Draft:Minmin Luo

Submission declined on 7 June 2024 by TechnoSquirrel69 (talk). This submission is not adequately supported by reliable sources. Reliable sources are required so that information can be verified. If you need help with referencing, please see Referencing for beginners and Citing sources. This draft's references do not show that the subject qualifies for a Wikipedia article. In summary, the draft needs to meet any of the eight academic-specific criteria or cite multiple reliable, secondary sources independent of the subject, which cover the subject in some depth Make sure your draft meets one of the criteria above before resubmitting. Learn about mistakes to avoid when addressing this issue. If the subject does not meet any of the criteria, it is not suitable for Wikipedia. If you would like to continue working on the submission, click on the "Edit" tab at the top of the window. If you have not resolved the issues listed above, your draft will be declined again and potentially deleted. If you need extra help, please ask us a question at the AfC Help Desk or get live help from experienced editors. Please do not remove reviewer comments or this notice until the submission is accepted. Where to get help If you need help editing or submitting your draft, please ask us a question at the AfC Help Desk or get live help from experienced editors. These venues are only for help with editing and the submission process, not to get reviews. If you need feedback on your draft, or if the review is taking a lot of time, you can try asking for help on the talk page of a relevant WikiProject. Some WikiProjects are more active than others so a speedy reply is not guaranteed. How to improve a draft Wikipedia:Contributing to Wikipedia – a basic overview on how to edit Wikipedia. Help:Wikitext – how to use the markup Help:Referencing for beginners – how to include references Wikipedia:Article development – how to develop your article Wikipedia:Writing better articles – how to improve your article Wikipedia:Verifiability – make sure your article includes reliable third-party sources You can also browse Wikipedia:Featured articles and Wikipedia:Good articles to find examples of Wikipedia's best writing on topics similar to your proposed article. Improving your odds of a speedy review To improve your odds of a faster review, tag your draft with relevant WikiProject tags using the button below. This will let reviewers know a new draft has been submitted in their area of interest. For instance, if you wrote about a female astronomer, you would want to add the Biography, Astronomy, and Women scientists tags. Add tags to your draft Editor resources Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL Easy tools: Citation bot (help) | Advanced: Fix bare URLs Declined by TechnoSquirrel69 33 days ago. Last edited by TechnoSquirrel69 33 days ago. Reviewer: Inform author. Resubmit Please note that if the issues are not fixed, the draft will be declined again.

• Comment: Please note that Wikipedia is not for résumés. This draft needs to be formatted into an encyclopedic style to be accepted. Let me know if you have any questions! (please  mention me on reply; thanks!) —TechnoSquirrel69 (sigh) 04:14, 7 June 2024 (UTC)

---

Chinese neuroscientist

Minmin Luo is a Chinese neurobiologist. He currently serves as the Co-Director and Distinguished Investigator of Chinese Institute for Brain Research, Beijing, and also holds the position of Investigator at the New Cornerstone Science Laboratory.

Research Interests

To elucidate how neural circuits processes reward and punishment signals. I focus on studying the functions and mechanisms of the brain 5-HT neurons in the dorsal raphe and the neural pathway from the medial habenula to the interpeduncular nucleus. The Luo laboratory uses integrative approaches including electrophysiology, optical imaging and optogenetics, molecular genetics, and behavioral assays, and aims to reveal the roles and mechanisms of the associated neural circuits at the molecular, cellular, physiological, and circuit levels.

Education

B.S. in Psychology, Beijing University, China, 1995

M.S. in Computer Science, University of Pennsylvania, 1997

Ph.D. in Neuroscience, University of Pennsylvania, 2000

Summer Course "Advanced Techniques in Molecular Neuroscience", CSHL, 2008

Research Experience

1/1997 – 12/1999 Ph.D. Thesis Research (Advisor: David J. Perkel)

Department of Neuroscience, University of Pennsylvania

12/1999 – 7/2004  Postdoctoral Research (Advisor: Lawrence C. Katz)

Howard Hughes Medical Institute and Duke University

08/2004 – 9/2005  Investigator and Laboratory Head

Institute of Neuroscience, Chinese Academy of Sciences, Shanghai

10/2005 – 2022 Investigator and Laboratory Head, NIBS, Beijing, China

0/2005 – 4/2010 Assistant Investigator and Director of Imaging Facility

5/2010 – 12/2012 Associate Investigator

1/2013 – 12/2022  Investigator

3/2009 – 2023 Professor, School of Life Sciences, Tsinghua University. Tenured 5/2015

3/2018 – present founding Co-Director & Investigator

Chinese Institute for Brain Research, Beijing, China

1/2023 – present Investigator, New Cornerstone Science Laboratory

Teaching

Spring 1998, TA for Cellular Neuroscience, University of Pennsylvania

Spring 2005 Introduction to Neurobiology, Institute of Neuroscience, Chinese Academy of Sciences, Shanghai (Graduate course. 9 hours)

Spring, 2006 – 2009 Modern Biomedical Techniques, National Institute of Biological Sciences, Beijing, China (Graduate course, 6 hours per semester on Optical Imaging)

Fall, 2008 – 2012 Introduction to Molecular and Cellular Neurobiology, School of Life Sciences, Peking University, Beijing, China (Undergraduate course, 12 hours per semester)

Spring 2009 Introduction to Neurobiology, National Institute of Biological Sciences, Beijing, China (Informal graduate course, 30 hours per semester)

Spring, 2009-2019 Introduction to Neurobiology, School of Life Sciences, Tsinghua University, Beijing, China (Undergraduate course, 12 hours per semester)

Fall, 2010-2017 Optical imaging and optogenetics, PTN and CLS Graduate Programs (Graduate course, 12 hours per semester)

Spring, 2011-2013 The chemosensory systems, PTN Graduate Programs (Graduate course, 12 hours per semester)

Spring, 2013-2019 Methods and models for studying neural circuits and behavior, Tsinghua University (Graduate course, 32 hours per semester)

Fall, 2013-2019 Frontier in Life Sciences, Tsinghua University (1^st year undergraduate course, 3 hours per semester)

Professional Services

1/2009 – 12/2015  Review Committee and Chair for Neuroscience

National Natural Science Foundation of China (NNSFC)

2/2011 – 5/2012 Rotating Director of the NIBS Graduate Program

2012, 2014, 2019 Organizers' Committee, Cold Spring Harbor Asia Symposium on Neural Circuit Basis of Behavior

2013-2016  Program Committee, Society for Neuroscience, USA

Chair for the Cognition and Behavior Theme (2014–2015)

Chair for Neurotechnique Theme (2015–2016).

2012-present Council Member and Vice President (2019-), Chinese Neuroscience Society

2015-present Scientific Advisory Board Member:

State Key Laboratory for Brain and Cognition;

State key Laboratory for Learning and Cognition;

State Key Laboratory for Medical Neurobiology;

Zhejiang University School of Medicine;

Guangdong Key Laboratory for Neural Circuit Dissection;

Capital Medical University Institute of Brain Disorder.

2005-present Grant reviews for NNSFC, MOST, and Human Frontiers Science Program

2020 & 2021 Invited for nominating Nobel Prize in Physiology and Medicine

2020 – 2022 Committee member, Award for Education in Neuroscience, Society for Neuroscience, USA

Editorial Services

Editorial Board Member, Neuron, 2016 – present

Editorial Board Member, Cells, 2022 – present

Editorial Board Member, J Neurosci Methods, 2018 – 2022

Section Editor,                   China Science Life Sciences, 2018 – present

Associate Editor,                Brain and Behavior, 2017-2018

Editorial Board Member,    Journal of Neurophysiology, 2008 – 2011

Associate Editor,                Frontiers in Neural Circuits, 2008 – present

Associate Editor,                Frontiers in Cellular Neuroscience, 2019 – present

Associate Editor,                Neuroscience Bulletin, 2022 – present

Ad hoc reviewer for Science, Nature, Cell, Neuron, Nature Neurosci, Nature Methods, Nature Comms, PNAS, Current Biology, Developmental Cell, eLife, Cell Reports, PLos Biology, Journal of Neuroscience, Molecular Psychiatry, Cerebral Cotex, Journal of Physiology, Journal of Neurophysiology, Journal of Neurobiology, Neuroscience, Chemical Senses, Frontiers in Neural Circuits, Hormone and Behavior, PLoS ONE,

Grant and Awards

1995 – 1999  University of Pennsylvania Fellowship for Biomedical Graduate Studies

2002 – 2007  Career Awards in the Biomedical Sciences, Burroughs Wellcome Fund

2006 – 2009  Human Frontier Science Program Young Investigator Grant

(Co-awardee with H. Matsunami at Duke University)

2006 – 2009  Outstanding Young Investigator Award

National Natural Sciences Foundation of China

2009             H-T Chiang Award for Outstanding Young Neuroscientists, Hsiang Tung Chang Foundation and Chinese Neuroscience Society, China

2011             China Youth Science and Technology Award

2011             Wuxi Pharma Award for Biomedical Researches

2016-present Beijing Scholar

2016             Paul Jansen & Wu Jieping Prize in Medicine

2017             TAN Jiazhen Awards for Life Sciences Innovation

2018             Fountainvalley Investigator in Life Sciences

2023             New Cornerstone Investigator

Publications

(^CA corresponding author；* equal contributions; in reverse chronological order)

See Google Scholar Profile (https://scholar.google.com/citations?user=YtnyhOsAAAAJ&hl=en)

1.      Yan T*, Wang R*, Yao J, Luo M^CA (2023) Single-cell transcriptomic analysis reveals rich pituitary–immune interactions under systemic inflammation. PLoS Biol 21(12): e3002403. 10.1371/journal.pbio.3002403.

2.      Sang D, Lin K, Yang Y, Ran G, Li B, Chen C, Li Q, Ma Y, Lu L, Cui XY, Liu Z, Lv S-Q, Luo M, Liu Q, Li Y, Zhang EE (2023) Prolonged sleep deprivation induces a cytokine-storm-like syndrome in mammals. Cell 186(25) P5500-5516.E21. 10.1016/j.cell.2023.10.025.

3.      Wang Y, You L, Tan K, Li M, Zou J, Zhao Z, Hu W, Li T, Xie F, Li C, Yuan R, Ding K, Cao L, Xin F, Shang C, Liu M, Gao Y, Wei L, You Z, Gao X, Xiong W, Cao P, Luo M, Chen F, Li K, Wu J, Hong B, Yuan K (2023). A common thalamic hub for general and defensive arousal control. Neuron 111: 3270-3287.

4.      Yuan, Z*., Qi, Z*., Wang, R., Cui, Y., An, S., Wu, G., Feng Q., Lin R., Dai R., Li A., Gong H., Luo Q., Fu L., Luo M^CA (2023). A corticoamygdalar pathway controls reward devaluation and depression using dynamic inhibition code. Neuron. DOI 10.1016/j.neuron.2023.08.022.

5.      Wang, Y., You, L., Tan, K., Li, M., Zou, J., Zhao, Z., Hu W., Li T., Xie F., Li C., Yuan R., Ding K., Cao L., Xin F., Shang C., Liu M., Gao Y., Wei L., You Z., Gao Z., Xiong W., Cao P., Luo M., Chen F., Li K., Wu J., Hong B., Yuan, K. (2023). A common thalamic hub for general and defensive arousal control. Neuron. 111: 3270-3287.e8. 10.1016/j.neuron.2023.07.007.

6.      Wu Z*, Cui Y*, Wang H, Wu H, Wan Y, Li B, Wang L, Pan S, Peng W, Dong A, Yuan Z, Jing M, Xu M, Luo M^CA, Li Y^CA (2023) Neuronal activity-induced, equilibrative nucleoside transporter-dependent, somatodendritic adenosine release revealed by a GRAB sensor. PNAS USA 120 e2212387120 DOI 10.1073/pnas.2212387120.

7.      Qian T*, Wang H*, Wang P*, Geng L, Mei L, Osakada T, Wang L, Tang Y, Kania A, Grinevich V, Stoop R, Lin D, Luo M, Li Y^CA (2023) Compartmental Neuropeptide Release Measured Using a New Oxytocin Sensor. Nature Biotechnology DOI 10.1038/s41587-022-01561-2.

8.      Huang Y*, Cui Y*, Deng H, Wang J, Hong R, Hu S, Hou H, Dong Y, Wang H, Chen J, Li L, Xie Y, Sun P, Fu X, Yin L, Xiong W, Shi S-H, Luo M, Wang S^CA, Li X^CA, Sheng X^CA (2022) Bioresorbable thin-film silicon diodes for the optoelectronic excitation and inhibition of neural ctivities. Nature Biomedical Engineering DOI 10.1038/s41551-022-00931-0.

9.      Lin R*^CA, Zhou Y *, Yan T*, Wang R*, Li H, Wu Z, Zhang X, Zhou X, Zhao F, Zhang L, Li Y, Luo M^CA (2022) Directed Evolution of Adeno-Associated Virus for Efficient Gene Delivery to Microglia. Nature Methods 19, 976–985.

10.  Dai R*, Yu T*, Weng D*, Li H, Cui Y, Wu, Guo Q, Zou H, Wu W, Gao X, Qi Z, Ren Y, Wang S, Li Y, Luo M^CA (2022) A Neuropsin-based Optogenetic Tool for Precise Control of Gq signaling. Science China Life Sciences DOI 10.1007/s11427-022-2122-0.

11.  Qi Z*, Guo Q*, Wang S, Jia M, Gao X, Luo M^CA, Fu L^CA (2022) All-fiber-transmission photometry for simultaneous optogenetic stimulation and multi-color neuronal activity Recording. Opto-Electronic Advances DOI 10.29026/oea.2022.210081.

12.  Li L*, Lu L*, Ren Y*, Tang G*, Zhao Y, Cai X, Shi Z, Ding H, Liu C, Cheng D, Xie Y, Wang H, Fu X, Yin L, Luo M^CA, Sheng X^CA (2022) Colocalized, bidirectional optogenetic modulations in freely behaving mice with a wireless dual-color optoelectronic probe. Nature Comms 13:839 doi.org/10.1038/s41467-022-28539-7.

13.  Ren Y, Liu Y, Zheng S, Luo M^CA (2022) KCTD8 and KCTD12 facilitate axonal expression of GABA_B receptors in habenula cholinergic neurons J Neurosci 42, 1648-1665.

14.  Jing M, Ding X, Han X, Zhao T, Luo M, Wu N, Li J, Song, R. (2022). Activation of mesocorticolimbic dopamine projections initiates cue-induced reinstatement of reward seeking in mice. Acta Pharmacologica Sinica, 1-13.

15.   Ren Y, Liu Y, Luo M^CA (2021) Gap Junctions Between Striatal D1 Neurons and Cholinergic Interneurons. Frontiers in cellular neuroscience 15, 191.

16.  Xie Z, Wang M, Liu Z, Shang C, Zhang C, Sun L, Gu H, Ran G, Pei Q, Ma Q, Huang M, Zhang J, Lin R, Zhou Y, Zhang J, Zhao M, Luo M, Wu Q, Cao P^CA, Wang X^CA (2021). Transcriptomic encoding of sensorimotor transformation in the midbrain. Elife 10, e69825.

17.  Feng Q, An S, Wang R, Lin R, Li A, Gong H, Luo M^CA (2021). Whole-Brain Reconstruction of Neurons in the Ventral Pallidum Reveals Diverse Projection Patterns. Frontiers in neuroanatomy, 15, 801354.

18.  Lin R*^CA, Liang J*, Wang R, Yan T, Zhou Y, Liu Y, Feng Q, Li A, Gong H, Luo M^CA (2020) The raphe dopamine system controls the expression of incentive memory. Neuron 106, 498-514.

19.  Lu L*, Wang R, Luo M^CA (2020) An optical brain-to-brain interface supports rapid information transmission for precise locomotion control. Science China Life Sciences doi 10.10.0.7/s11427-020-1675-x.

20.  Lu L*, Ren Y*, Yu T, Liu Z, Wang S, Tan L, Zeng J, Feng Q, Lin R, Liu Y, Guo Q, Luo M^CA (2020) Control of locomotor speed, arousal, and hippocampal theta rhythms by the nucleus incertus. Nature Communications doi 10.1038/s41467-019-14116-y.

21.  Huang L, Xi Y, Peng Y, Yang Y, Huang X, Fu Y, Tao Q, Xiao J, Yuan T, An K, Zhao H, Pu M, Xu F, Xue T, Luo M, So KF^CA, Ren C^CA (2019) A visual circuit related to habenula underlies the antidepressive effects of light therapy. Neuron 102, 128-142. e8

22.  Sun Q, Li X, Ren M, Zhao M, Zhong Q, Ren Y, Luo P, Ni H, Zhang X, Zhang C, Yuan J, Li A, Luo M, Gong H, Luo Q^CA (2019) A whole-brain map of long-range inputs to GABAergic interneurons in the mouse medial prefrontal cortex. Nature Neurosci doi 10.1038/s41593-019-0429-9.

23.  Ren J, Isakova A, Friedmann D, Zeng J, Grutzner S, Pun A, Zhao GQ, Kolluru SS, Wang R, Lin R, Li P, Li A, Raymond JL, Luo Q, Luo M, Quake SR, Luo L (2019) Serotonin neurons in the dorsal and medial raphe nuclei: from single-cell transcriptomes to whole-brain projections. Elife; 8: e49424.

24.  Zhao Y, Liu C, Liu Z, Luo W, Li L, Cai X, Liang D, Su Y, Ding H, Wang Q, Yin L, Guan J, Luo M, Sheng X^CA (2019) Wirelessly operated, implantable optoelectronic probes for optogenetics in freely moving animals. IEEE Transactions on Electron Devices 66(1): 785-792, doi:10.1109/TED.2018.2882397.

25.  Lin R*, Wang R*, Yuan J*, Feng Q, Zhou Y, Zeng S, Ren M, Jiang S, Ni H, Zhou C, Gong H^CA, Luo M^CA (2018) Cell type- and projection-specific brain-wide reconstruction of single neurons. Nature Methods 15: 1033–1036, doi:10.1038/s41592-018-0184-y.

26.  Wei C*, Han X*, Weng D, Feng Q, Qi X, Li J^CA, Luo M^CA (2018) Response dynamics of midbrain dopamine neurons and serotonin neurons to heroin, nicotine, cocaine, and MDMA. Cell Discovery 4(1): 60, doi:10.1038/s41421-018-0060-z.

27.  Jing M, Zhang P, Wang G, Jiang H, Mesik L, Feng J, Zeng J, Wang S, Looby J, Guagliardo NA, Langma LW, Lu J, Zuo Y, Talmage DA, Role LW, Barrett PQ, Zhang LI, Luo M, Song Y, Zhu J, Li Y^CA (2018) A genetically-encoded fluorescent acetylcholine indicator A genetically encoded fluorescent acetylcholine indicator for in vitro and in vivo studies. Nature Biotechnology 36(8): 726-737, doi:10.1038/nbt.4184

28.  Ding H*, Lu L*, Shi Z, Wang D, Li L, Li X, Ren Y, Liu C, Cheng D, Kim H, Giebink NC, Wang X, Yin L, Zhao L, Luo M, Sheng X^CA (2018) Microscale optoelectronic infrared-to-visible upconversion devices and their use as injectable light sources. PNAS 115(26): 6632-6637, doi:10.1073/pnas.1802064115.

29.  Cai D, Yue Y, Su X, Liu M, Wang Y, You L, Xie F, Deng F, Chen F, Luo M, Yuan K^CA (2018) Distinct anatomical connectivity patterns differentiate subdivisions of the nonlemniscal auditory thalamus in mice. Cerebral Cortex doi: 10.1093/cercor/bhy115.

30.  Lin R, Feng Q, Li P, Zhou P, Wang R, Liu Z, Wang Z, Qi Z, Tang N, Shao F, Luo M^CA (2018) A hybridization chain-reaction-based method for amplifying immunosignals. Nature Methods 15(4): 275-278, doi:10.1038/nmeth.4611.

31.  Li Y, Zeng J, Zhang J, Yue C, Zhong W, Liu Z, Feng Q, Luo M^CA (2018) Hypothalamic Circuits for Predation and Evasion. Neuron 97: 911–924, doi:10.1016/j.neuron.2018.01.005. Featured with Cover and Video Abstract.

32.  Ables JL, Görlich Antolin-Fontes B, Wang C, Lipford S, Riad MH, Ren J, Hu F, Luo M, Kenny PJ, Heintz N, Ibañez-Tallon I^CA (2017) A Retrograde inhibition by a specific subset of interpeduncular a5 nicotinic neurons regulates nicotine preference. PNAS 114: 13012-13017.

33.   Qi Z, Guo Q, Liu Q, Chen M, Gong H, Zeng S, Luo Q, Luo M, Fu L^CA (2017) GRIN lens based high speed confocal system for deep brain calcium imaging. International Conference on Photonics and Imaging in Biology and Medicine doi:10.1364/PIBM.2017.T1A.4.

34.  Zhong W, Li Y, Feng Q, Luo M^CA (2017) Learning and Stress Shape the Reward Response Patterns of Serotonin Neurons. J Neurosci 37: 8863-8875.

35.  Luo J, Feng Q, Wei L^CA, Luo M^CA (2017) Optogenetic activation of dorsal raphe neurons rescues the autistic-like social deficits in Shank3 knockout mice. Cell Res 27(7): 950-953, doi:10.1038/cr.2017.52.

36.  Zhao Z, Wang L, Gao W, Hu F, Zhang J, Ren Y, Lin R, Feng Q, Cheng, M, Ju D, Chi Q, Wang D, Song S, Luo M, Zhan C^CA (2017) A central catecholaminergic circuit controls blood glucose levels during stress Neuron 95(1): 138-152, doi:10.1016/j.neuron.2017.05.031.

37.  Wang D, Li Y, Feng Q, Guo Q, Zhou J, Luo M^CA (2017) Learning shapes the aversion and reward responses of lateral habenula neurons. eLife 6:e23045.

38.  Huang L, Yuan T, Tan M, Xi Y, Hu Y, Tao Q, Zhao Z, Zheng J, Han Y, Xu F, Luo M, Sollars PJ, Pu M, Pickard GE, So K-F^CA, Ren C^CA (2017) A retinoraphe projection regulates serotonergic activity and looming-evoked defensive behavior Nature Comms 8: 14908, doi:10.1038/ncomms14908.

39.  Ren J^CA, Zhang M, Li T, Zhang J, Lin R, Chen S, Luo M, Dong M^CA (2016) Quantitative proteomics of sleep-deprived mouse brains reveals global changes in mitochondrial proteins. PLoS ONE 11 doi:10.1371/journal.pone.0163500.

40.  Zhang J, Tan L, Ren Y, Liang J, Lin R, Feng Q, Zhou J, Hu F, Ren J, Wei C, Yu T, Zhuang Y, Bettler B, Wang F, Luo M^CA (2016) Presynaptic excitation via GABAB receptors in habenula cholinergic neurons regulates fear memory expression. Cell 166: 716–728, doi:10.1016/j.cell.2016.06.026.

41.   Hu R, Zhang J, Luo M, Hu J^CA (2016) Response patterns of GABAergic neurons in the anterior piriform cortex of awake mice. Cerebral Cortex doi:10.1093/cercox/bhw175.

42.   Glajch K, Kelver D, Hegeman D, Cui Q, Xenias H, Augustine E, Hernandez V, Verma N, Huang T, Luo M, Justice N, Chan S^CA (2016) Npas1+ pallidal neurons target striatal projection neurons. J Neurosci 36(20): 5472-5488.

43.  Li Y, Zhong W, Wang D, Feng Q, Liu Z, Zhou J, Jia C, Hu F, Zeng J, Guo Q, Fu L, Luo M^CA (2016) Serotonin neurons in the dorsal raphe nucleus encode reward signals. Nature Comms 7: 10503, doi:10.1038/ncomms10503.

44.  Soria-Gómez E, Busquets-Garcia A, Hu F, Mehidi A, Cannich A, Roux L, Louit I, Alonso L, Wiesner T, Georges F, Verrier D, Vincent P, Ferreira G, Luo M, Marsicano G^CA (2015) Habenular CB1 receptors control the expression of aversive memories. Neuron 88: 306-13, doi:10.1016/j.neuron.2015.08.035.

45.  Guo Q^*, Zhou J^*, Feng Q, Lin R, Gong H, Luo Q, Zeng S, Luo M^CA, Fu L^CA (2015) Multi-channel fiber photometry for population neuronal activity recording. Biomedical Optics Express 6: 3919-3931, doi:10.1364/BOE.6.003919.

46.  Guo Q, Wang D, He X, Feng Q, Lin R, Xu F, Fu L, Luo M^CA (2015) Whole-brain mapping of inputs to projection neurons and cholinergic interneurons in the dorsal striatum. PLoS ONE doi:10.1371/journal.pone.0123381.

47.  Wang D, He X, Zhao Z, Feng Q, Lin R, Sun Y, Ding T, Xu F^CA, Luo M^CA, Zhan C^CA (2015) Whole-brain mapping of the direct inputs and axonal projections of pro-opiomelanocortin (POMC) and agouti-related peptide (AgRP) neurons. Front. Neuroanat. doi:10.3389/fnana.2015.00040.

48.  Gao L, Jiang Y, Mu L, Liu Y, Wang F, Wang P, Zhang A, Tang N, Chen T, Luo M, Yu L, Gao S, Chen L^CA (2015) Efficient generation of mice with consistent transgene expression by FEEST. Scientific reports 5: 16284.

49.  Zhou J, Jia C, Feng Q, Bao J, Luo M^CA (2015) Prospective coding of dorsal raphe reward signals by the orbitofrontal cortex. J Neurosci 35: 2717-2730.

50.  Liu Z^*, Zhou J^*, Li Y, Hu F, Wang D, Lu Y, Ma M, Feng Q, Zhang J, Zeng J, Bao, Kim J, Chen Z, Mestikawy SE, Luo M^CA (2014) Dorsal raphe neurons signal reward through 5-HT and glutamate. Neuron 81: 1360–1374. (F1000 recommendation)

51.  Han Y, Shi Y-F, Xi W, Zhou R, Tan Z-B, Wang H, Li X-M, Chen Z, Feng G, Luo M, Huang Z-L, Duan S^CA, Yu Y-Q^CA (2014) Selective Activation of Cholinergic Basal Forebrain Neurons Induces Immediate Sleep-wake Transitions. Current Biology 24: 693–698.

52.  Wang S, Tan Y, Zhang J, Luo M^CA (2013) Pharmacogenetic activation of midbrain dopamine neurons induces hyperactivity. Neurosci Bulletin 29: 517-524.

53.  Zhan C^CA, Zhou J, Feng Q, Zhang J, Lin S, Bao J, Wu P, Luo M^CA (2013) Acute and long-term suppression of feeding behavior by POMC neurons in the brainstem and hypothalamus, respectively. J Neurosci 33: 3624 –3632. (F1000 recommendation)

54.  Hu F, Ren J, Zhang J, Zhong W, Luo M^CA (2012) Atrial natriuretic peptide blocks synaptic transmission by activating Phosphodiesterase 2A and eliminating basal PKA activity in presynaptic terminals. PNAS 109: 17681–17686. (F1000 recommendation)

55.  Ma M, Luo M^CA (2012) Optogenetic activation of basal forebrain cholinergic neurons modulates neuronal excitability and sensory responses in the main olfactory bulb. J Neurosci 32: 10105-10116. (TWIJ feature article).

56.  Gong R^*, Ding C^*, Hu J^*, Lu Y, Liu F, Mann E, Xu F, Cohen MB and Luo M^CA (2011) Role for the membrane receptor guanylyl cyclase-C in attention deficiency and hyperactive behavior. Science 333: 1642-1646.

57.  Zhao S, Ting JT, Atallah HE, Qiu L, Tan J, Gloss B, Augustine GJ, Deisseroth K, Luo M,  Graybiel AM, Feng G^CA (2011) Cell type–specific channelrhodopsin-2 transgenic mice for optogenetic dissection of neural circuitry function. Nature Methods 8: 745-752.

58.  Ren J, Qin C, Hu F, Tan J, Qiu L, Zhao S, Feng G, Luo M^CA (2011) Habenula "cholinergic" neurons co-release glutamate and acetylcholine and activate postsynaptic neurons via distinct transmission modes. Neuron 69: 445-452. (Cover; F1000 recommendation)

59.  Zhan C, Luo M^CA (2010) Diverse patterns of odor representation by neurons in the anterior piriform cortex of awake mice. J Neurosci 30: 16662–16672.

60.  Han J, Luo M^CA (2010) Loss of CO₂ sensing by the olfactory system of CNGA3 knockout mice. Curr Zoology 56: 793−799.

61.  Gao L, Hu J, Zhong C, Luo M^CA (2010) Integration of CO₂ and odorant signals in the mouse olfactory bulb. Neuroscience 170: 881–892.

62.  Tan J, Savigner A, Ma M, and Luo M^CA (2010) Odor information processing by the olfactory bulb analyzed in gene-targeted mice. Neuron 65: 912-926. (Video abstract)

63.  Sun L, Wan H, Hu J, Han J, Matsunami H, and Luo M^CA (2009) Guanylyl cyclase-D in the olfactory CO₂ neurons is activated by bicarbonate. PNAS 106: 2041-2046.

64.  Qin C, Luo M^CA (2009) Neurochemical phenotypes of the afferent and efferent projections of the mouse medial habenula. Neuroscience 161: 827-37

65.  Fan S, Luo M^CA (2009) The organization of feedback projections in a pathway important for processing pheromonal signals. Neuroscience 161: 489-500

66.  Yan Z, Tan J, Qin C, Lu Y, Ding C, and Luo M^CA (2008) Precise circuitry links bilaterally symmetric olfactory maps. Neuron 58: 613–624. (Featured with a preview)

67.  Bian X, Yanagawa Y, Chen WR, and Luo M^CA (2008) Cortical-like functional organization of the pheromone-processing circuits in the medial amygdala. J Neurophysiol 99: 77-86.

68.  Luo M^CA (2008) The Necklace Olfactory System in Mammals. J Neurogenetics 22: 229-238.

69.  Hu J^*, Zhong C^*, Ding C, Chi Q, Walz A, Mombaerts P, Matsunami H, and Luo M^CA (2007) Detection of near-atmospheric concentrations of CO₂ by an olfactory subsystem. Science 317: 953-957.

70.  Grosmaitre X, Santarelli LC, Tan J, Luo M, and Ma M^CA (2007) Dual functions of mammalian olfactory sensory neurons as odor detectors and mechanical sensors. Nature Neurosci 10: 348-354.

71.  Luo, M^CA, Fee, MS, and Katz, LC (2003) Encoding pheromonal signals in the accessory olfactory bulb of behaving mice. Science 299: 1196-1201. (Article, Cover, and News and Views; Faculty 1000 recommendation).

72.  Luo, M and Perkel, DJ^CA (2002) Intrinsic and synaptic properties of neurons in an avian thalamic nucleus during song learning J Neurophysiol 88: 1903-1914.

73.  Perkel, DJ^CA, Farries, MA, Luo, M, and Ding, L (2002) Electrophysiological analysis of a songbird basal ganglia circuit essential for vocal plasticity. Brain Res Bulletin 57: 529-532.

74.  Luo, M^CA and Katz, LC (2001) Response correlation maps of neurons in the mammalian olfactory bulb. Neuron 32: 1165-1179.

75.  Luo, M, Ding, L, and Perkel, DJ^CA (2001) An avian basal ganglia pathway essential for vocal learning forms closed topographic loops. J Neurosci 21: 6836-45.

76.  Luo, M, and Perkel, DJ^CA (1999) A GABAergic, strongly inhibitory projection to a thalamic nucleus in the zebra finch song system. J Neurosci 19: 6700-11.

77.  Luo, M, and Perkel, DJ^CA (1999) Long-range GABAergic projection in a circuit essential for vocal learning. J Comp Neurol 403: 68-84.

Reviews：

78.  Lin R^CA, Liang J, Luo M^CA (2021) The raphe dopamine system: roles in salience encoding, memory expression and addiction. Trends in Neurosciences DOI 10.1016/j.tins.2021.01.002.

79.  Liu Z, Lin R, Luo M^CA (2020) Reward contributions to serotonergic functions. Annual Review of Neuroscience 43, 141–62.

80.  Li Y, Liu Z, Guo Q, Luo M (2019) Long-term fiber photometry for neuroscience studies Neuroscience Bulletin 35, 425-433.

81.  Lin R, Yan T, Luo M^CA (2019) The two faces of PVN CRF neurons. Nature Neuroscience doi:10.1038/s41593-019-0363-x.

82.  Luo F, Wei Y, Wang Z, Luo M, Hu J^CA (2019) Genetically encoded neural activity indicators. Brain Science Advances 4, 1-15.

83.  Lin R^CA, Li Y, Luo M (2018) A Neural Circuit Driving Maternal Behaviors Neuron 98: 7-8, doi:10.1016/j.neuron.2018.03.025.

84.  Luo M^CA, Li Y, Zhong W (2016) Do dorsal raphe 5-HT neurons encode "beneficialness"? Neurobiology of Learning and Memory doi:10.1016/j.nlm.2016.08.008.

85.  Luo M^CA, Zhou, J, Liu Z (2015) Reward processing by the dorsal raphe nucleus: 5-HT and beyond. Learning Memory 22: 452-460. doi:10.1101/lm.037317.114.,

86.  Luo M^CA (2011) Long-range intracortical excitation shapes olfactory processing. Neuron 72: 1-3.,

87.  Luo M^CA, Sun L, and Hu J (2009) Neural detection of gases—carbon dioxide, oxygen—in vertebrates and invertebrates. Curr Opinion Neurobiol 19: 354-361.

88.  Luo, M^CA. (2004) Got milk? A pheromonal message for newborn rabbits. Bioessays 26: 6-9.

89. Luo, M^CA and Katz LC (2004) Encoding pheromones by the mammalian vomeronasal system. Curr Opinion Neurobiol 14: 428-34.

References