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[
Cell Cycle,
2011]
Comment on: Banerjee D, et al. Cell Cycle 2010; 9:4748-65.
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[
Nat Cell Biol,
2010]
Recognition of apoptotic cells by phagocytic cells in Caenorhabditis elegans has been something of a mystery. A secreted transthyretin-like protein, TTR-52, has been identified as a bridging molecule between apoptotic cells and CED-1 on the phagocytic cells that engulf them.
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[
Elife,
2015]
The abnormal accumulation of fat increases the lifespans of nematodes that lack sex cells.
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[
Dev Cell,
2012]
Chromatin diminution during development generates cells with varying genetic content within the same organism. Two recent papers demonstrate that in two different systems chromatin diminution removes a considerable number of genes from somatic cells, thereby restricting their expression to the germline.
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[
Curr Biol,
2015]
A pool of proliferating germline stem cells is essential for gamete production in Caenorhabditis elegans. A new study applies sophisticated live imaging to assess mitotic progression and cell cycle control in these cells, yielding new insights into stem cell division.
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[
Dev Cell,
2003]
In multicellular organisms, most cells are confined to a particular tissue. However, some cells invade organs during normal development and in diseases (e.g., angiogenesis and cancer). Recent studies reveal a fascinating step-by-step process in which specific vulval cells induce and attract a single gonadal cell to invade an epithelial tubular organ in order to connect the uterus to the vulva in C. elegans.
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[
Bioengineered
]
Biological olfactory and taste systems are natural chemical sensing systems with unique performances for the detection of environmental chemical signals. With the advances in olfactory and taste transduction mechanisms, biomimetic chemical sensors have achieved significant progress due to their promising prospects and potential applications. Biomimetic chemical sensors exploit the unique capability of biological functional components for chemical sensing, which are often sourced from sensing units of biological olfactory or taste systems at the tissue level, cellular level, or molecular level. Specifically, at the cellular level, there are mainly two categories of cells have been employed for the development of biomimetic chemical sensors, which are natural cells and bioengineered cells, respectively. Natural cells are directly isolated from biological olfactory and taste systems, which are convenient to achieve. However, natural cells often suffer from the undefined sensing properties and limited amount of identical cells. On the other hand, bioengineered cells have shown decisive advantages to be applied in the development of biomimetic chemical sensors due to the powerful biotechnology for the reconstruction of the cell sensing properties. Here, we briefly summarized the most recent advances of biomimetic chemical sensors using bioengineered olfactory and taste cells. The development challenges and future trends are discussed as well.
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[
Science,
1994]
Like people, cells die in different ways: accident, murder, old age, even suicide. In fact, cellular suicide isn't just a curiosity, it's necessary for the health of the organism. During embryonic development, for example, it helps weed out superfluous nerve cells, as well as immune cells that might attack and damage the body's own tissues. Like a spy-plane pilot who carries a little vial of poison under his seat in case he's captured, cells carry in their nuclei a genetic program for suicide that can be set in motion, should the cell receive orders to self-destruct. Now, after years of eluding researchers, the genes that carry out the suicide program are coming into the light...
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[
Cancer Cell,
2013]
There is much interest in defining the nutrient dependencies of cancer cells and their mechanisms of adaptation to nutrient depletion. In a recent issue of Cell, Leprivier and colleagues demonstrate that eEF2K, which can inhibit translation elongation acutely during protein synthesis, is a critical switch in the survival versus death fate of starved cancer cells.
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[
Curr Biol,
2015]
A new study reports that the RhoGAP SPV-1 senses membrane curvature and cell stretch in the Caenorhabditis elegans spermatheca. Without SPV-1, the cells of the spermatheca are hypercontractile, leading to deformation and rapid ejection of the fertilized eggs. The spermatheca may provide a paradigm for understanding how cells detect mechanical stimuli in vivo.