Search Results - "Belteton, Samuel A."

Reassessing the Roles of PIN Proteins and Anticlinal Microtubules during Pavement Cell Morphogenesis by Belteton, Samuel A., Sawchuk, Megan G., Donohoe, Bryon S., Scarpella, Enrico, Szymanski, Daniel B.

“…The leaf epidermis is a biomechanical shell that influences the size and shape of the organ. Its morphogenesis is a multiscale process in which nanometer-scale…”
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Protocol for mapping the variability in cell wall mechanical bending behavior in living leaf pavement cells by Li, Wenlong, Keynia, Sedighe, Belteton, Samuel A, Afshar-Hatam, Faezeh, Szymanski, Daniel B, Turner, Joseph A

“…Mechanical properties, size and geometry of cells, and internal turgor pressure greatly influence cell morphogenesis. Computational models of cell growth…”
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Segmentation, tracking, and sub-cellular feature extraction in 3D time-lapse images by Jiang, Jiaxiang, Khan, Amil, Shailja, S., Belteton, Samuel A., Goebel, Michael, Szymanski, Daniel B., Manjunath, B. S.

“…This paper presents a method for time-lapse 3D cell analysis. Specifically, we consider the problem of accurately localizing and quantitatively analyzing…”
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Basic Proline-Rich Protein-Mediated Microtubules Are Essential for Lobe Growth and Flattened Cell Geometry by Wong, Jeh Haur, Kato, Takehide, Belteton, Samuel A, Shimizu, Rie, Kinoshita, Nene, Higaki, Takumi, Sakumura, Yuichi, Szymanski, Daniel B, Hashimoto, Takashi

“…Complex cell shapes are generated first by breaking symmetry, and subsequent polar growth. Localized bending of anticlinal walls initiates lobe formation in…”
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LobeFinder: A Convex Hull-Based Method for Quantitative Boundary Analyses of Lobed Plant Cells by Wu, Tzu-Ching, Belteton, Samuel A., Pack, Jessica, Szymanski, Daniel B., Umulis, David M.

“…Dicot leaves are composed of a heterogeneous mosaic of jigsaw puzzle piece-shaped pavement cells that vary greatly in size and the complexity of their shape…”
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Real-time conversion of tissue-scale mechanical forces into an interdigitated growth pattern by Belteton, Samuel A., Li, Wenlong, Yanagisawa, Makoto, Hatam, Faezeh A., Quinn, Madeline I., Szymanski, Margaret K., Marley, Matthew W., Turner, Joseph A., Szymanski, Daniel B.

“…The leaf epidermis is a dynamic biomechanical shell that integrates growth across spatial scales to influence organ morphology. Pavement cells, the fundamental…”
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Patterning mechanisms of cytoskeletal and cell wall systems during leaf trichome morphogenesis by Yanagisawa, Makoto, Desyatova, Anastasia S., Belteton, Samuel A., Mallery, Eileen L., Turner, Joseph A., Szymanski, Daniel B.

“…The plant actin cytoskeleton is an unstable network of filaments that influences polarized growth through poorly understood mechanisms. Here, we used a…”
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CellECT: cell evolution capturing tool by Delibaltov, Diana L, Gaur, Utkarsh, Kim, Jennifer, Kourakis, Matthew, Newman-Smith, Erin, Smith, William, Belteton, Samuel A, Szymanski, Daniel B, Manjunath, B S

“…Robust methods for the segmentation and analysis of cells in 3D time sequences (3D+t) are critical for quantitative cell biology. While many automated methods…”
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Accurate 3D Cell Segmentation Using Deep Features and CRF Refinement by Jiang, Jiaxiang, Kao, Po-Yu, Belteton, Samuel A., Szymanski, Daniel B., Manjunath, B.S.

“…We consider the problem of accurately identifying cell boundaries and labeling individual cells in confocal microscopy images, specifically, 3D image stacks of…”
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Author Correction: Real-time conversion of tissue-scale mechanical forces into an interdigitated growth pattern by Belteton, Samuel A., Li, Wenlong, Yanagisawa, Makoto, Hatam, Faezeh A., Quinn, Madeline I., Szymanski, Margaret K., Marley, Matthew W., Turner, Joseph A., Szymanski, Daniel B.

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Reassessing the Roles of PIN Proteins and Anticlinal Microtubules during Pavement Cell Morphogenesis1[OPEN] by Belteton, Samuel A., Sawchuk, Megan G., Donohoe, Bryon S., Scarpella, Enrico, Szymanski, Daniel B.

“…Neither PINs nor stable anticlinal microtubules define the lobing patterns of pavement cells; broader analyses of microtubules and cell wall strain are needed…”
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Basic Proline-Rich Protein-Mediated Microtubules Are Essential for Lobe Growth and Flattened Cell Geometry1 by Wong, Jeh Haur, Kato, Takehide, Belteton, Samuel A., Shimizu, Rie, Kinoshita, Nene, Higaki, Takumi, Sakumura, Yuichi, Szymanski, Daniel B., Hashimoto, Takashi

“…In early lobe formation, basic proline-rich proteins associated with microtubules organize distinct microtubule arrays that are essential for lobe growth and a…”
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LobeFinder: A Convex Hull-Based Method for Quantitative Boundary Analyses of Lobed Plant Cells1[OPEN] by Wu, Tzu-Ching, Belteton, Samuel A., Pack, Jessica, Szymanski, Daniel B., Umulis, David M.

“…LobeFinder, a new convex hull-based cell phenotyping tool, creates a coordinate system for cell boundary changes and detects lobe positions in epidermal…”
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Multivariate Analysis of Leaf Tissue Morphogenesis by Belteton, Samuel A

“…Leaf size and shape are strongly influenced by the growth patterns of the epidermal tissue. Pavement cells are the prevalent cell type in the epidermis and…”
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Basic Proline-Rich Protein-Mediated Microtubules Are Essential for Lobe Growth and Flattened Cell Geometry1 by Wong, Jeh Haur, Kato, Takehide, Belteton, Samuel A, Shimizu, Rie, Kinoshita, Nene, Higaki, Takumi, Sakumura, Yuichi, Szymanski, Daniel B, Hashimoto, Takashi

“…Complex cell shapes are generated first by breaking symmetry, and subsequent polar growth. Localized bending of anticlinal walls initiates lobe formation in…”
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Deep Learning Enabled Time-Lapse 3D Cell Analysis by Jiang, Jiaxiang, Khan, Amil, Shailja, S, Belteton, Samuel A, Goebel, Michael, Szymanski, Daniel B, Manjunath, B. S

“…This paper presents a method for time-lapse 3D cell analysis. Specifically, we consider the problem of accurately localizing and quantitatively analyzing…”
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Accurate 3D Cell Segmentation using Deep Feature and CRF Refinement by Jiang, Jiaxiang, Kao, Po-Yu, Belteton, Samuel A, Szymanski, Daniel B, Manjunath, B. S

“…2019 IEEE International Conference on Image Processing (ICIP) We consider the problem of accurately identifying cell boundaries and labeling individual cells…”
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