Olympus microscope discovers the spiral movement of sperm (no NBI used). Looks like Matrix. #olympus https://t.co/p1LG7NxUI8
RT @luizacaires3: O artigo foi publicado na revista Science Advances. Fio baseado em release da Universidade de Bristol e Universidade Autô…
RT @luizacaires3: O artigo foi publicado na revista Science Advances. Fio baseado em release da Universidade de Bristol e Universidade Autô…
RT @luizacaires3: O artigo foi publicado na revista Science Advances. Fio baseado em release da Universidade de Bristol e Universidade Autô…
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/xay77c0StW
O artigo foi publicado na revista Science Advances. Fio baseado em release da Universidade de Bristol e Universidade Autônoma do México. (+) https://t.co/s2As7LujAJ
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/uFfuN1LqqC sperm swim corckscrew like an otter, presumably catch rathere fewer fish
Research 👇 Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/QZXrAw44uY
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/ACxSG1mPhN
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering | Science Advances 精子 泳ぎ方 原著論文 https://t.co/7epjbyb7Ji
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/XOZ8rVrvKd
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/myVullvx4O
ヒトの精子は回転しながら進んでくらしい へぇ〜〜 https://t.co/EZtaetNmtc
鞭毛運動によるもので無いとかわりと衝撃なんだが https://t.co/LniKlY8RkJ
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/jiaU8MbOh7
Great new paper from @HermesGadelha in @ScienceAdvances looks at asymmetric and anisotropic flagellar controls for regulation of sperm swimming. @SoftLabBristol @BristolUniEng https://t.co/teFKL3zXLx
El famoso movimiento de los espermatozoides es una ilusión óptica, esto es lo que hacen en realidad https://t.co/MR25RdByH2 a través de @GizmodoES Para el artículo origen: https://t.co/w5rinUOGnw
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/VbiVf9Bshx
精 子 は ト ル ネ ー ド し て 動 く https://t.co/XA941ZxCNT
این مقاله دیروز ساینس میفرماید اسپرم انسان خلاف تصور قبلی که فکر میکردن دُمِش در یک صفحه دو بعدی حرکت میکنه ثابت کرده که حرکتش سه بعدیه و اینجوری میتونن از هم دیگه سبقت بگیرن در شنا کردن. https://t.co/GNcnhj6Zpk
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/4XtDhjqUBe
Congratulations to @HermesGadelha for his new paper in @ScienceAdvances on the swimming of human sperm! https://t.co/T8pQLTMy2x Amazing work showing new insights into how sperm swim and hinting at future soft robots! @BristolRobotLab, @BristolUni, @Bristol
study here: https://t.co/LrB8V2JUce
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/Ltg3CmQAs6
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
Flagellar perversion in human sperm
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
RT @dynamicsoar: ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
ニュース記事にもリンクあるが一応、論文は https://t.co/FkdGdpian8 アブストの > Symmetry is thus achieved through asymmetry がなかなか cool.
RT @AlainGoriely: A very cool study by @HermesGadelha's group on 3D sperm motion, including flagellar perversion (inversion of chirality).…
RT @AlainGoriely: A very cool study by @HermesGadelha's group on 3D sperm motion, including flagellar perversion (inversion of chirality).…
A very cool study by @HermesGadelha's group on 3D sperm motion, including flagellar perversion (inversion of chirality). https://t.co/pBVuABpsxc Original paper here. https://t.co/wWGbFXiG8V
Weird swimming pattern of human sperm revealed — They don't wiggle, they roll. Over 300-year-old notion that the human sperm swim like a snake towards eggs has been proved false. According to a new study, sperms roll around like an otter.: https://t.co/yS
How Human sperm fooled scientists for 350 years? find out how: https://t.co/qDrW47LJUt
ヒトの精子は非対称で異方性のべん毛制御を使用して遊泳対称性と細胞操縦を調節する https://t.co/XIydjN4XDL https://t.co/PhaILvR8ak #サイエンス誌
Original abstract: https://t.co/FPFSiX0nev
Human sperms don‘t swim like a fish but they are spinning like a corkscrew. #science #medicine #reproductivehealth #study #ScienceTwitter #sciencefact Source. https://t.co/vxlL5LryAi
الورقة العلمية بعنوان Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering وتحتوي على الكثير من التفاصيل التقنية، وهي متاحة للقراءة مجانًا: https://t.co/FVMv7CkXNs
Swimming vs spinning? "Creating symmetry out assymmetry" https://t.co/Ra7kJ52rql Paper: https://t.co/WacDTLnZDQ
RT @ibt_unam: El batido flagelar del espermatozoide humano es asimétrico cuando se observa en tres dimensiones, así lo demostraron Gabriel…
I just find it cool that these investigators completely revised the dogma of movement using flagellar symmetry that was established in the 17th century:https://t.co/YAOMtdqs4d
Interesantísimo El batido flagelar de los espermatozoides humanos es asimétrico cuando se analiza en tres dimensiones. "We used high-precision 3D video microscopy to resolve the rapid movement of the human flagellum in 3D" https://t.co/8KlgGVwOXK
RT @ibt_unam: El batido flagelar del espermatozoide humano es asimétrico cuando se observa en tres dimensiones, así lo demostraron Gabriel…
Get it straight: how the sperms keep their line-in-sight and thus make us happen. Complex mathematics and electron microscopy explain one of the initial events in human life. https://t.co/Ge874JC8j4 https://t.co/8ZaQs34071
Get it straight: how the sperms keep their line-in-sight and thus make us happen. Complex mathematics and electron microscopy explain one of the initial events in human life. https://t.co/8Rea9eUsFu https://t.co/xtCX6evgs5
RT @quantografo: Cómo nadan realmente los espermatozoides humanos: por primera vez, una nueva investigación desafía suposiciones centenaria…
RT @ibt_unam: El batido flagelar del espermatozoide humano es asimétrico cuando se observa en tres dimensiones, así lo demostraron Gabriel…
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/Nq8eaItfLh
RT @ibt_unam: El batido flagelar del espermatozoide humano es asimétrico cuando se observa en tres dimensiones, así lo demostraron Gabriel…
@TheUSASenpai ..If only there were some way to dig deeper for more information & references... *Sigh* 🙄 https://t.co/lSo6O9LrWW & https://t.co/0lG58Vv29H I'm not saying trust them or *any* 1 source implicitly. Just, don't pull out the torch
El batido flagelar del espermatozoide humano es asimétrico cuando se observa en tres dimensiones, así lo demostraron Gabriel Corkidi y Alberto Darszon del #IBt en colaboración con @BristolUni. https://t.co/rgmNp6N0TL https://t.co/lhpcCwz3OB https://t.co
顕微鏡でトップビューから精子を見ると蛇みたいな泳ぎ方に見えるけどそれは錯覚で、55000fpsのカメラと高速動作するピエゾ駆動ステージを持つ三次元顕微鏡で精子は複雑な螺旋的運動で泳いでることを発見したらしい。Science advances誌 https://t.co/YMEQuMe4RU
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/UE8olgA9Nn
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering https://t.co/ZdL2oDWymM
Cómo nadan realmente los espermatozoides humanos: por primera vez, una nueva investigación desafía suposiciones centenarias, en 3-D. 🤔 https://t.co/trfGMefi0S https://t.co/4coElCYvv9
Human sperm uses asymmetric and anisotropic flagellar controls to regulate swimming symmetry and cell steering | Science Advances https://t.co/SinjEpkXS6