F
Frank Jülicher
Researcher at Max Planck Society
Publications - 405
Citations - 34181
Frank Jülicher is an academic researcher from Max Planck Society. The author has contributed to research in topics: Molecular motor & Entropy production. The author has an hindex of 90, co-authored 384 publications receiving 28421 citations. Previous affiliations of Frank Jülicher include Simon Fraser University & Dresden University of Technology.
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Journal ArticleDOI
Autonomous Chemical Oscillator Circuit Based on Bidirectional Chemical-Microfluidic Coupling
Georgi Paschew,Jörg Schreiter,Andreas Voigt,Cesare Pini,Joseph Páez Chávez,Joseph Páez Chávez,Merle Allerdißen,Uwe Marschner,Stefan Siegmund,Rene Schuffny,Frank Jülicher,Frank Jülicher,Andreas Richter +12 more
TL;DR: In this paper, the authors proposed a relaxation oscillator based on two fi eld-effect-type valves and two membranes acting as compliances, which can be used to transport reagents, but they are not themselves responsive to chemical concentrations.
Posted ContentDOI
Transcription organizes euchromatin similar to an active microemulsion
Lennart Hilbert,Yuko Sato,Hiroshi Kimura,Frank Jülicher,Frank Jülicher,Alf Honigmann,Zaburdaev,Nadine L. Vastenhouw +7 more
TL;DR: The tethering of transcripts to chromatin via RNA polymerase II forms effective amphiphiles that intersperse the two segregated phases, suggesting that chromatin is organized in the following way: heterochromatin segregates from euchromatin by phase separation, while transcription organizes euchromaatin similar to an active microemulsion.
Journal ArticleDOI
Continuum theory of gene expression waves during vertebrate segmentation
TL;DR: It is shown that the minimal continuum theory of vertebrate segmentation can quantitatively account for the key features of segmentation observed in zebrafish, in particular the shape of the wave patterns, the period of segmentsation and the segment length as a function of time.
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Motor Regulation Results in Distal Forces that Bend Partially Disintegrated Chlamydomonas Axonemes into Circular Arcs
Vikram Mukundan,Pablo Sartori,Veikko F. Geyer,Veikko F. Geyer,Frank Jülicher,Jonathon Howard,Jonathon Howard +6 more
TL;DR: Evidence is provided that dynein activity can be regulated by curvature or normal forces, which may, therefore, play a role in coordinating the beating of cilia and flagella.
Journal ArticleDOI
Curvature regulation of the ciliary beat through axonemal twist
TL;DR: It is shown that regulation of the motors by radial and transverse stresses can lead to a coordinated flagellar motion only in the presence of twist, which could arise from torque produced by the dyneins and calculate emergent beating patterns in twisted axonemes resulting from regulation bytransverse stresses.