: co-first author. Science Advances. 2022;8(6):eabi9071.
* Wasson JA, Harris G, Keppler-Ross S, Brock TJ, Dar AR, Butcher RA, Fischer SE, Kagias K, Clardy J, Zhang Y, et al. Neuronal control of maternal provisioning in response to social cues. #: co-first author; ^: co-corresponding author. bioRxiv. 2021;10.1101(2021.02.01):429208.
* Wasson JA, Harris G, Keppler-Ross S, Brock TJ, Dar AR, Butcher RA, Fischer SE, Kagias K, Clardy J, Zhang Y, et al. Neuronal control of maternal provisioning in response to social cues. #: co-first author; ^: co-corresponding author. bioRxiv. 2021;10.1101(2021.02.01):429208.
*Liu, Zhang. What can a worm learn in a bacteria-rich habitat? J Neurogenet . 2020;(15):1–9.
*Liu, Zhang. What can a worm learn in a bacteria-rich habitat? J Neurogenet . 2020;(15):1–9.
Koterniak B, Pilaka P, Gracida X, Schneider L-M, Pritišanac I, Zhang Y, Calarco J. Global regulatory features of alternative splicing across tissues and within the nervous system of C. elegans. Genome Research. 2020;(267328):120.
Koterniak B, Pilaka P, Gracida X, Schneider L-M, Pritišanac I, Zhang Y, Calarco J. Global regulatory features of alternative splicing across tissues and within the nervous system of C. elegans. Genome Research. 2020;(267328):120.
* Pereira AG, Gracida X, Kagias K, Zhang Y. C. elegans aversive olfactory learning generates diverse intergenerational effects. J Neurogenet. 2020;10(1080):1–11.
* Pereira AG, Gracida X, Kagias K, Zhang Y. C. elegans aversive olfactory learning generates diverse intergenerational effects. J Neurogenet. 2020;10(1080):1–11.
Morud J, Hardege I, Liu H, Wu T, Basu S, Zhang Y, Schafer W. Deorphanisation of novel biogenic amine-gated ion channels identifies a new serotonin receptor for learning. bioRxiv . 2020;10(1101).
Morud J, Hardege I, Liu H, Wu T, Basu S, Zhang Y, Schafer W. Deorphanisation of novel biogenic amine-gated ion channels identifies a new serotonin receptor for learning. bioRxiv . 2020;10(1101).
* Wu T, Duan F, Yang W, Liu H, Caballero A, Fernandes de Abreu DA, Dar A, Alcedo J, Ch’ng Q, Butcher R, et al. Pheromones modulate learning by regulating the balanced signals of two insulin-like peptides. Neuron. 2019;2019.09.006.
* Wu T, Duan F, Yang W, Liu H, Caballero A, Fernandes de Abreu DA, Dar A, Alcedo J, Ch’ng Q, Butcher R, et al. Pheromones modulate learning by regulating the balanced signals of two insulin-like peptides. Neuron. 2019;2019.09.006.
*Gracida, Harris G, Zhang Y, Calarco J. An Elongin-Cullin-SOCS-box Complex Regulates Stress-induced Serotonergic Neuromodulation. &: Co-senior authors. Cell Reports. 2017;10.1016(11):042.
*Gracida, Harris G, Zhang Y, Calarco J. An Elongin-Cullin-SOCS-box Complex Regulates Stress-induced Serotonergic Neuromodulation. &: Co-senior authors. Cell Reports. 2017;10.1016(11):042.
*Yu, Yang W, Liu, Hao, Zhang Y. An Aversive Response to Osmotic Upshift in Caenorhabditis elegans. eNeuro. 2017;4(2):pii: ENEURO.0282–16.2017.
*Yu, Yang W, Liu, Hao, Zhang Y. An Aversive Response to Osmotic Upshift in Caenorhabditis elegans. eNeuro. 2017;4(2):pii: ENEURO.0282–16.2017.