Proteomic characterisation reveals active Wnt-signalling by human multipotent stromal cells as a key regulator of beta cell survival and proliferation. https://t.co/XrUky5oUue https://t.co/UqMP7ucLus
Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7Wo4Scg https://t.co/m963S9aqFu
RT @DiabetologiaJnl: Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7W…
RT @DiabetologiaJnl: Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7W…
RT @DiabetologiaJnl: Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7W…
RT @DiabetologiaJnl: Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7W…
Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7Wo4Scg https://t.co/Ztlw0iYKGA
RT @DiabetologiaJnl: Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7W…
Active Wnt signalling in human MSC causes the secretion of proteins that mediate islet regeneration https://t.co/xwA7WnNhkI https://t.co/wGDmzUYwGy
Proteomic characterisation reveals active Wnt-signalling by human multipotent stromal cells as a key regulator… https://t.co/thZOQJrQNu #Wnt