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Photocarcinogenesis – Molecular Mechanisms

Franjo Gruber
Gordana Zamolo
Marija Kaštelan
Larisa Prpić Massari
Leo Čabrijan
Vesna Peharda
Tanja Batinac

Puni tekst: engleski, pdf (76 KB) str. 101-106 preuzimanja: 569* citiraj
APA 6th Edition
Gruber, F., Zamolo, G., Kaštelan, M., Prpić Massari, L., Čabrijan, L., Peharda, V. i Batinac, T. (2007). Photocarcinogenesis – Molecular Mechanisms. Collegium antropologicum, 31 - Supplement 1 (1), 101-106. Preuzeto s https://hrcak.srce.hr/27434
MLA 8th Edition
Gruber, Franjo, et al. "Photocarcinogenesis – Molecular Mechanisms." Collegium antropologicum, vol. 31 - Supplement 1, br. 1, 2007, str. 101-106. https://hrcak.srce.hr/27434. Citirano 20.10.2019.
Chicago 17th Edition
Gruber, Franjo, Gordana Zamolo, Marija Kaštelan, Larisa Prpić Massari, Leo Čabrijan, Vesna Peharda i Tanja Batinac. "Photocarcinogenesis – Molecular Mechanisms." Collegium antropologicum 31 - Supplement 1, br. 1 (2007): 101-106. https://hrcak.srce.hr/27434
Harvard
Gruber, F., et al. (2007). 'Photocarcinogenesis – Molecular Mechanisms', Collegium antropologicum, 31 - Supplement 1(1), str. 101-106. Preuzeto s: https://hrcak.srce.hr/27434 (Datum pristupa: 20.10.2019.)
Vancouver
Gruber F, Zamolo G, Kaštelan M, Prpić Massari L, Čabrijan L, Peharda V i sur. Photocarcinogenesis – Molecular Mechanisms. Collegium antropologicum [Internet]. 2007 [pristupljeno 20.10.2019.];31 - Supplement 1(1):101-106. Dostupno na: https://hrcak.srce.hr/27434
IEEE
F. Gruber, et al., "Photocarcinogenesis – Molecular Mechanisms", Collegium antropologicum, vol.31 - Supplement 1, br. 1, str. 101-106, 2007. [Online]. Dostupno na: https://hrcak.srce.hr/27434. [Citirano: 20.10.2019.]

Sažetak
The carcinogenicity (photocarcinogenicity) of sunlight to human skin has been recognized more than a century ago.
Last decades numerous experimental studies show that UV rays damage DNA, cause gene mutations leading to the development
of malignant tumors such basal cell carcinomas, squamous cell carcinomas and melanomas. The tumors occur
most frequently in fair skinned people, and the mutations typically are found at dipyrimidine sites with C-T or / and
CC-TT tandem double mutations. The authors briefly summarize their investigation of the p53 suppressor gene, and expose
their hypothesis of hTERT involvement in cancerogenesis. Also their underline the importance of UV induced
immunosuppression in photocarcinogenesis. Psoriatic patients are exposed to numerous cancerogens in their treatment.
A better understanding of the mechanisms of photocarcinogenesis could provide new ways in the treatment of skin tumors.

Ključne riječi
UV radiation; mutation; telomerase; immunosuppression; psoriasis

Hrčak ID: 27434

URI
https://hrcak.srce.hr/27434

Posjeta: 678 *