Nanopublications LDF server

Matches in Nanopublications for { ?s ?p "Disruption of E-cadherin caused massive formation of intratumoral vessels that was reversible in the early phase of induction. Vascularized tumors grew more rapidly, developed invasive fronts, and gave rise to micrometastasis. beta-catenin was identified as a critical effector of E-cadherin disruption leading to upregulation of VEGF-A and VEGF-C. In vivo, lung tumor cells with disrupted E-cadherin expressed beta-catenin target genes normally found in other endodermal lineages suggesting that reprogramming may be involved in metastatic progression." ?g. }

• _4 value "Disruption of E-cadherin caused massive formation of intratumoral vessels that was reversible in the early phase of induction. Vascularized tumors grew more rapidly, developed invasive fronts, and gave rise to micrometastasis. beta-catenin was identified as a critical effector of E-cadherin disruption leading to upregulation of VEGF-A and VEGF-C. In vivo, lung tumor cells with disrupted E-cadherin expressed beta-catenin target genes normally found in other endodermal lineages suggesting that reprogramming may be involved in metastatic progression." provenance.
• _4 value "Disruption of E-cadherin caused massive formation of intratumoral vessels that was reversible in the early phase of induction. Vascularized tumors grew more rapidly, developed invasive fronts, and gave rise to micrometastasis. beta-catenin was identified as a critical effector of E-cadherin disruption leading to upregulation of VEGF-A and VEGF-C. In vivo, lung tumor cells with disrupted E-cadherin expressed beta-catenin target genes normally found in other endodermal lineages suggesting that reprogramming may be involved in metastatic progression." provenance.
• _3 value "Disruption of E-cadherin caused massive formation of intratumoral vessels that was reversible in the early phase of induction. Vascularized tumors grew more rapidly, developed invasive fronts, and gave rise to micrometastasis. beta-catenin was identified as a critical effector of E-cadherin disruption leading to upregulation of VEGF-A and VEGF-C. In vivo, lung tumor cells with disrupted E-cadherin expressed beta-catenin target genes normally found in other endodermal lineages suggesting that reprogramming may be involved in metastatic progression." provenance.
• _3 value "Disruption of E-cadherin caused massive formation of intratumoral vessels that was reversible in the early phase of induction. Vascularized tumors grew more rapidly, developed invasive fronts, and gave rise to micrometastasis. beta-catenin was identified as a critical effector of E-cadherin disruption leading to upregulation of VEGF-A and VEGF-C. In vivo, lung tumor cells with disrupted E-cadherin expressed beta-catenin target genes normally found in other endodermal lineages suggesting that reprogramming may be involved in metastatic progression." provenance.