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Mycoplasma mobile moves into overdrive: Twin motor modified from ATP synthase discovered

Mycoplasma mobile moves into overdrive: Twin motor modified from ATP synthase discovered
eurekalert.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from eurekalert.org Daily Mail and Mail on Sunday newspapers.

Keiichi Namba , Noriyuki Kodera , Makoto Miyata , Takuma Toyonaga , Osaka City University , Research Funds For Osaka City University , Japan Medical Research Organization , Japan Agency For Medical Research , Ministry Of Education , Nano Life Science Institute Of Kanazawa University , Scientific Research , Development Innovative Platform , Scientific Researchb Structure , Kanazawa University , Collaborative Research Institute , Development Medical Research , Scientific Research On Innovative Areas , Osaka University , Fugaku Fund For Biomedical Research Representative , Priority Research , Development Innovative Technology Platform , Nano Life Science Institute , Osaka City , Innovative Areas , Principal Investigator , Biomedical Research ,

A breath of fresh air for emphysema research

A breath of fresh air for emphysema research
eurekalert.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from eurekalert.org Daily Mail and Mail on Sunday newspapers.

Takashi Satoh , Challenging Exploratory Research , Takeda Science Foundation , Technology Agency , Scientific Research On Innovative Areas , Research Program On Hepatitis , Japan Agency For Medical Research , Otsuka Pharmaceutical Co Ltd , Visionary Research Fund , Takahiro Kawasaki , Japan Science , Specially Promoted Research , Young Scientists , Scientific Research , Innovative Areas , Research Program , Japan Agency , Medical Research , டாகேடா அறிவியல் அடித்தளம் , அறிவியல் ஆராய்ச்சி ஆன் புதுமையானது பகுதிகள் , ஓத்சுக் மருந்து இணை லிமிடெட் , ஜப்பான் அறிவியல் , சிறப்பாக ப்ரமோடெட் ஆராய்ச்சி , இளம் விஞ்ஞானிகள் , அறிவியல் ஆராய்ச்சி , புதுமையானது பகுதிகள் ,

The origin of reproductive organs

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IMAGE: Studying embryonic development in mice and monkeys, researchers led by Kotaro Sasaki of Penn Vet discovered that a layer of cells known as the posterior intermediate mesoderm (far left) gives.
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Credit: Courtesy of Kotaro Sasaki
Early in human development, during the first trimester of gestation, a fetus may have XX or XY chromosomes that indicate its sex. Yet at this stage a mass of cells known as the bipotential gonad that ultimately develops into either ovaries or testes has yet to commit to its final destiny.
While researchers had studied the steps that go into the later stages of this process, little has been known about the precursors of the bipotential gonad. In a new study published in ....

Kotaro Sasaki , Yasuhiro Murakawa , Mitinori Saitou , Hiroshi Ohta , Hideaki Tsuchiya , Penn Keren Cheng , Yasunari Seita , Yukihiro Yabuta , Takuya Yamamoto , Ikuhiro Okamoto , Pythias Fund , University Of Pennsylvania School Veterinary Medicine , Shiga University Of Medical Science Chizuru Iwatani , Kyoto University Akiko Oguchi , Philanthropy Fund , Upenn School Of Veterinary Medicine , Silicon Valley Community Foundation , Department Of Biomedical Sciences , Cell Reports , Veterinary Medicine , Biomedical Sciences , Pennsylvania School , Keren Cheng , Kyoto University , Akiko Oguchi , Shiga University ,

Researchers use Chemical Vapor Deposition to Create Self-Assembled Nanowires

Researchers use Chemical Vapor Deposition to Create Self-Assembled Nanowires
Researchers from Tokyo Metropolitan University have discovered a way to make self-assembled nanowires of transition metal chalcogenides
at scale using chemical vapor deposition.
By changing the substrate where the wires form, they can tune how these wires are arranged, from aligned configurations of atomically thin sheets to random networks of bundles. This paves the way to industrial deployment in next-gen industrial electronics, including energy harvesting, and transparent, efficient, even flexible devices.
Electronics is all about making things smaller. Smaller features on a chip, for example, means more computing power in the same amount of space and better efficiency, essential to feeding the increasingly heavy demands of a modern IT infrastructure powered by machine learning and artificial intelligence. And as devices get smaller, the same demands are made of the intricate wiring t ....

Nano Lett , Yasumitsu Miyata , Scientific Research On Innovative Areas , Scientific Research , Japan Society For The Promotion Of Science , Challenging Research Exploratory , Murata Science Foundation , Tokyo Metropolitan University , Japan Keirin Autorace Foundation , Hong En Lim , Associate Professor Yasumitsu Miyata , Scale Growth , One Dimensional Transition Metal Telluride , Japan Society , Young Scientists , Innovative Areas , Specially Promoted Research , Challenging Research , Processing Facility , Grant Number , நானோ லெட் , அறிவியல் ஆராய்ச்சி ஆன் புதுமையானது பகுதிகள் , அறிவியல் ஆராய்ச்சி , ஜப்பான் சமூகம் க்கு தி ப்ரமோஶந் ஆஃப் அறிவியல் , சவாலானது ஆராய்ச்சி ஆய்வு , முரட்டா அறிவியல் அடித்தளம் ,

Atomic-scale nanowires can now be produced at scale

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IMAGE: (a) Illustration of a TMC nanowire (b) Chemical vapor deposition. The ingredients are vaporized in a hydrogen/nitrogen atmosphere and allowed to deposit and self-assemble on a substrate. Reprinted with permission.
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Credit: Copyright 2020 American Chemical Society (ACS)
Tokyo, Japan - Researchers from Tokyo Metropolitan University have discovered a way to make self-assembled nanowires of transition metal chalcogenides
at scale using chemical vapor deposition. By changing the substrate where the wires form, they can tune how these wires are arranged, from aligned configurations of atomically thin sheets to random networks of bundles. This paves the way to industrial deployment in next-gen industrial electronics, including energy harvesting, and transparent, efficient, even flexible devices. ....

Nano Lett , Yasumitsu Miyata , Scientific Research On Innovative Areas , Scientific Research , Japan Society For The Promotion Of Science , Challenging Research Exploratory , Murata Science Foundation , Tokyo Metropolitan University , Japan Keirin Autorace Foundation , Hong En Lim , Associate Professor Yasumitsu Miyata , Scale Growth , One Dimensional Transition Metal Telluride , Japan Society , Young Scientists , Innovative Areas , Specially Promoted Research , Challenging Research , Processing Facility , Grant Number , Chemistry Physics Materials Sciences , Industrial Engineering Chemistry , Technology Engineering Computer Science , Electrical Engineering Electronics , Nanotechnology Micromachines , Atomic Physics ,