Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma
10.1038/ncomms7999
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sg-nus-scholar.10635-1804712023-10-31T21:19:45Z Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma Shao, H Chung, J Lee, K Balaj, L Min, C Carter, B.S Hochberg, F.H Breakefield, X.O Lee, H Weissleder, R BIOMEDICAL ENGINEERING messenger RNA methylated DNA protein cysteine methyltransferase dacarbazine messenger RNA temozolomide tumor marker disease treatment drug resistance enzyme activity gene expression methylation RNA tumor Article blood brain barrier cancer resistance cell culture cohort analysis controlled study DNA methylation drug efficacy drug response exosome gene product glioblastoma human human cell methylation microfluidics promoter region radiotherapy reverse transcription RNA analysis RNA extraction therapy treatment outcome treatment response tumor biopsy analogs and derivatives animal Brain Neoplasms drug effects drug resistance female gene expression profiling gene expression regulation genetics glioblastoma immunomagnetic separation metabolism nude mouse procedures tumor cell line Animals Biomarkers, Tumor Brain Neoplasms Cell Line, Tumor Dacarbazine Drug Resistance, Neoplasm Exosomes Female Gene Expression Profiling Gene Expression Regulation, Neoplastic Glioblastoma Humans Immunomagnetic Separation Mice, Nude Microfluidics RNA, Messenger Treatment Outcome 10.1038/ncomms7999 Nature Communications 6 6999 2020-10-26T09:07:45Z 2020-10-26T09:07:45Z 2015 Article Shao, H, Chung, J, Lee, K, Balaj, L, Min, C, Carter, B.S, Hochberg, F.H, Breakefield, X.O, Lee, H, Weissleder, R (2015). Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma. Nature Communications 6 : 6999. ScholarBank@NUS Repository. https://doi.org/10.1038/ncomms7999 2041-1723 https://scholarbank.nus.edu.sg/handle/10635/180471 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Nature Publishing Group Unpaywall 20201031 |
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messenger RNA methylated DNA protein cysteine methyltransferase dacarbazine messenger RNA temozolomide tumor marker disease treatment drug resistance enzyme activity gene expression methylation RNA tumor Article blood brain barrier cancer resistance cell culture cohort analysis controlled study DNA methylation drug efficacy drug response exosome gene product glioblastoma human human cell methylation microfluidics promoter region radiotherapy reverse transcription RNA analysis RNA extraction therapy treatment outcome treatment response tumor biopsy analogs and derivatives animal Brain Neoplasms drug effects drug resistance female gene expression profiling gene expression regulation genetics glioblastoma immunomagnetic separation metabolism nude mouse procedures tumor cell line Animals Biomarkers, Tumor Brain Neoplasms Cell Line, Tumor Dacarbazine Drug Resistance, Neoplasm Exosomes Female Gene Expression Profiling Gene Expression Regulation, Neoplastic Glioblastoma Humans Immunomagnetic Separation Mice, Nude Microfluidics RNA, Messenger Treatment Outcome |
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messenger RNA methylated DNA protein cysteine methyltransferase dacarbazine messenger RNA temozolomide tumor marker disease treatment drug resistance enzyme activity gene expression methylation RNA tumor Article blood brain barrier cancer resistance cell culture cohort analysis controlled study DNA methylation drug efficacy drug response exosome gene product glioblastoma human human cell methylation microfluidics promoter region radiotherapy reverse transcription RNA analysis RNA extraction therapy treatment outcome treatment response tumor biopsy analogs and derivatives animal Brain Neoplasms drug effects drug resistance female gene expression profiling gene expression regulation genetics glioblastoma immunomagnetic separation metabolism nude mouse procedures tumor cell line Animals Biomarkers, Tumor Brain Neoplasms Cell Line, Tumor Dacarbazine Drug Resistance, Neoplasm Exosomes Female Gene Expression Profiling Gene Expression Regulation, Neoplastic Glioblastoma Humans Immunomagnetic Separation Mice, Nude Microfluidics RNA, Messenger Treatment Outcome Shao, H Chung, J Lee, K Balaj, L Min, C Carter, B.S Hochberg, F.H Breakefield, X.O Lee, H Weissleder, R Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
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10.1038/ncomms7999 |
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BIOMEDICAL ENGINEERING |
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BIOMEDICAL ENGINEERING Shao, H Chung, J Lee, K Balaj, L Min, C Carter, B.S Hochberg, F.H Breakefield, X.O Lee, H Weissleder, R |
format |
Article |
author |
Shao, H Chung, J Lee, K Balaj, L Min, C Carter, B.S Hochberg, F.H Breakefield, X.O Lee, H Weissleder, R |
author_sort |
Shao, H |
title |
Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
title_short |
Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
title_full |
Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
title_fullStr |
Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
title_full_unstemmed |
Chip-based analysis of exosomal mRNA mediating drug resistance in glioblastoma |
title_sort |
chip-based analysis of exosomal mrna mediating drug resistance in glioblastoma |
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Nature Publishing Group |
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2020 |
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https://scholarbank.nus.edu.sg/handle/10635/180471 |
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