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Frontiers in Physiology, ISSN 1664-042X, 05/2019, Volume 10, pp. 672 - 672
Accumulating evidence mainly from observational studies supports the notion that lifestyle factors such as regular physical activity can modulate potential... 
exercise | dementia | responder | neuroplasticity | personalized medicine
Journal Article
Human Brain Mapping, ISSN 1065-9471, 10/2019, Volume 40, Issue 15, pp. 4316 - 4330
Brain circuits mediate but also constrain experience‐induced plasticity and corresponding behavioral changes. Here we tested whether interindividual behavioral... 
learning | predispositions | balance | MRI | skill acquisition | Neuroimaging | Brain | Cortex (prefrontal) | Correlation | Nuclear magnetic resonance--NMR | Motor skill | Substantia alba | Motor task performance | Substantia grisea | Learning | Plasticity (behavioral) | Magnetic resonance imaging | Motor skill learning | Anisotropy | Cortex (frontal) | Performance enhancement | Constitution | Index Medicus
Journal Article
Frontiers in Human Neuroscience, ISSN 1662-5161, 12/2015, Volume 9
Endurance exercise improves cardiovascular and musculoskeletal function and may also increase the information processing capacities of the brain. Animal and... 
Neuroplasticity | Brain | Lactate | Acute | Motor cortex | Endurance exercise | Motor learning | Neuromodulation | Motor Cortex | motor learning | Long-Term Potentiation | neuroplasticity
Journal Article
by Thorsson, Vesteinn and Thorsson, Vésteinn and Gibbs, Richard A and Gibbs, David L and Brown, Scott D and Wolf, Gregory and Wolf, Denise and Bortone, Dante S and Ou Yang, Tai-Hsien and Porta-Pardo, Eduard and Gao, Galen F and Gao, Jianjiong and Plaisier, Christopher L and Eddy, James A and Ziv, Elad and Culhane, Aedin C and Paull, Evan O and Sivakumar, I.K. Ashok and Gentles, Andrew J and Malhotra, Raunaq and Farshidfar, Farshad and Colaprico, Antonio and Parker, Joel S and Mose, Lisle E and Vo, Nam Sy and Liu, Wenbin and Liu, Jianfang and Liu, Jia and Liu, Yuexin and Liu, Xiuping and Rader, Janet and Dhankani, Varsha and Reynolds, Sheila and Reynolds, Sheila M and Bowlby, Reanne and Califano, Andrea and Cherniack, Andrew D and Anastassiou, Dimitris and Bedognetti, Davide and Mokrab, Younes and Newman, Aaron M and Rao, Arvind and Chen, Amy and Chen, Chu and Chen, Ken and Krasnitz, Alexander and Hu, Jianhong and Hu, Hai and Malta, Tathiane M and Noushmehr, Houtan and Pedamallu, Chandra Sekhar and Bullman, Susan and Ojesina, Akinyemi I and Lamb, Andrew and Zhou, Wanding and Shen, Hui and Choueiri, Toni K and Weinstein, John N and Guinney, Justin and Saltz, Joel and Holt, Robert and Holt, Robert A and Rabkin, Charles S and Caesar-Johnson, Samantha J and Demchok, John A and Felau, Ina and Kasapi, Melpomeni and Ferguson, Martin L and Hutter, Carolyn M and Sofia, Heidi J and Tarnuzzer, Roy and Wang, Jioajiao and Wang, Min and Wang, Linghua and Wang, Zhining and Wang, Timothy and Wang, Jing and Yang, Ju Dong and Yang, Hannah and Yang, Liming and Yang, Ian and Zenklusen, Jean C and Zhang, Jiashan (Julia) and Zhang, Jiexin and Zhang, Lizhi and Zhang, Wei and Zhang, Hongzheng and Zhang, Hailei and Zhang, Hongxin and Chudamani, Sudha and Lolla, Laxmi and Naresh, Rashi and Pihl, Todd and Sun, Yichao and Sun, Qiang and Wan, Yunhu and Wu, Ye and Cho, Juok and DeFreitas, Timothy and Frazer, Scott and ... and Canc Genome Atlas Res Network and Cancer Genome Atlas Research Network
Immunity, ISSN 1074-7613, 04/2018, Volume 48, Issue 4, pp. 812 - 830.e14
We performed an extensive immunogenomic analysis of more than 10,000 tumors comprising 33 diverse cancer types by utilizing data compiled by TCGA. Across... 
tumor immunology | immunotherapy | cancer genomics | integrative network analysis | immuno-oncology | tumor microenvironment | immune subtypes | immunomodulatory | GENOMIC ANALYSES | INFORMATION | T-CELL-RECEPTOR | REGULATORY NETWORK | CLASSIFICATION | IMMUNOLOGY | SEQUENCING DATA | SOMATIC MUTATIONS | COMPREHENSIVE ANALYSIS | PREDICTION | REVEALS | Transforming Growth Factor beta - immunology | Prognosis | Humans | Middle Aged | Th1-Th2 Balance - physiology | Male | Neoplasms - classification | Wound Healing - immunology | Young Adult | Transforming Growth Factor beta - genetics | Neoplasms - genetics | Neoplasms - immunology | Interferon-gamma - immunology | Adolescent | Aged, 80 and over | Adult | Female | Aged | Interferon-gamma - genetics | Wound Healing - genetics | Genomics - methods | Child | Macrophages - immunology | Cell proliferation | Cluster analysis | Transcription | Copy number | p53 Protein | Lung cancer | Genomics | Aneuploidy | Lymphocytes T | Genomes | Cell interactions | Macrophages | Immunotherapy | DNA methylation | Deoxyribonucleic acid--DNA | Immune system | Medical research | Wound healing | Immunomodulation | MiRNA | Stockholders | Inflammation | T cell receptors | Communications networks | Gene expression | White blood cells | Inventors | Medical prognosis | γ-Interferon | Mutation | Cancer | Tumors | Index Medicus | Immune Subtypes | Integrative Network Analysis | Cancer Genomics | Immuno-oncology | Tumor immunology
Journal Article
by Way, Gregory P and Sanchez-Vega, Francisco and La, Konnor and Armenia, Joshua and Chatila, Walid K and Luna, Augustin and Sander, Chris and Cherniack, Andrew D and Mina, Marco and Ciriello, Giovanni and Schultz, Nikolaus and Caesar-Johnson, Samantha J and Demchok, John A and Felau, Ina and Kasapi, Melpomeni and Ferguson, Martin L and Hutter, Carolyn M and Sofia, Heidi J and Tarnuzzer, Roy and Wang, Min and Wang, Jing and Wang, Jioajiao and Wang, Timothy and Wang, Zhining and Wang, Linghua and Yang, Liming and Yang, Ian and Yang, Hannah and Yang, Ju Dong and Zenklusen, Jean C and Zhang, Wei and Zhang, Hongzheng and Zhang, Hailei and Zhang, Hongxin and Zhang, Jiexin and Zhang, Jiashan (Julia) and Zhang, Lizhi and Chudamani, Sudha and Liu, Yuexin and Liu, Xiuping and Liu, Wenbin and Liu, Jia and Lolla, Laxmi and Naresh, Rashi and Pihl, Todd and Sun, Qiang and Sun, Yichao and Wan, Yunhu and Wu, Ye and Cho, Juok and DeFreitas, Timothy and Frazer, Scott and Gehlenborg, Nils and Getz, Gad and Heiman, David I and Kim, Jaegil and Lawrence, Michael S and Lin, Pei and Meier, Sam and Noble, Michael S and Saksena, Gordon and Voet, Doug and Bernard, Brady and Chambwe, Nyasha and Dhankani, Varsha and Knijnenburg, Theo and Kramer, Roger and Leinonen, Kalle and Miller, Judy and Miller, Christopher A and Miller, Michael and Reynolds, Sheila and Shmulevich, Ilya and Thorsson, Vesteinn and Akbani, Rehan and Broom, Bradley M and Hegde, Apurva M and Ju, Zhenlin and Kanchi, Rupa S and Korkut, Anil and Li, Jun and Li, Wei and Liang, Han and Ling, Shiyun and Lu, Yiling and Mills, Gordon B and Ng, Kwok-Shing and Rao, Arvind and Ryan, Michael and Weinstein, John N and Abeshouse, Adam and Chakravarty, Debyani and de Bruijn, Ino and Gao, Jianjiong and Gao, Galen F and Gross, Benjamin E and Heins, Zachary J and Kundra, Ritika and Ladanyi, Marc and Nissan, Moriah G and ... and Canc Genome Atlas Res Network
Cell Reports, ISSN 2211-1247, 04/2018, Volume 23, Issue 1, pp. 172 - 180.e3
Precision oncology uses genomic evidence to match patients with treatment but often fails to identify all patients who may respond. The transcriptome of these... 
NRAS | drug sensitivity | pan-cancer | Ras | NF1 | KRAS | Gene expression | machine learning | HRAS | TCGA | PATHOGENESIS | PROTEIN | SIGNATURES | GENE | PRECISION ONCOLOGY | PHASE-II | SELUMETINIB | BRAF | MUTATIONS | PREVIOUSLY TREATED PATIENTS | CELL BIOLOGY | Index Medicus
Journal Article