Influence of oxygen concentration and pH on expression of hypoxia induced genes.
about
Plasma osteopontin levels in patients with head and neck cancer and cervix cancer are critically dependent on the choice of ELISA system.The genomic analysis of lactic acidosis and acidosis response in human cancersIn vivo identification and specificity assessment of mRNA markers of hypoxia in human and mouse tumorsMembrane carbonic anhydrase IX expression and relapse risk in resected stage I-II non-small-cell lung cancerInfluence of hypoxia induced by minimally invasive prostatectomy on gene expression: implications for biomarker analysis.Impacts of CA9 gene polymorphisms and environmental factors on oral-cancer susceptibility and clinicopathologic characteristics in Taiwan.Functional interaction between responses to lactic acidosis and hypoxia regulates genomic transcriptional outputs.Simultaneous Hypoxia and Low Extracellular pH Suppress Overall Metabolic Rate and Protein Synthesis In VitroMicro Regional Heterogeneity of 64Cu-ATSM and 18F-FDG Uptake in Canine Soft Tissue Sarcomas: Relation to Cell Proliferation, Hypoxia and Glycolysis.Hypoxia in head and neck cancer.Identification and Validation of Reference Genes for RT-qPCR Studies of Hypoxia in Squamous Cervical Cancer PatientsAdditive Influence of Extracellular pH, Oxygen Tension, and Pressure on Invasiveness and Survival of Human Osteosarcoma Cells.The prognostic impact of a combined carbonic anhydrase IX and Ki67 signature in oral squamous cell carcinoma.Individualization of cancer treatment from radiotherapy perspective.Head and neck cancer: from anatomy to biology.The Regulation and Function of Lactate Dehydrogenase A: Therapeutic Potential in Brain Tumor.Hypoxia as a Biomarker and for Personalized Radiation Oncology.Identifying pH independent hypoxia induced genes in human squamous cell carcinomas in vitro.In vivo characterization of a reporter gene system for imaging hypoxia-induced gene expressionInhibition of hypoxic response decreases stemness and reduces tumorigenic signaling due to impaired assembly of HIF1 transcription complex in pancreatic cancer.Uptake of [(18)F]EF5 as a Tracer for Hypoxic and Aggressive Phenotype in Experimental Head and Neck Squamous Cell Carcinoma.Cancer initiating-cells are enriched in the CA9 positive fraction of primary cervix cancer xenografts.Hypoxia can be detected in irradiated normal human tissue: a study using the hypoxic marker pimonidazole hydrochloride.The impact of hypoxia on the activity of lactate dehydrogenase in two different pre-clinical tumour models.Relationship between radiobiological hypoxia in a C3H mouse mammary carcinoma and osteopontin levels in mouse serum.Carbonic anhydrase IX inhibition affects viability of cancer cells adapted to extracellular acidosis.The Effects of Severe Hypoxia on Glycolytic Flux and Enzyme Activity in a Model of Solid Tumors.Assessing hypoxia in animal tumor models based on pharmocokinetic analysis of dynamic FAZA PET.Modified house-keeping gene expression in a rat tail compression loading-induced disc degeneration model.Gene expression profile of B 16(F10) murine melanoma cells exposed to hypoxic conditions in vitro.Triazole-substituted N-hydroxyindol-2-carboxylates as inhibitors of isoform 5 of human lactate dehydrogenase (hLDH5)
P2860
Q33254071-52A2192F-065F-4C29-AF82-F47DA3BB21F4Q33389864-6E934F26-C077-4078-B789-1AAED40712CFQ33816406-7DE9E860-44D9-4C55-BA1A-0CFE65548FABQ33856008-4F3DF91A-8ACA-48D4-81CE-C3B7A820DEA7Q33942107-2DDE975C-936B-440C-882D-A19739344C0DQ34506710-FA416352-5665-406D-BDFF-FE548B57B065Q35680861-BF2EF823-06BB-41BC-AC94-E276CE8929A5Q35746325-641722A7-7611-4F65-B389-A1778CC0908BQ35821298-4429C8C6-4F59-4AE9-A660-3A9F14D2CDA2Q36541242-C431C82D-FAA9-4F6D-8EDD-3170E1010A73Q36951387-F682A61A-B0F1-46C2-A03C-C45CB02832D0Q37058320-4B9D1075-0C82-4361-B1B3-F6D9F1CF9649Q37214341-E4CA5DDF-2EE0-49A9-9F7C-0795C4D81A0FQ37989616-F208765B-E9BB-4962-9765-DB296051B635Q38082457-A0E20EAC-D7DD-4806-A934-E888E4513952Q38565718-082EFB0B-C8ED-48C9-9B38-3230087E91E8Q38869433-A0A4FA15-47F5-4ACD-B15E-8C5D128EF134Q39709316-B213859F-EF13-4F97-94BF-DE5F82615352Q39805806-123242D9-E501-46B7-B8D0-82DF54D479BAQ41367891-0E62EB86-C3BE-49DC-B612-A41EDD8FF75DQ41871576-265D19D7-AE4E-4310-B409-33FD4A3FF8F6Q42316211-21A8BC7A-25A1-421A-94F5-85685ED0FE45Q46972274-BE0C5321-C991-4BFD-87A1-A0D46179A3BDQ46973613-531E6B6E-E187-45CC-A766-BA9608332D21Q46981212-08D7EE0E-199D-4294-BEA0-535332752537Q50002436-A0ADB1D1-2BA7-4BC9-8CED-456EC8B8D8A0Q51557216-4D9EA106-4833-4043-B25E-FB468C25B07EQ53273186-C741F831-2C59-42DB-B07F-E4B2A7350DDBQ54384013-B721E8E8-6574-4659-A38C-2E48233F256AQ55519456-E1A8809C-4665-4A53-BD4C-955790421340Q59033598-F7B0A972-A491-4285-9801-34723A06C1AA
P2860
Influence of oxygen concentration and pH on expression of hypoxia induced genes.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Influence of oxygen concentration and pH on expression of hypoxia induced genes.
@en
type
label
Influence of oxygen concentration and pH on expression of hypoxia induced genes.
@en
prefLabel
Influence of oxygen concentration and pH on expression of hypoxia induced genes.
@en
P2093
P50
P1476
Influence of oxygen concentration and pH on expression of hypoxia induced genes
@en
P2093
Henrik Vorum
Jens Overgaard
P304
P356
10.1016/J.RADONC.2005.06.037
P577
2005-08-01T00:00:00Z