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[HTML][HTML] Inferring Bladder Cancer Evolution from Mucosal Field Effects by Whole-Organ Spatial Mutational, Proteomic, and Metabolomic Mapping

B Czerniak, S Lee, SY Jung, P Kus, J Bondaruk, J Lee… - Research … - ncbi.nlm.nih.gov
Multi-platform mutational, proteomic, and metabolomic spatial mapping was used on the
whole-organ scale to identify the molecular evolution of bladder cancer from mucosal field …
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Inferring Bladder Cancer Evolution from Mucosal field Effects by Whole-Organ Spatial Mutational, Proteomic, and Metabolomic Mapping

B Czerniak, S Lee, SY Jung, P Kus… - Research …, 2024 - pubmed.ncbi.nlm.nih.gov
Multi-platform mutational, proteomic, and metabolomic spatial mapping was used on the
whole-organ scale to identify the molecular evolution of bladder cancer from mucosal field …

Inferring Bladder Cancer Evolution from Mucosal field Effects by Whole-Organ Spatial Mutational, Proteomic, and Metabolomic Mapping.

B Czerniak, S Lee, SY Jung, P Kus, J Bondaruk… - Research …, 2024 - europepmc.org
Multi-platform mutational, proteomic, and metabolomic spatial mapping was used on the
whole-organ scale to identify the molecular evolution of bladder cancer from mucosal field …

Inferring Bladder Cancer Evolution from Mucosal Field Effects by Whole-Organ Spatial Mutational, Proteomic, and Metabolomic Mapping

B Czerniak, S Lee, SY Jung, P Kus, J Bondaruk, J Lee… - 2024 - researchsquare.com
Multi-platform mutational, proteomic, and metabolomic spatial mapping was used on the
whole-organ scale to identify the molecular evolution of bladder cancer from mucosal field …

Inferring Bladder Cancer Evolution from Mucosal Field Effects by Whole-Organ Spatial Mutational, Proteomic, and Metabolomic Mapping.

B Czerniak, S Lee, SY Jung, P Kus, J Bondaruk… - Research …, 2024 - europepmc.org
Multi-platform mutational, proteomic, and metabolomic spatial mapping was used on the
whole-organ scale to identify the molecular evolution of bladder cancer from mucosal field …