Results 331 to 340 of about 14,856,340 (397)
Some of the next articles are maybe not open access.
Super-Resolution Microscopy for Structural Cell Biology.
Annual Review of Biophysics, 2022Super-resolution microscopy techniques, and specifically single-molecule localization microscopy (SMLM), are approaching nanometer resolution inside cells and thus have great potential to complement structural biology techniques such as electron ...
Sheng Liu, P. Hoess, J. Ries
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Cell Biology of Canonical Wnt Signaling.
Annual Review of Cell and Developmental Biology, 2021Wnt signaling has multiple functions beyond the transcriptional effects of β-catenin stabilization. We review recent investigations that uncover new cell physiological effects through the regulation of Wnt receptor endocytosis, Wnt-induced stabilization ...
L. Albrecht +2 more
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American Journal of Respiratory and Critical Care Medicine, 1998
The purpose of this review is to relate developments in lung cell biology to our understanding and treatment of pulmonary diseases. The authors’ careers in pulmonary biology began when we came to the Heart Institute of the National Institutes of Health in 1968 (R.J.M.) and 1970 (R.G.C.).
R J, Mason, R G, Crystal
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The purpose of this review is to relate developments in lung cell biology to our understanding and treatment of pulmonary diseases. The authors’ careers in pulmonary biology began when we came to the Heart Institute of the National Institutes of Health in 1968 (R.J.M.) and 1970 (R.G.C.).
R J, Mason, R G, Crystal
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Seminars in Cell & Developmental Biology, 2011
Eukaryotic systems self-organise by using molecular railways to shuttle specific sets of molecular components to specific locations. In this way, cells are enabled to become larger, more complex and more varied, subtle and effective in their activities. Because of the fundamental importance of molecular railways in eukaryotic systems, understanding how
R A, Cross, A D, McAinsh, A, Straube
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Eukaryotic systems self-organise by using molecular railways to shuttle specific sets of molecular components to specific locations. In this way, cells are enabled to become larger, more complex and more varied, subtle and effective in their activities. Because of the fundamental importance of molecular railways in eukaryotic systems, understanding how
R A, Cross, A D, McAinsh, A, Straube
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Nature Biotechnology, 2007
Computational modeling of biological systems is becoming increasingly important in efforts to better understand complex biological behaviors. In this review, we distinguish between two types of biological models--mathematical and computational--which differ in their representations of biological phenomena.
Jasmin, Fisher, Thomas A, Henzinger
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Computational modeling of biological systems is becoming increasingly important in efforts to better understand complex biological behaviors. In this review, we distinguish between two types of biological models--mathematical and computational--which differ in their representations of biological phenomena.
Jasmin, Fisher, Thomas A, Henzinger
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2005
Dendritic cells (DCs) are a special type of leukocytes able to alert the immune system to the presence of infections. They play a central role in the initiation of both innate and adaptive immune responses. This particular DC feature is regulated by the activation of specific receptors at the cell surface called Toll-like receptors (TLRs) that bind a ...
GRANUCCI, FRANCESCA +2 more
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Dendritic cells (DCs) are a special type of leukocytes able to alert the immune system to the presence of infections. They play a central role in the initiation of both innate and adaptive immune responses. This particular DC feature is regulated by the activation of specific receptors at the cell surface called Toll-like receptors (TLRs) that bind a ...
GRANUCCI, FRANCESCA +2 more
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Trends in Cell Biology, 2012
‘Verum esse ipsum factum’, the true is in the made – Giambattista VicoSynthetic Cell Biology sounds intriguing, but the name begs the question – why should we try to rebuild or reprogram the cell, especially when we barely understand how cells work?
Wendell A, Lim +2 more
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‘Verum esse ipsum factum’, the true is in the made – Giambattista VicoSynthetic Cell Biology sounds intriguing, but the name begs the question – why should we try to rebuild or reprogram the cell, especially when we barely understand how cells work?
Wendell A, Lim +2 more
openaire +2 more sources
Rheumatic Disease Clinics of North America, 2004
In recent years, our understanding of B-cell biology and the roles of B cells in normal immune responses and autoimmunity has increased dramatically. We no longer think of B cells simply as antibody factories. It is clear that these diverse and exquisitely regulated cells may contribute in a multitude of ways to immune responses.
Elena, Weinstein +3 more
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In recent years, our understanding of B-cell biology and the roles of B cells in normal immune responses and autoimmunity has increased dramatically. We no longer think of B cells simply as antibody factories. It is clear that these diverse and exquisitely regulated cells may contribute in a multitude of ways to immune responses.
Elena, Weinstein +3 more
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Hematology/Oncology Clinics of North America, 1994
Erythropoietin (EPO) mediates its biologic actions in responsive cells through the 78 kDa cell surface form of the EPO receptor. The biosynthesis, activations, and destruction of EPO receptors are described. The binding of EPO to its receptor leads to the activation of a tyrosine protein kinase(s) that results in the phosphorylation of the receptor and
S T, Sawyer, K, Penta
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Erythropoietin (EPO) mediates its biologic actions in responsive cells through the 78 kDa cell surface form of the EPO receptor. The biosynthesis, activations, and destruction of EPO receptors are described. The binding of EPO to its receptor leads to the activation of a tyrosine protein kinase(s) that results in the phosphorylation of the receptor and
S T, Sawyer, K, Penta
openaire +2 more sources