Your search keyword '"Ramos-Pezzotti M"' showing total 2 results

1. A random-sampling approach to track cell divisions in time-lapse fluorescence microscopy.

Author

Amarteifio, Saoirse, Fallesen, Todd, Pruessner, Gunnar, and Sena, Giovanni

Subjects

FLUORESCENCE microscopy, TRACKING algorithms, CELL imaging, ARABIDOPSIS thaliana, CYTOLOGY, OBJECT tracking (Computer vision), DEVELOPMENTAL biology

Abstract

Background: Particle-tracking in 3D is an indispensable computational tool to extract critical information on dynamical processes from raw time-lapse imaging. This is particularly true with in vivo time-lapse fluorescence imaging in cell and developmental biology, where complex dynamics are observed at high temporal resolution. Common tracking algorithms used with time-lapse data in fluorescence microscopy typically assume a continuous signal where background, recognisable keypoints and independently moving objects of interest are permanently visible. Under these conditions, simple registration and identity management algorithms can track the objects of interest over time. In contrast, here we consider the case of transient signals and objects whose movements are constrained within a tissue, where standard algorithms fail to provide robust tracking. Results: To optimize 3D tracking in these conditions, we propose the merging of registration and tracking tasks into a registration algorithm that uses random sampling to solve the identity management problem. We describe the design and application of such an algorithm, illustrated in the domain of plant biology, and make it available as an open-source software implementation. The algorithm is tested on mitotic events in 4D data-sets obtained with light-sheet fluorescence microscopy on growing Arabidopsis thaliana roots expressing CYCB::GFP. We validate the method by comparing the algorithm performance against both surrogate data and manual tracking. Conclusion: This method fills a gap in existing tracking techniques, following mitotic events in challenging data-sets using transient fluorescent markers in unregistered images. [ABSTRACT FROM AUTHOR]

Published

2021

2. Week-long imaging of cell divisions in the Arabidopsis root meristem.

Author

Rahni, Ramin and Birnbaum, Kenneth D.

Subjects

CELL division, ARABIDOPSIS thaliana, ROOT apical meristems, ROOT development, PLANT growth, PLANTS

Abstract

Background: Characterizing the behaviors of dynamic systems requires capturing them with high temporal and spatial resolution. Owing to its transparency and genetic tractability, the Arabidopsis thaliana root lends itself well to live imaging when combined with cell and tissue-specific fluorescent reporters. We developed a novel 4D imaging method that utilizes simple confocal microscopy and readily available components to track cell divisions in the root stem cell niche and surrounding region for up to 1 week. Results: Using this method, we performed a direct measurement of cell division intervals within and around the root stem cell niche. The results reveal a short, steep gradient of cell division rates in proximal stem cells, with progressively more rapid cell division rates from quiescent center (QC), to cells in direct contact with the QC (initials), to their immediate daughters, after which division rates appear to become more homogeneous. Conclusions: These results provide a baseline to study how perturbations in signaling could affect cell division patterns in the root meristem. This new setup further allows us to finely analyze meristematic cell division rates that lead to patterning. [ABSTRACT FROM AUTHOR]

Published

2019