1. Liqun Luo - Stanford Profiles
Bio. Dr. Luo grew up in Shanghai, China, and earned his bachelor's degree in molecular biology from the University of Science and Technology of China.
Liqun Luo is part of Stanford Profiles, official site for faculty, postdocs, students and staff information (Expertise, Bio, Research, Publications, and more). The site facilitates research and collaboration in academic endeavors.
2. Liqun Luo - Stanford Medicine
Bio. Dr. Luo grew up in Shanghai, China, and earned his bachelor's degree in molecular biology from the University of Science and Technology of China.
3. Liqun Luo - Google Scholar
Professor of Biology, Stanford University - Cited by 54436 - neurobiology - genetics - developmental biology
Professor of Biology, Stanford University - Cited by 54,478 - neurobiology - genetics - developmental biology
4. Liqun Luo | American Academy of Arts and Sciences
Dr. Liqun Luo is a Professor of Biology at Stanford University, Professor by courtesy of Neurobiology at Stanford Medical School, and a Howard Hughes Medical ...
See AlsoBellagio Underground Tour LobbySYSTEM AND METHODS FOR IDENTIFICATION OF IMPLANTED MEDICAL DEVICES AND/OR DETECTION OF RETAINED SURGICAL FOREIGN OBJECTS FROM MEDICAL IMAGES专利检索- ..包括处理医疗诊断数据专利检索查询-专利查询网How To Take Care Of A Hamster – [Vet Explains Pets]Buy 2 Week Disposable Contact Lenses from the UKDr. Liqun Luo is a Professor of Biology at Stanford University, Professor by courtesy of Neurobiology at Stanford Medical School, and a Howard Hughes Medical Institute Investigator. Luo seeks to understand how neural circuits are assembled during development and how they contribute to sensory perception. He has developed new methods for tracing neural connections in the brain, thus enabling exploration of fundamental issues of neural structure, connectivity, and development. One of his keystone contributions was the creation of a genetic method—mosaic analysis with a repressible cell marker (MARCM) that enables scientists both to label small groups of neurons and to delete or express genes specifically in these cells. He used this technique to explore the assembly of neural circuits during development and the circuits that mediate sensory perception in the fruit fly and mouse. His research revealed that neurons in the fly brain prune their axons dramatically during development through local axon degeneration. He is also known for his discovery that olfactory projection neurons form an orderly, complex map in the brains of flies and mice. His research currently focuses on the questions: How are neurons in the brain organized into circuits to process information? How are these circuits assembled during development? The Luo lab addressed these questions through four core research programs: (1) Organization of the fly and mouse olfactory systems; (2) Assembly of the fly olfactory...
5. Liqun Luo - Routledge & CRC Press Author Profile
Dr. Luo grew up in Shanghai, China, and earned his bachelor's degree from the University of Science & Technology of China. After receiving his PhD at Brandeis ...
Liqun Luo - Routledge & CRC Press Author Profile
6. A Conversation with SFARI Investigator Liqun Luo
24 feb 2017 · Liqun Luo is a professor at Stanford University and a Howard Hughes Medical Institute Investigator. Smith-Magenis syndrome (SMS) is a rare developmental ...
SFARI Investigator Liqun Luo discusses the neurodevelopmental disorder Smith-Magenis syndrome and his lab’s efforts to understand its underlying biology.
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7. Principles of Neurobiology - PMC
They are used in both undergraduate and graduate/medical school neuroscience courses. Stanford's Liqun Luo's text is a new entry to our field and stands apart ...
. 2016 Apr 15;15(1):R22–R23.
8. USRP 2016 - How do neurons connect with each other?
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2016 USRP Talks - Wednesday, June 29, 2016 - How do neurons connect with each other? - Liqun Luo, Professor (Biology)
9. Liqun Luo - Google Scholar
Distinct morphogenetic functions of similar small GTPases: Drosophila Drac1 is involved in axonal outgrowth and myoblast fusion. L Luo, YJ Liao, LY Jan, YN Jan.
Professor of Biology, Stanford University - อ้างอิงโดย 54,478 รายการ - neurobiology - genetics - developmental biology
10. Liqun Luo – NAS - National Academy of Sciences
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Dr. Luo grew up in Shanghai, China, and earned his bachelor's degree from the University of Science and Technology of China. After obtaining his PhD in Brandeis University, and postdoctoral training at the UCSF, Dr. Luo started his own lab in the Department of Biology, Stanford University in December 1996.…
11. [PDF] Principles of Neurobiology - Princeton Math
About the Author. Liqun Luo earned his bachelor degree from the University of Science & Technology of ... Given the relatively small size of the book, students ...
12. Neural landscape diffusion resolves conflicts between needs across time
8 nov 2023 · ... short dwell times, and a high gradient scale factor keeps ... Correspondence to Karl Deisseroth or Liqun Luo. Ethics declarations ...
Animals perform flexible goal-directed behaviours to satisfy their basic physiological needs1–12. However, little is known about how unitary behaviours are chosen under conflicting needs. Here we reveal principles by which the brain resolves such conflicts between needs across time. We developed an experimental paradigm in which a hungry and thirsty mouse is given free choices between equidistant food and water. We found that mice collect need-appropriate rewards by structuring their choices into persistent bouts with stochastic transitions. High-density electrophysiological recordings during this behaviour revealed distributed single neuron and neuronal population correlates of a persistent internal goal state guiding future choices of the mouse. We captured these phenomena with a mathematical model describing a global need state that noisily diffuses across a shifting energy landscape. Model simulations successfully predicted behavioural and neural data, including population neural dynamics before choice transitions and in response to optogenetic thirst stimulation. These results provide a general framework for resolving conflicts between needs across time, rooted in the emergent properties of need-dependent state persistence and noise-driven shifts between behavioural goals. Behavioural and electrophysiological studies in simultaneously thirsty and hungry mice reveal a neural basis for resolving conflicts between needs, in which choices are guided by a persistent and...