Téléchargez le livre : Ferroptosis in Health and Disease

Ferroptosis in Health and Disease



de

Éditeur :

Springer


Paru le : 2023-10-28



eBook Téléchargement , DRM LCP 🛈 DRM Adobe 🛈
Lecture en ligne (streaming)
242,64
Téléchargement immédiat
Dès validation de votre commande
Ajouter à ma liste d'envies
Image Louise Reader présentation

Louise Reader

Lisez ce titre sur l'application Louise Reader.

badge apple Application Louise Reader
badge Android Application Louise Reader
Description

This updated and expanded volume gives new insights on ferroptosis – an iron-dependent form of non-apoptotic cell death. The collection of chapters discusses the two major pathways through which ferroptosis can occur: the extrinsic or transporter-dependent pathway and the intrinsic or enzyme-regulated pathway.
Readers will gain an understanding of the multiple levels, on which this special cell death is regulated. Hence, the contributions will take a closer look at epigenetic, transcriptional, posttranscriptional and posttranslational layers. Among the described regulators and transcription factors are GPX4, ACSL4 and NFE2L2.

This edited volume collects reviews related to current knowledge on the integrated molecular machinery of ferroptosis, thereby also describing how dysregulated ferroptosis is involved in human diseases.

Pages
490 pages
Collection
n.c
Parution
2023-10-28
Marque
Springer
EAN papier
9783031391705
EAN PDF
9783031391712
Informations sur l'ebook
Nombre pages copiables
4
Nombre pages imprimables
49
Taille du fichier
15094 Ko
Ce livre est accessible aux handicaps Voir les informations sur l'accessibilité
Prix
242,64 €
EAN EPUB
9783031391712
Informations sur l'ebook
Nombre pages copiables
4
Nombre pages imprimables
49
Taille du fichier
37376 Ko
Ce livre est accessible aux handicaps Voir les informations sur l'accessibilité
Prix
242,64 €

Daolin Tang

Dr Tang’s work chiefly focuses on designing and conducting molecular, cellular, and animal studies to investigate the mechanisms of damage-associated molecular pattern molecule (DAMP) release and activity in autophagy and cell death, and to evaluate novel drug candidates for the treatment of various inflammatory diseases, including cancer. His past contributions to biomedical science include the initial description of the role of high-mobility group box 1 (HMGB1), a classical DAMP, in autophagy. His recent contributions to DAMP biology include the identification of a novel function and activity of HMGB1 in infection and sterile inflammation. More recently, he has also identified a number of regulators of necroptosis, ferroptosis, pyroptosis, and alkaliptosis. In summary, Dr Tang is an outstanding investigator with a proven track record of innovation and achievement in the fields of DAMP, autophagy, and cell death.



Suggestions personnalisées