Project description:This SuperSeries is composed of the following subset Series:; GSE9712: Detection of genes differentially expressed in radioresistant tumors; GSE9713: Detection of genes differentially expressed in radioresistant and radiosensitive tumors before and after irradiation; GSE9714: Interferon response of radioresistant and radiosensitive human head&neck tumor cell lines Experiment Overall Design: Refer to individual Series
Project description:Nu61, a radiation-resistant human tumor xenograft, was selected from a parental radiosensitive tumor SCC-61 by eight serial cycles of passage in athymic nude mice and in vivo irradiation. Obtained tumors were profiled using Affymetrix U133A arrays. Most abundant gene pattern associated with radioresistant phenotype was presented by IFN-inducible, Stat1-dependent pathway Keywords: Pair-wise comparison of radiosensitive vs radioresistant tumors
Project description:Nu61, a radiation-resistant human tumor xenograft, was selected from a parental radiosensitive tumor SCC-61 by eight serial cycles of passage in athymic nude mice and in vivo irradiation. Obtained tumors were profiled using Affymetrix U133A arrays. Most abundant gene pattern associated with radioresistant phenotype was presented by IFN-inducible, Stat1-dependent pathway Keywords: Pair-wise comparison of radiosensitive vs radioresistant tumors; time course of irradation response
Project description:Differential gene expression profiling was performed in two lymphoblastoid cell lines with different radiosentivitity, one radiosensitive (RS) and another radioresistant (RR), after different post-irradiation times. A greater and a prolonged transcriptional response after irradiation was induced in the RS cell line. Functional analysis showed that 24 h after irradiation genes involved in DNA damage response, negative regulation of the cell cycle and apoptosis were still differentially up-regulated in the RS cell line but not in the RR cell line.
Project description:Differential gene expression profiling was performed in two lymphoblastoid cell lines with different radiosentivitity, one radiosensitive (RS) and another radioresistant (RR), after different post-irradiation times. A greater and a prolonged transcriptional response after irradiation was induced in the RS cell line. Functional analysis showed that 24 h after irradiation genes involved in DNA damage response, negative regulation of the cell cycle and apoptosis were still differentially up-regulated in the RS cell line but not in the RR cell line. Sham-irradiated and irradiated (2 Gy) cell cultures of the RS and the RR cell line were incubated at 37ºC for 4 and 24 h and 14 days. After that, RNA was extracted and sequenced with QuantSeq technology
Project description:Nu61, a radiation-resistant human tumor xenograft, was selected from a parental radiosensitive tumor SCC-61 by eight serial cycles of passage in athymic nude mice and in vivo irradiation. Obtained tumors were profiled using Affymetrix U133A arrays. Most abundant gene pattern associated with radioresistant phenotype was presented by IFN-inducible, Stat1-dependent pathway Experiment Overall Design: Obtained tumors were established as xenografts in nude mice. RNA were purified from each xenograft, normalized by concentration and three samples of RNA from each group were pooled for hybridization with each array. Three arrays were used for each group.
Project description:Nu61, a radiation-resistant human tumor xenograft, was selected from a parental radiosensitive tumor SCC-61 by eight serial cycles of passage in athymic nude mice and in vivo irradiation. Obtained tumors were profiled using Affymetrix U133A arrays. Most abundant gene pattern associated with radioresistant phenotype was presented by IFN-inducible, Stat1-dependent pathway Experiment Overall Design: Obtained tumors were established as xenografts in nude mice. RNA were purified from each xenograft, normalized by concentration and used for hybridization with each array. Three arrays were used for each group (un-treated nu61 and SCC61 and irradiated nu61 and SCC61 5 and 24 hours post-IR). Each group contained from 5 animals; tumors were randomized by size and three tumors from each group were used for profiling
