University of Tsukuba
筑波大学

Japan

The University of Tsukuba is located in the suburbs of Tokyo and is at the heart of Tsukuba Science City —Japan’s largest “science city,” which has 29 national research institutes and about 150 private research organizations. The University operates on the principle that it is open to all.

The University of Tsukuba aims to cross the borders that separate a variety of organizations, such as those between nations, research institutions, and fields of study. The University’s network is expanding globally. In particular, the University has entered into ten campus-in-campus arrangements with universities in eight countries and regions, thereby promoting close cooperative relationships between education and research. At present, the University hosts approximately 2,200 study abroad students from more than 110 countries and regions.

Collaboration is essential in order to achieve high-quality outcomes with limited resources. As an example, the University is actively engaged in an exchange of talent and joint research that goes beyond the conventional university framework at nationwide joint-use institutes that encompass the four fields of computational science, marine science, plant science, and plasma research.

The Research and Development Centers are the part of the University’s quest to pursue research and innovation that result in benefits for society. Externally funded, twelve centers are newly established as industry-university-government partnerships for joint research in areas of high demand from the community.

The University is also proactively engaging in the support of venture corporations. Thus far, a total of 160 companies have originated from the University of Tsukuba, including Cyberdyne, Inc.

A frontrunner in university reform in Japan, the University is creating a flexible education and research structure as well as a university system to meet the needs of the next generation. It aspires to be a comprehensive university, continuously meeting new challenges and developing new areas. The foremost mission of a university is to provide an environment that allows future leaders to realize their full potential. The University gives students the opportunity to develop their individuality and skills through an education that is backed by cutting-edge research.

The University of Tsukuba retains sole responsibility for content. © 2021 The University of Tsukuba.

1 September 2020 - 31 August 2021

Region: Global
Subject/journal group: All

The table to the right includes counts of all research outputs for University of Tsukuba published between 1 September 2020 - 31 August 2021 which are tracked by the Nature Index.

Hover over the donut graph to view the FC output for each subject. Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title.

Note: Articles may be assigned to more than one subject area.

Count Share
230 47.42

Outputs by subject (Share)

Subject Count Share
Physical Sciences 116 13.04
Life Sciences 63 13.38
Chemistry 64 20.07
Earth & Environmental Sciences 8 3.86

Highlight of the month

How neurons control sleep-associated muscle paralysis

© Roman Krykh/EyeEm/Getty Images

© Roman Krykh/EyeEm/Getty Images

A population of neurons in the brainstem that play a critical role in promoting temporary muscle paralysis during rapid eye movement (REM) sleep has been identified.

REM sleep is the stage of slumber typically associated with dreaming and consolidation of memories, but some people suffer from REM behaviour disorder (RBD), a condition marked by action-filled dreams that disturb sleep patterns and often cause physical injury.

By tracing neural circuits in slumbering mice, a team led by University of Tsukuba researchers has shown that a subset of neurons in the ventromedial medulla of the brainstem release the inhibitory neurotransmitter glycine and interact with other neurons in the surrounding brain and spinal-cord tissues to control muscle activity.

Genetic silencing of these glycine-producing neurons caused the mice to enter REM sleep without muscle paralysis. Therapies that activate this neural circuitry might therefore help quash muscle movement in RBD sufferers.

Supported content

  1. Journal of Neuroscience 41, 1582–1596 (2021). doi: 10.1523/JNEUROSCI.0688-20.2020

View the article on the Nature Index

See more research highlights from University of Tsukuba

More research highlights from University of Tsukuba

1 September 2020 - 31 August 2021

International vs. domestic collaboration by Share

  • 43.79% Domestic
  • 56.21% International

Note: Hover over the graph to view the percentage of collaboration.

Top 10 domestic collaborators by Share (223 total)

  • University of Tsukuba, Japan
  • Domestic institution
  1. The University of Tokyo (UTokyo), Japan (16.79)
    5.63
    11.16
  2. National Institute for Materials Science (NIMS), Japan (12.41)
    3.15
    9.26
  3. Kyoto University, Japan (10.05)
    4.25
    5.80
  4. RIKEN, Japan (9.90)
    5.86
    4.04
  5. National Institute of Advanced Industrial Science and Technology (AIST), Japan (9.88)
    3.75
    6.12
  6. Tohoku University, Japan (5.76)
    2.89
    2.87
  7. Osaka University, Japan (5.60)
    2.19
    3.41
  8. Kyushu University, Japan (3.74)
    2.16
    1.58
  9. Kanazawa University (KU), Japan (3.74)
    2.57
    1.16
  10. Hokkaido University, Japan (3.30)
    1.17
    2.13

Note: Collaboration is determined by the fractional count (Share), which is listed in parentheses.

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