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Cell, Cumulus -- See Cumulus Cells


The granulosa cells of the cumulus oophorus which surround the OVUM in the GRAAFIAN FOLLICLE. At OVULATION they are extruded with OVUM
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Cell, Cumulus Granulosa -- See Cumulus Cells


The granulosa cells of the cumulus oophorus which surround the OVUM in the GRAAFIAN FOLLICLE. At OVULATION they are extruded with OVUM
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  Cell cycle -- 6 Related Subjects   6
Cell cycle.   37
 

Cell Cycle Arrest -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycle Arrests -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycle Checkpoint -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycle Checkpoint Genes -- See Genes, cdc


Genes that code for proteins that regulate the CELL DIVISION CYCLE. These genes form a regulatory network that culminates in the onset of MITOSIS by activating the p34cdc2 protein (PROTEIN P34CDC2)
  1
  Cell Cycle Checkpoints -- 2 Related Subjects   2
Cell Cycle Checkpoints : Immune checkpoint blockade : methods and protocols / edited by Yago Pico de CoaƱa  2019 1
Cell Cycle Checkpoints -- genetics : Cell cycle control : mechanisms and protocols / edited by Eishi Noguchi and Mariana C. Gadaleta  2014 1
Cell Cycle Checkpoints -- metabolism : Gadd45 stress sensor genes / M. Raza Zaidi, Dan A. Liebermann, editors  2022 1
Cell Cycle Checkpoints -- physiology : Gadd45 stress sensor genes / M. Raza Zaidi, Dan A. Liebermann, editors  2022 1
 

Cell Cycle Control -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycle Controls -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
Cell Cycle -- drug effects   2
 

Cell Cycle Gene -- See Genes, cdc


Genes that code for proteins that regulate the CELL DIVISION CYCLE. These genes form a regulatory network that culminates in the onset of MITOSIS by activating the p34cdc2 protein (PROTEIN P34CDC2)
  1
 

Cell Cycle Genes -- See Genes, cdc


Genes that code for proteins that regulate the CELL DIVISION CYCLE. These genes form a regulatory network that culminates in the onset of MITOSIS by activating the p34cdc2 protein (PROTEIN P34CDC2)
  1
Cell cycle -- Laboratory manuals   11
Cell cycle -- Mathematical models : Mathematical modelling of the cell cycle stress response / Elahe Radmaneshfar  2014 1
Cell cycle -- Periodicals   2
Cell Cycle -- physiology   15
  Cell Cycle Proteins -- 5 Related Subjects   5
Cell Cycle Proteins   5
Cell Cycle Proteins -- drug effects : Checkpoint controls and targets in cancer therapy / edited by Zahid H. Siddik  2009 1
Cell Cycle Proteins -- physiology   5
Cell cycle -- Regulation.   9
Cell cycle -- Regulation -- Congresses : Hormonal control of cell cycle / Shlomo Melmed [and others], eds  2008 1
Cell cycle -- Regulation -- Laboratory manuals   2
 

Cell-Cycle Regulatory Proteins -- See Cell Cycle Proteins


Proteins that control the CELL DIVISION CYCLE. This family of proteins includes a wide variety of classes, including CYCLIN-DEPENDENT KINASES, mitogen-activated kinases, CYCLINS, and PHOSPHOPROTEIN PHOSPHATASES as well as their putative substrates such as chromatin-associated proteins, CYTOSKELETAL PROTEINS, and TRANSCRIPTION FACTORS
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Cell Cycle-Transition Point -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycle Transition Points -- See Cell Cycle Checkpoints


Regulatory signaling systems that control the progression through the CELL CYCLE. They ensure that the cell has completed, in the correct order and without mistakes, all the processes required to replicate the GENOME and CYTOPLASM, and divide them equally between two daughter cells. If cells sense they have not completed these processes or that the environment does not have the nutrients and growth hormones in place to proceed, then the cells are restrained (or "arrested") until the processes are completed and growth conditions are suitable
  1
 

Cell Cycles -- See Cell Cycle


The complex series of phenomena, occurring between the end of one CELL DIVISION and the end of the next, by which cellular material is duplicated and then divided between two daughter cells. The cell cycle includes INTERPHASE, which includes G0 PHASE; G1 PHASE; S PHASE; and G2 PHASE, and CELL DIVISION PHASE
  1
 

Cell Cytotoxins, Vero -- See Shiga Toxins


A class of toxins that inhibit protein synthesis by blocking the interaction of ribosomal RNA; (RNA, RIBOSOMAL) with PEPTIDE ELONGATION FACTORS. They include SHIGA TOXIN which is produced by SHIGELLA DYSENTERIAE and a variety of shiga-like toxins that are produced by pathologic strains of ESCHERICHIA COLI such as ESCHERICHIA COLI O157
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  Cell death -- 3 Related Subjects   3
Cell Death   98
 

Cell Death, Autophagic -- See Autophagy


The segregation and degradation of cytoplasmic constituents by AUTOPHAGOSOMES and their digestion by LYSOSOMES. It plays an important role in BIOLOGICAL METAMORPHOSIS and in the removal of bone by OSTEOCLASTS. Defective autophagy is associated with various diseases, including NEURODEGENERATIVE DISEASES and cancer
  1
Cell death -- Congresses   4
Cell Death -- immunology : Death receptors in cancer therapy / edited by Wafik S. El-Deiry  2005 1
Cell death -- Laboratory manuals   9
Cell death -- Periodicals   7
Cell Death -- physiology   6
 

Cell Deaths, Autophagic -- See Autophagy


The segregation and degradation of cytoplasmic constituents by AUTOPHAGOSOMES and their digestion by LYSOSOMES. It plays an important role in BIOLOGICAL METAMORPHOSIS and in the removal of bone by OSTEOCLASTS. Defective autophagy is associated with various diseases, including NEURODEGENERATIVE DISEASES and cancer
  1
Cell Dedifferentiation : Cellular dedifferentiation and regenerative medicine / Xiaobing Fu, Andong Zhao, Tian Hu  2018 1
 

Cell Dedifferentiations -- See Cell Dedifferentiation


A reverse developmental process in which terminally differentiated cells with specialized functions revert back to a less differentiated stage within their own CELL LINEAGE
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Cell degeneration -- See Cell death


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Cell Degranulation -- See Also Exocytosis


Cellular release of material within membrane-limited vesicles by fusion of the vesicles with the CELL MEMBRANE
  1
 

Cell, Dendritic -- See Dendritic Cells


Specialized cells of the hematopoietic system that have branch-like extensions. They are found throughout the lymphatic system, and in non-lymphoid tissues such as SKIN and the epithelia of the intestinal, respiratory, and reproductive tracts. They trap and process ANTIGENS, and present them to T-CELLS, thereby stimulating CELL-MEDIATED IMMUNITY. They are different from the non-hematopoietic FOLLICULAR DENDRITIC CELLS, which have a similar morphology and immune system function, but with respect to humoral immunity (ANTIBODY PRODUCTION)
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Cell-Derived Microparticle -- See Cell-Derived Microparticles


Extracellular vesicles generated by the shedding of CELL MEMBRANE blebs
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Cell-Derived Microparticle, Circulating -- See Cell-Derived Microparticles


Extracellular vesicles generated by the shedding of CELL MEMBRANE blebs
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