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36 results on '"Marin, Zach"'

1. MINFLUX -- molecular resolution with minimal photons

Author

Scheiderer, Lukas, Marin, Zach, and Ries, Jonas

Subjects
Physics - Optics, Physics - Biological Physics
Abstract

Optical super-resolution microscopy is a key technology for structural biology that optimally complements electron microscopy because of its high contrast and live-cell compatibility. MINFLUX is an emerging super-resolution technique that measures the precise position of single fluorophores by targeted scanning of a patterned excitation beam featuring a minimum. It achieves unprecedented localization precision for a given number of detected photons. In combination with switchable fluorophores, it can be used for super-resolution imaging with nanometer resolution. For tracking of single fluorophores, it greatly outperforms camera-based techniques and achieves nanometer spatial and sub-millisecond temporal resolution over long tracks. Here, we introduce the basic principle of MINFLUX and explain how it can reach such high photon efficiencies. We then discuss the potential and limitations of MINFLUX for super-resolution imaging and single-fluorophore tracking, describe recent extensions and variations of MINFLUX and give an outlook to future developments.

Published
2024

2. Approximations of MINFLUX Localization Precision with Background

Author

Marin, Zach and Ries, Jonas

Subjects
Physics - Optics, Physics - Biological Physics
Abstract

MINFLUX is an emerging super-resolution technology that measures the position of single fluorophores with nanometer precision using fewer photons than any other fluorescence imaging or tracking technique. Here, we derive simple and instructive analytical equations for MINFLUX localization precision with a special focus on background photons. A fluorescence background, either arising from an imperfect zero of the MINFLUX excitation point spread function (PSF) or from auto- or out-of-focus fluorescence, ultimately limits the resolution achievable with MINFLUX. Building on previous work, we try to improve our understanding of the influence of background, especially when it is unknown, through a new set of expressions for the localization precision, based on an explicit background term instead of signal-to-background ratio. We use these equations to generate an intuitive understanding of how fluorescence background affects MINFLUX measurements and illustrate that: - The precision of an emitter position estimate depends on the gradient of its excitation profile. - Knowledge of the fluorescence background, obtained during post-processing of MINFLUX traces or through separate measurements, provides a better localization precision than in the case of unknown background. - In diffraction-limited systems, localization with a PSF that features a near-zero minimum outperforms localization with a maximum. We also present an analytical expression for the localization precision in orbital tracking, which we use for comparison to MINFLUX.

Published
2024

3. An integrated platform for high-throughput nanoscopy

Author

Barentine, Andrew E. S., Lin, Yu, Courvan, Edward M., Kidd, Phylicia, Liu, Miao, Balduf, Leonhard, Phan, Timy, Rivera-Molina, Felix, Grace, Michael R., Marin, Zach, Lessard, Mark, Rios Chen, Juliana, Wang, Siyuan, Neugebauer, Karla M., Bewersdorf, Joerg, and Baddeley, David

Published
2023
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5. A general algorithm for consensus 3D cell segmentation from 2D segmented stacks

Author

Zhou, Felix Yuran, primary, Yapp, Clarence, additional, Shang, Zhiguo, additional, Daetwyler, Stephan, additional, Marin, Zach, additional, Islam, Md Torikul, additional, Nanes, Benjamin A, additional, Jenkins, Edward, additional, Gihana, Gabriel M, additional, Chang, Bo-Jui, additional, Weems, Andrew, additional, Dustin, Michael, additional, Morrison, Sean J, additional, Fiolka, Reto Paul, additional, Dean, Kevin M., additional, Jamieson, Andrew, additional, Sorger, Peter Karl, additional, and Danuser, Gaudenz Karl, additional

Published
2024
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8. Navigate: an open-source platform for smart light-sheet microscopy

Author

Marin, Zach, Wang, Xiaoding, Collison, Dax W., McFadden, Conor, Lin, Jinlong, Borges, Hazel M., Chen, Bingying, Mehra, Dushyant, Shen, Qionghua, Gałecki, Seweryn, Daetwyler, Stephan, Sheppard, Steven J., Thien, Phu, Porter, Baylee A., Conzen, Suzanne D., Shepherd, Douglas P., Fiolka, Reto, and Dean, Kevin M.

Published
2024
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15. The nanoscale organization of reticulon 4 shapes local endoplasmic reticulum structure in situ

Author

Fuentes, Lukas A., Marin, Zach, Tyson, Jonathan, Baddeley, David, and Bewersdorf, Joerg

Subjects
endoplasmic reticulum, reticulon 4, Rtn4, super-resolution, Article
Abstract

The endoplasmic reticulum’s (ER) structure is directly linked to the many functions of the ER but its formation is not fully understood. We investigate how the ER-membrane curving protein reticulon 4 (Rtn4) localizes to and organizes in the membrane and how that affects local ER structure. We show a strong correlation between the local Rtn4 density and the local ER membrane curvature. Our data further reveal that the typical ER tubule possesses an elliptical cross-section with Rtn4 enriched at either end of the major axis. Rtn4 oligomers are linear-shaped, contain about five copies of the protein, and preferentially orient parallel to the tubule axis. Our observations support a mechanism in which oligomerization leads to an increase of the local Rtn4 concentration with each molecule increasing membrane curvature through a hairpin wedging mechanism. This quantitative analysis of Rtn4 and its effects on the ER membrane result in a new model of tubule shape as it relates to Rtn4.SummaryRtn4 forms linear-shaped oligomers that contain an average of five Rtn4 proteins, localize to the sides of elliptical tubules, prefer orientations near parallel to the tubule axis, and increase local curvature of the ER membrane by increasing local Rtn4 density.

Published
2023

17. PYME: an integrated platform for high-throughput nanoscopy

Author

Barentine, Andrew E.S., primary, Lin, Yu, additional, Courvan, Edward M., additional, Kidd, Phylicia, additional, Liu, Miao, additional, Balduf, Leonhard, additional, Phan, Timy, additional, Rivera-Molina, Felix, additional, Grace, Michael R., additional, Marin, Zach, additional, Rios Chen, Juliana, additional, Wang, Siyuan, additional, Neugebauer, Karla M., additional, Baddeley, David, additional, and Bewersdorf, Joerg, additional

Published
2022
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18. PYME: An Integrated Platform for High-Throughput Smart Nanoscopy

Author

Barentine, Andrew E.S., primary, Lin, Yu, additional, Kidd, Phylicia, additional, Liu, Miao, additional, Balduf, Leonhard, additional, Grace, Michael R., additional, Courchaine, Edward, additional, Marin, Zach, additional, Rios Chen, Juliana, additional, Wang, Siyuan, additional, Bewersdorf, Joerg, additional, and Baddeley, David, additional

Published
2021
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21. An Integrated Platform for High-Throughput Nanoscopy

Author

Barentine, Andrew E S, primary, Lin, Yu, additional, Courvan, Edward M, additional, Kidd, Phylicia, additional, Liu, Miao, additional, Balduf, Leonhard, additional, Phan, Timy, additional, Rivera-Molina, Felix, additional, Grace, Michael R, additional, Marin, Zach, additional, Lessard, Mark, additional, Chen, Juliana Rios, additional, Wang, Siyuan, additional, Neugebauer, Karla M, additional, Bewersdorf, Joerg, additional, and Baddeley, David, additional

Published
2019
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26. Poetic programming

Author

Connerty-Marin, Zach

Subjects
Natural language processing, News, opinion and commentary, Sports and fitness
Abstract

Byline: Zach Connerty-Marin What if you could talk to your computer and it actually did what you asked it to do? McGill's Michael Wagner and Harvard's Katherine McCurdy hope that [...]

Published
2010

27. McGill's admin not the only one under fire

Author

Connerty-Marin, Zach

Subjects
PepsiCo Inc., Bottled drinking water, Bottled water industry -- International economic relations, Soft drink industry -- International economic relations, News, opinion and commentary, Sports and fitness, Concordia University
Abstract

Byline: Zach Connerty-Marin At Norman Bethune Square on October 27, the Concordia Student Union, Überculture, Free Education Montreal, Sustainable Concordia, and Tap Drinkers Against Privatization (TAPThirst) gathered to protest the [...]

Published
2010

28. Engineers ban QPIRG from booking tables for one year

Author

Connerty-Marin, Zach

Subjects
Engineers, News, opinion and commentary, Sports and fitness
Abstract

Byline: Zach Connerty-Marin The Engineering Undergraduate Society Council banned the Quebec Public Interest Research Group from using its resources for up to one year at their meeting last Tuesday. The [...]

Published
2010

29. Dawson shooting game taken off-line by creator

Author

Connerty-Marin, Zach

Subjects
News, opinion and commentary, Sports and fitness
Abstract

Byline: Zach Connerty-Marin 'Dawson College Massacre,' a controversial videogame based on the 2006 shootings at Dawson College that killed one and wounded 19, was removed from the Internet on September [...]

Published
2010

30. Speaker Addresses Limited Resources

Author

Connerty-Marin, Zach

Subjects
Global economy, News, opinion and commentary, Sports and fitness, Concordia University
Abstract

Byline: Zach Connerty-Marin Holly Stewart When settlers arrived on Easter Island in the 14th century, statues were all that remained of a once advanced civilization. The former society had used [...]

Published
2010

31. Mechanically sheared axially swept light-sheet microscopy.

Author

Lin J, Mehra D, Marin Z, Wang X, Borges HM, Shen Q, Gałecki S, Haug J, Abbott DH, and Dean KM

Abstract

We present a mechanically sheared image acquisition format for upright and open-top light-sheet microscopes that automatically places data in its proper spatial context. This approach, which reduces computational post-processing and eliminates unnecessary interpolation or duplication of the data, is demonstrated on an upright variant of axially swept light-sheet microscopy (ASLM) that achieves a field of view, measuring 774 × 435 microns, that is 3.2-fold larger than previous models and a raw and isotropic resolution of ∼460 nm. Combined, we demonstrate the power of this approach by imaging sub-diffraction beads, cleared biological tissues, and expanded specimens., Competing Interests: K.M.D. declares that he holds a patent for ASLM that is currently licensed by Intelligent Imaging Innovations, Inc. and subsequently sub-licensed by Life Canvas Technologies. However, all authors affirm that they do not have any investment interests or financial stakes in either of these companies. K.M.D. has an investment interest in Discovery Imaging Systems, LLC., (© 2024 Optica Publishing Group.)

Published
2024
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32. Adaptive optics in an oblique plane microscope.

Author

Mcfadden C, Marin Z, Chen B, Daetwyler S, Wang X, Rajendran D, Dean KM, and Fiolka R

Abstract

Adaptive optics (AO) can restore diffraction-limited performance when imaging beyond superficial cell layers in vivo and in vitro , and as such, is of interest for advanced 3D microscopy methods such as light-sheet fluorescence microscopy (LSFM). In a typical LSFM system, the illumination and detection paths are separate and subject to different optical aberrations. To achieve optimal microscope performance, it is necessary to sense and correct these aberrations in both light paths, resulting in a complex microscope system. Here, we show that in an oblique plane microscope (OPM), a type of LSFM with a single primary objective lens, the same deformable mirror can correct both illumination and fluorescence detection. Besides reducing the complexity, we show that AO in OPM also restores the relative alignment of the light-sheet and focal plane, and that a projection imaging mode can stabilize and improve the wavefront correction in a sensorless AO format. We demonstrate OPM with AO on fluorescent nanospheres and by imaging the vasculature and cancer cells in zebrafish embryos embedded in a glass capillary, restoring diffraction limited resolution and improving the signal strength twofold., Competing Interests: The authors declare no conflict of interest., (© 2024 Optica Publishing Group.)

Published
2024
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33. A general algorithm for consensus 3D cell segmentation from 2D segmented stacks.

Author

Zhou FY, Yapp C, Shang Z, Daetwyler S, Marin Z, Islam MT, Nanes B, Jenkins E, Gihana GM, Chang BJ, Weems A, Dustin M, Morrison S, Fiolka R, Dean K, Jamieson A, Sorger PK, and Danuser G

Abstract

Cell segmentation is the fundamental task. Only by segmenting, can we define the quantitative spatial unit for collecting measurements to draw biological conclusions. Deep learning has revolutionized 2D cell segmentation, enabling generalized solutions across cell types and imaging modalities. This has been driven by the ease of scaling up image acquisition, annotation and computation. However 3D cell segmentation, which requires dense annotation of 2D slices still poses significant challenges. Labelling every cell in every 2D slice is prohibitive. Moreover it is ambiguous, necessitating cross-referencing with other orthoviews. Lastly, there is limited ability to unambiguously record and visualize 1000's of annotated cells. Here we develop a theory and toolbox, u-Segment3D for 2D-to-3D segmentation, compatible with any 2D segmentation method. Given optimal 2D segmentations, u-Segment3D generates the optimal 3D segmentation without data training, as demonstrated on 11 real life datasets, >70,000 cells, spanning single cells, cell aggregates and tissue.

Published
2024
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34. navigate: an open-source platform for smart light-sheet microscopy.

Author

Marin Z, Wang X, Collison DW, McFadden C, Lin J, Borges H, Chen B, Mehra D, Shen Q, Galecki S, Daetwyler S, Fiolka R, and Dean KM

Abstract

navigate is a turnkey, open-source software solution designed to enhance light-sheet fluorescence microscopy (LSFM) by integrating smart microscopy techniques into a user-friendly framework. It enables automated, intelligent imaging with a Python-based control system that supports GUI-reconfigurable acquisition routines and the integration of diverse hardware sets. As a comprehensive package, navigate democratizes access to advanced LSFM capabilities, facilitating the development and implementation of smart microscopy workflows without requiring deep programming knowledge or specialized expertise in light-sheet microscopy.

Published
2024
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35. Extracting nanoscale membrane morphology from single-molecule localizations.

Author

Marin Z, Fuentes LA, Bewersdorf J, and Baddeley D

Abstract

Membrane surface reconstruction at the nanometer scale is required for understanding mechanisms of subcellular shape change. This historically has been the domain of electron microscopy, but extraction of surfaces from specific labels is a difficult task in this imaging modality. Existing methods for extracting surfaces from fluorescence microscopy have poor resolution or require high-quality super-resolution data that is manually cleaned and curated. Here we present NanoWrap, a new method for extracting surfaces from generalized single-molecule localization microscopy (SMLM) data. This makes it possible to study the shape of specifically-labelled membraneous structures inside of cells. We validate NanoWrap using simulations and demonstrate its reconstruction capabilities on SMLM data of the endoplasmic reticulum and mitochondria. NanoWrap is implemented in the open-source Python Microscopy Environment.

Published
2023
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36. The nanoscale organization of reticulon 4 shapes local endoplasmic reticulum structure in situ .

Author

Fuentes LA, Marin Z, Tyson J, Baddeley D, and Bewersdorf J

Abstract

The endoplasmic reticulum’s (ER) structure is directly linked to the many functions of the ER but its formation is not fully understood. We investigate how the ER-membrane curving protein reticulon 4 (Rtn4) localizes to and organizes in the membrane and how that affects local ER structure. We show a strong correlation between the local Rtn4 density and the local ER membrane curvature. Our data further reveal that the typical ER tubule possesses an elliptical cross-section with Rtn4 enriched at either end of the major axis. Rtn4 oligomers are linear-shaped, contain about five copies of the protein, and preferentially orient parallel to the tubule axis. Our observations support a mechanism in which oligomerization leads to an increase of the local Rtn4 concentration with each molecule increasing membrane curvature through a hairpin wedging mechanism. This quantitative analysis of Rtn4 and its effects on the ER membrane result in a new model of tubule shape as it relates to Rtn4., Summary: Rtn4 forms linear-shaped oligomers that contain an average of five Rtn4 proteins, localize to the sides of elliptical tubules, prefer orientations near parallel to the tubule axis, and increase local curvature of the ER membrane by increasing local Rtn4 density.

Published
2023
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