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Topic Review
DNA Homeostasis and Senescence
As we age, our bodies accrue damage in the form of DNA mutations. These mutations lead to the generation of sub-optimal proteins, resulting in inadequate cellular homeostasis and senescence. The build-up of senescent cells negatively affects the local cellular micro-environment and drives ageing associated disease, including neurodegeneration. Therefore, limiting the accumulation of DNA damage is essential for healthy neuronal populations.  
  • 676
  • 17 Jun 2021
Topic Review
Chromatin-Remodeling in Cancer Cells
ATP-dependent chromatin-remodeling complexes can reorganize and remodel chromatin and thereby act as important regulator in various cellular processes. Based on considerable studies over the past two decades, it has been confirmed that the abnormal function of chromatin remodeling plays a pivotal role in genome reprogramming for oncogenesis in cancer development and/or resistance to cancer therapy.
  • 675
  • 11 Nov 2022
Topic Review
Senescent Microglia
Microglia, far from being simply ‘brain glue’, play an important role as the brain’s resident immune cells. Their roles include phagocytic clearance of debris, pruning of synapses, and possibly even contributing to synaptic activity, being of critical importance from early development to ageing. Despite being such long-lived cells, microglia have been relatively understudied for their role in the ageing process. Reliably identifying aged microglia has proven challenging, not least due to the diversity of cell populations, and the limitations of available models, further complicated by differences between human and rodent cells.
  • 674
  • 07 May 2021
Topic Review
Cytokinesis in Eukaryotic Cells
The duplication cycle is the fascinating process that, starting from a cell, results in the formation of two daughter cells and it is essential for life. Cytokinesis is the final step of the cell cycle, it is a very complex phase, and is a concert of forces, remodeling, trafficking, and cell signaling. All of the steps of cell division must be properly coordinated with each other to faithfully segregate the genetic material and this task is fundamental for generating viable cells. Given the importance of this process, molecular pathways and proteins that are involved in cytokinesis are conserved from yeast to humans.
  • 674
  • 20 May 2021
Topic Review
Chloroplast Trans-Splicing RNA–Protein Supercomplex
In eukaryotes, RNA trans-splicing is a significant RNA modification process for the end-to-end li-gation of exons from separately transcribed primary transcripts to generate mature mRNA. So far, three different categories of RNA trans-splicing have been found in organisms within a diverse range.
  • 673
  • 01 Mar 2021
Topic Review
PARP Inhibitor-Induced Synthetic Lethality
The advanced development of synthetic lethality has opened the doors for specific anti-cancer medications of personalized medicine and efficient therapies against cancers. One of the most popular approaches being investigated is targeting DNA repair pathways as the implementation of the poly-ADP ribose polymerase 1 (PARP) inhibitor (PARPi) into individual or combinational therapeutic schemes. Such treatment has been effectively employed against homologous recombination-defective solid tumors as well as hematopoietic malignancies. In the most common aspect of precision medicine, PARPi triggers synthetic lethality in cancer cells harboring BRCA1/2 mutations/deficiencies. 
  • 673
  • 05 Dec 2022
Topic Review
Autophagosome Biogenesis
Autophagy–the lysosomal degradation of cytoplasm–plays a central role in cellular homeostasis and protects cells from potentially harmful agents that may accumulate in the cytoplasm, including pathogens, protein aggregates, and dysfunctional organelles. This process is initiated by the formation of a phagophore membrane, which wraps around a portion of cytoplasm or cargo and closes to form a double-membrane autophagosome. Upon the fusion of the autophagosome with a lysosome, the sequestered material is degraded by lysosomal hydrolases in the resulting autolysosome. Several alternative membrane sources of autophagosomes have been proposed, including the plasma membrane, endosomes, mitochondria, endoplasmic reticulum, lipid droplets, hybrid organelles, and de novo synthesis. 
  • 673
  • 09 Mar 2023
Topic Review
Methods to Establish a 3D Cell Culture
The clear potential of three-dimensional (3D) systems to provide new models suitable for studying cell interactions in both basic and more specialized research, revolutionizing cell culture technology, and offering alternative methods for animal experimentation, has prompted the scientific community to develop different efficient methods to establish 3D cell cultures, all of which, in turn, affect 3D model characteristics. These techniques can be divided into two major categories: scaffold-free systems and scaffold-based systems. Scaffold-free systems are based on the self-aggregation capability of some cell types, which can be encouraged using specific cell plates and/or physical parameters that avoid cell attachment. On the other hand, in scaffold-based systems, cells are seeded in natural or synthetic materials, allowing cell proliferation, aggregation, and 3D organization.
  • 671
  • 02 Aug 2023
Topic Review
Basic Differences between Cell Cycle and Endocycle
The standard cell cycle is divided into two periods: (1) the interphase, with the phases G1, S, and G2 and (2) cell division, either mitosis or meiosis. Initially, each new cell is in the G1 (Gap 1) phase. Then, the content of genetic material in the cell nucleus amounts to 2C, i.e., it reaches the basic value in vegetative cells.
  • 671
  • 10 Aug 2023
Topic Review
Amyloid Precursor Protein
Amyloid precursor protein (APP) is an integral membrane protein expressed in many tissues and concentrated in the synapses of neurons. Its primary function is not known, though it has been implicated as a regulator of synapse formation, neural plasticity, antimicrobial activity , and iron export. APP is best known as the precursor molecule whose proteolysis generates amyloid beta (Aβ), a polypeptide containing 37 to 49 amino acid residues, whose amyloid fibrillar form is the primary component of amyloid plaques found in the brains of Alzheimer's disease patients.
  • 671
  • 25 Nov 2022
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