DNA Replication Stress and Cell Fate
Author: Lin Deng
Publisher: Frontiers Media SA
Published: 2021-12-30
Total Pages: 160
ISBN-13: 2889718794
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DNA Replication Stress
Author: Robert M. Brosh Jr.
Publisher: MDPI
Published: 2019-08-27
Total Pages: 368
ISBN-13: 303921389X
DOWNLOAD EBOOK →This Special Issue of International Journal of Molecular Sciences (IJMS) is dedicated to the mechanisms mediated at the molecular and cellular levels in response to adverse genomic perturbations and DNA replication stress. The relevant proteins and processes play paramount roles in nucleic acid transactions to maintain genomic stability and cellular homeostasis. A total of 18 articles are presented which encompass a broad range of highly relevant topics in genome biology. These include replication fork dynamics, DNA repair processes, DNA damage signaling and cell cycle control, cancer biology, epigenetics, cellular senescence, neurodegeneration, and aging. As Guest Editor for this IJMS
HUWE1 Interacts with PCNA to Alleviate Replication Stress
Author: Katherine Choe
Publisher:
Published: 2016
Total Pages:
ISBN-13:
DOWNLOAD EBOOK →The integrity of the genome relies on the accurate and faithful duplication of genetic information from a parental cell to its progeny during each cellular division. Defects in DNA replication, DNA damage response, or DNA repair compromise genomic stability and promote cancer development as well as other diseases. In particular, unrepaired DNA lesions can arrest the progression of the DNA replication machinery during S-phase, causing replication stress, mutations, and DNA breaks. HUWE1 is a HECT-type ubiquitin ligase that targets proteins involved in cell fate, survival and differentiation. Here, we report that HUWE1 is essential for genomic stability, by promoting replication of damaged DNA. We show that HUWE1-knockout cells are unable to mitigate replication stress, resulting in replication defects and DNA breakage. Importantly, we find that this novel role of HUWE1 requires its interaction with the replication factor PCNA, a master regulator of replication fork restart, at stalled replication forks. Finally, we provide evidence that HUWE1 monoubiquitinates H2AX to promote signaling at stalled forks. Altogether, our work identifies HUWE1 as a novel regulator of the replication stress response.
DNA Replication Stress
Author: Robert M. Brosh
Publisher:
Published: 2019
Total Pages: 1
ISBN-13: 9783039213900
DOWNLOAD EBOOK →This Special Issue of International Journal of Molecular Sciences (IJMS) is dedicated to the mechanisms mediated at the molecular and cellular levels in response to adverse genomic perturbations and DNA replication stress. The relevant proteins and processes play paramount roles in nucleic acid transactions to maintain genomic stability and cellular homeostasis. A total of 18 articles are presented which encompass a broad range of highly relevant topics in genome biology. These include replication fork dynamics, DNA repair processes, DNA damage signaling and cell cycle control, cancer biology, epigenetics, cellular senescence, neurodegeneration, and aging. As Guest Editor for this IJMS Special Issue, I am very pleased to offer this collection of riveting articles centered on the theme of DNA replication stress. The blend of articles builds upon a theme that DNA damage has profound consequences for genomic stability and cellular homeostasis that affect tissue function, disease, cancer, and aging at multiple levels and through unique mechanisms. I thank the authors for their excellent contributions, which provide new insight into this fascinating and highly relevant area of genome biology.
New Mechanisms Involved in the DNA Replication Stress Response of Non-transformed Human Cells
Author: Amaia Ercilla Eguiarte
Publisher:
Published: 2017
Total Pages: 253
ISBN-13:
DOWNLOAD EBOOK →The cell cycle, the group of processes involved in the duplication and division of a cell in two daughter cells is essential for all organism existence. The correct regulation of these processes is crucial to guarantee genome integrity and cell survival. From the different cell cycle phases, the S phase is the most vulnerable to the acquisition of DNA damage since it is the phase in which the DNA is replicated. Alterations in DNA replication dynamics result in the accumulation of replication stress, one of the major sources of genomic instability, a hallmark of cancer. In this sense, cells have developed complex surveillance mechanisms to ensure stabilization and repair of forks, to coordinate these functions with cell cycle, and thus, to prevent cell division in the presence of unreplicated or damaged DNA. By doing so, these mechanisms will try to overcome the damage, and if so, the DNA replication stress response will promote replication resumption. By contrast, in the cases of persistent damage, cells are withdrawal from the cell cycle either by apoptosis or senescence. The correct activation and regulation of all these mechanisms is essential to prevent the acquisition of genomic instability and the oncogenic transformation. The pathways involved in DNA damage detection and signaling have been extensively studied in tumor cells. However, the response to replication stress, especially in non-transformed human cells, is still poorly understood. Therefore, in order to gain a better understanding of the pathways involved in this response, the main objective of this thesis has been to study and characterize new mechanisms involved in the DNA replication stress response of non-transformed human cells, as well as to analyze their contribution towards safeguarding genome integrity. Combining cellular and molecular approaches, together with several replication stress inducing agents, we have characterized new DNA replication stress response mechanisms that prevent replication resumption upon severe replication stress. For instance, we have described that APC/CCdh1 ubiquitin ligase is prematurely activated in S phase, to prevent new origin firing, in response to a prolonged DNA replication inhibition that results in the processing of replication forks into double strand breaks. Additionally, using an approach that has allowed us to define the changes at replication fork level between an acute and prolonged replication stress, we have seen that replication forks suffer several remodeling and processing events that abrogate their ability to restart after severe replication stress. Notably, our results suggest that this loss in the ability to resume replication under these conditions may act as a mechanism to safeguard genome integrity in non-transformed human cells. Collectively, the results of this thesis contribute to have a better understanding of the mechanisms involved in the DNA replication stress response of non-transformed human cells, opening new doors for the development of future therapies.
Cell Fate After DNA Damage
Protein Phosphorylation in Human Health
Author: Cai Huang
Publisher: BoD – Books on Demand
Published: 2012-09-06
Total Pages: 482
ISBN-13: 9535107372
DOWNLOAD EBOOK →15 chapters on protein phosphorylation and human health written by expert scientists. Covers most important research hot points, such as Akt, AMPK and mTOR. Bridges the basic protein phosphorylation pathways with human health and diseases. Detailed and comprehensive text with excellent figure illustration.
Systems Biology of Cancer
Author: Sam Thiagalingam
Publisher: Cambridge University Press
Published: 2015-04-09
Total Pages: 597
ISBN-13: 0521493390
DOWNLOAD EBOOK →An overview of the current systems biology-based knowledge and the experimental approaches for deciphering the biological basis of cancer.
Concerning the Origin of Malignant Tumours
Author: Theodor Boveri
Publisher:
Published: 2008
Total Pages: 108
ISBN-13:
DOWNLOAD EBOOK →An English translation of Boveri's famous monograph which was first published in Germany in 1914. Written almost a hundred years ago, Theodor Boveri's Zur Frage der Entstehung maligner Tumoren has had a momentous impact on cancer research. In it he argues that malignancy arises as a consequence of chromosomal abnormalities and that multiplication is an inherent property of cells. With astonishing prescience, Boveri predicts in this monograph the existence of tumor suppressor mechanisms and is perhaps the first to suggest that hereditary factors (genes) are linearly arranged along chromosomes. This new translation by Sir Henry Harris, Regius Professor of Medicine Emeritus at Oxford University and former Editor-in-Chief of Journal of Cell Science, includes extensive annotations in which he discusses the relevance of Boveri's views today. It is essential reading for all cancer researchers, as well as those interested in the history of cytogenetics and cell biology.
The Plant Cell Cycle
Author: Dirk Inzé
Publisher: Springer Science & Business Media
Published: 2011-06-27
Total Pages: 240
ISBN-13: 9401009368
DOWNLOAD EBOOK →In recent years, the study of the plant cell cycle has become of major interest, not only to scientists working on cell division sensu strictu , but also to scientists dealing with plant hormones, development and environmental effects on growth. The book The Plant Cell Cycle is a very timely contribution to this exploding field. Outstanding contributors reviewed, not only knowledge on the most important classes of cell cycle regulators, but also summarized the various processes in which cell cycle control plays a pivotal role. The central role of the cell cycle makes this book an absolute must for plant molecular biologists.
