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- Volume 21, 2005
Annual Review of Cell and Developmental Biology - Volume 21, 2005
Volume 21, 2005
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REGULATION OF ROOT APICAL MERISTEM DEVELOPMENT
Vol. 21 (2005), pp. 485–509More LessAbstractThe establishment of the Angiosperm root apical meristem is dependent on the specification of a stem cell niche and the subsequent development of the quiescent center at the presumptive root pole. Distribution of auxin and the establishment of auxin maxima are early formative steps in niche specification that depend on the expression and distribution of auxin carriers. Auxin specifies stem cell niche formation by directly and indirectly affecting gene activities. Part of the indirect regulation by auxin may involve changes in redox, favoring local, oxidized microenvironments. Formation of a QC is required for root meristem development and elaboration. Many signals likely pass between the QC and the adjacent root meristem tissues. Disappearance of the QC is associated with roots becoming determinate. Given the many auxin feedback loops, we hypothesize that roots evolved as part of an auxin homeostasis mechanism.
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PHAGOCYTOSIS: At the Crossroads of Innate and Adaptive Immunity
Vol. 21 (2005), pp. 511–527More LessAbstractPhagocytosis, the process by which cells engulf large particles, requires a substantial contribution of membranes. Recent studies have revealed that intracellular compartments, including endocytic organelles and the endoplasmic reticulum (ER), can engage in fusion events with the plasma membrane at the sites of nascent phagosomes. The finding that ER proteins are delivered to phagosomes, where degraded peptides are loaded onto major histocompatibility complex (MHC) class II molecules, has significantly enhanced our understanding of the immune functions associated with these organelles. Although it is well known that pathogens are killed in phagosomes, the contribution of ER proteins to phagosomes has provided a novel pathway for the loading of exogenous peptides onto MHC class I molecules, a process known as cross-presentation. Thus, phagocytosis has evolved from a nutritional function in unicellular organisms to play key roles in both innate and adaptive immunity in vertebrates.
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PROTEIN TRANSLOCATION BY THE SEC61/SECY CHANNEL
Vol. 21 (2005), pp. 529–550More LessAbstractThe conserved protein-conducting channel, referred to as the Sec61 channel in eukaryotes or the SecY channel in eubacteria and archaea, translocates proteins across cellular membranes and integrates proteins containing hydrophobic transmembrane segments into lipid bilayers. Structural studies illustrate how the protein-conducting channel accomplishes these tasks. Three different mechanisms, each requiring a different set of channel binding partners, are employed to move polypeptide substrates: The ribosome feeds the polypeptide chain directly into the channel, a ratcheting mechanism is used by the eukaryotic endoplasmic reticulum chaperone BiP, and a pushing mechanism is utilized by the bacterial ATPase SecA. We review these translocation mechanisms, relating biochemical and genetic observations to the structures of the protein-conducting channel and its binding partners.
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RETINOTECTAL MAPPING: New Insights from Molecular Genetics
Greg Lemke, and Michaël ReberVol. 21 (2005), pp. 551–580More LessAbstractThe sensory and motor components of nervous systems are connected topographically and contain neural maps of the external world. The paradigm for such maps is the precisely ordered wiring of the output cells of the eye to their synaptic targets in the tectum of the midbrain. The retinotectal map is organized in development through the graded activity of Eph receptor tyrosine kinases and their ephrin ligands. These signaling proteins are arrayed in complementary expression gradients along the orthogonal axes of the retina and tectum, and provide both input and recipient cells with Cartesian coordinates that specify their location. Molecular genetic studies in the mouse indicate that these coordinates are interpreted in the context of neuronal competition for termination sites in the tectum. They further suggest that order in the retinotectal map is determined by ratiometric rather than absolute difference comparisons in Eph signaling along the temporal-nasal and dorsal-ventral axes of the eye.
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IN VIVO IMAGING OF LYMPHOCYTE TRAFFICKING
Vol. 21 (2005), pp. 581–603More LessAbstractOver the past decades, intravital microscopy (IVM), the imaging of cells in living organisms, has become a valuable tool for studying the molecular determinants of lymphocyte trafficking. Recent advances in microscopy now make it possible to image cell migration and cell-cell interactions in vivo deep within intact tissues. Here, we summarize the principal techniques that are currently used in IVM, discuss options and tools for fluorescence-based visualization of lymphocytes in microvessels and tissues, and describe IVM models used to explore lymphoid and non-lymphoid organs. The latter will be introduced according to the physiologic itinerary of developing and differentiating T and B lymphocytes as they traffic through the body, beginning with their development in bone marrow and thymus and continuing with their migration to secondary lymphoid organs and peripheral tissues.
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STEM CELL NICHE: Structure and Function
Linheng Li, and Ting XieVol. 21 (2005), pp. 605–631More LessAbstractAdult tissue-specific stem cells have the capacity to self-renew and generate functional differentiated cells that replenish lost cells throughout an organism's lifetime. Studies on stem cells from diverse systems have shown that stem cell function is controlled by extracellular cues from the niche and by intrinsic genetic programs within the stem cell. Here, we review the remarkable progress recently made in research regarding the stem cell niche. We compare the differences and commonalities of different stem cell niches in Drosophila ovary/testis and Caenorhabditis elegans distal tip, as well as in mammalian bone marrow, skin/hair follicle, intestine, brain, and testis. On the basis of this comparison, we summarize the common features, structure, and functions of the stem cell niche and highlight important niche signals that are conserved from Drosophila to mammals. We hope this comparative summary defines the basic elements of the stem cell niche, providing guiding principles for identification of the niche in other systems and pointing to areas for future studies.
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DOCOSAHEXAENOIC ACID, FATTY ACID–INTERACTING PROTEINS, AND NEURONAL FUNCTION: Breastmilk and Fish Are Good for You
Vol. 21 (2005), pp. 633–657More LessAbstractIn contrast to other tissues, the nervous system is enriched in the polyunsaturated fatty acids (PUFAs): arachidonic acid (AA, 20:4 n-6) and docosahexaenoic acid (DHA, 22:6 n-3). Despite their abundance in the nervous system, AA and DHA cannot be synthesized de novo by mammals; they, or their precursors, must be ingested from dietary sources and transported to the brain. During late gestation and the early postnatal period, neurodevelopment is exceptionally rapid, and substantial amounts of PUFAs, especially DHA, are critical to ensure neurite outgrowth as well as proper brain and retina development. Here, we review the various functions of DHA in the nervous system, the proteins involved in its internalization and metabolism into phospholipids, and its relationship to several neurological disorders, including Alzheimer's disease and depression.
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SPECIFICITY AND VERSATILITY IN TGF-β SIGNALING THROUGH SMADS
Xin-Hua Feng, and Rik DerynckVol. 21 (2005), pp. 659–693More LessAbstractThe TGF-β family comprises many structurally related differentiation factors that act through a heteromeric receptor complex at the cell surface and an intracellular signal transducing Smad complex. The receptor complex consists of two type II and two type I transmembrane serine/threonine kinases. Upon phosphorylation by the receptors, Smad complexes translocate into the nucleus, where they cooperate with sequence-specific transcription factors to regulate gene expression. The vertebrate genome encodes many ligands, fewer type II and type I receptors, and only a few Smads. In contrast to the perceived simplicity of the signal transduction mechanism with few Smads, the cellular responses to TGF-β ligands are complex and context dependent. This raises the question of how the specificity of the ligand-induced signaling is achieved. We review the molecular basis for the specificity and versatility of signaling by the many ligands through this conceptually simple signal transduction mechanism.
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THE GREAT ESCAPE: When Cancer Cells Hijack the Genes for Chemotaxis and Motility
Vol. 21 (2005), pp. 695–718More LessAbstractThe combined use of the new technologies of multiphoton-based intravital imaging, the chemotaxis-mediated collection of invasive cells, and high sensitivity expression profiling has allowed the correlation of the behavior of invasive tumor cells in vivo with their gene expression patterns. New insights have resulted including a gene expression signature for invasive cells and the tumor microenvironment invasion model. This model proposes that tumor invasion and metastasis can be studied as a problem resembling normal morphogenesis. We discuss how these new insights may lead to a better understanding of the molecular basis of the invasive behavior of tumor cells in vivo, which may result in new strategies for the diagnosis and treatment of metastasis.
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Previous Volumes
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Volume 40 (2024)
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Volume 39 (2023)
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Volume 38 (2022)
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Volume 37 (2021)
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Volume 36 (2020)
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Volume 35 (2019)
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Volume 34 (2018)
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Volume 33 (2017)
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Volume 32 (2016)
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Volume 31 (2015)
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Volume 30 (2014)
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Volume 29 (2013)
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Volume 28 (2012)
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Volume 27 (2011)
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Volume 26 (2010)
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Volume 25 (2009)
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Volume 24 (2008)
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Volume 23 (2007)
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Volume 22 (2006)
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Volume 21 (2005)
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Volume 20 (2004)
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Volume 19 (2003)
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Volume 18 (2002)
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Volume 17 (2001)
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Volume 16 (2000)
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Volume 15 (1999)
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Volume 14 (1998)
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Volume 13 (1997)
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Volume 12 (1996)
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Volume 11 (1995)
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Volume 10 (1994)
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Volume 9 (1993)
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Volume 8 (1992)
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Volume 7 (1991)
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Volume 6 (1990)
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Volume 5 (1989)
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Volume 4 (1988)
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Volume 3 (1987)
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Volume 2 (1986)
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Volume 1 (1985)
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Volume 0 (1932)