iris van herpen 2025 ~ sympoiesis
seen from France

seen from Singapore

seen from Malaysia
seen from United States
seen from China
seen from Malaysia
seen from China
seen from United States

seen from Russia
seen from Germany

seen from United States

seen from Canada
seen from China

seen from Netherlands
seen from Iraq

seen from United States
seen from China

seen from United Kingdom
seen from Russia

seen from Italy
iris van herpen 2025 ~ sympoiesis
Will Barras
Untitled
Three characters that all consistently invoke gender envy in me that are otherwise entirely unrelated past the ability to Mess You Up:
The Xenomorph from alien isolation
Hua cheng from HOB
Lord shen from kung-fu panda 2
Like???? Pretty boy ghost King I get, but an evil animated peacock and a murderous lizard monkey thing with eel jaws?? Hello???
Shutter Speed - Fluid Movement.
Photo: Xenia Palley by Robert Doisneau, 1950.
How whip-like cell appendages promote bodily fluid flow
Some cells in the body contain long thin structures called cilia on their surface, which exhibit a whip-like motion that promotes the flow of fluid past the cell. Although these cilia are known to play vital roles in the body, much remains to be understood about their molecular components and the mechanisms by which they work. This is especially true for the cilia on cells that line the ventricles of the brain, which contain cerebrospinal fluid (CSF) that has various functions including cushioning the brain against potentially damaging impacts.
A team at Nagoya University has shed light on this issue by revealing that a molecule called Daple is essential for cilia to adopt an arrangement by which they can beat in one direction at the same time, thereby creating a flow of fluid past the cell exterior. This arrangement on cell surfaces all along the lining of ventricles in the brain ensures the correct flow of CSF, which in turn prevents its accumulation associated with brain swelling known as hydrocephalus.
Maki Takagishi, Masato Sawada, Shinya Ohata, Naoya Asai, Atsushi Enomoto, Kunihiko Takahashi, Liang Weng, Kaori Ushida, Hosne Ara, Shigeyuki Matsui, Kozo Kaibuchi, Kazunobu Sawamoto, Masahide Takahashi. Daple Coordinates Planar Polarized Microtubule Dynamics in Ependymal Cells and Contributes to Hydrocephalus. Cell Reports, 2017; 20 (4): 960 DOI: 10.1016/j.celrep.2017.06.089
On the lateral ventricular wall, well-oriented cilia exhibit a coordinated beating motion that drives directional CSF flow. Daple mutant mice lose the orientation of ciliary bases, leading to stagnant CSF flow and hydrocephalus.Credit: Maki Takagishi
iris van herpen 2025 ~ sympoiesis
iris van herpen 2025 ~ sympoiesis
iris van herpen 2025 ~ sympoiesis