Bu içeriği görüntülemek için JoVE aboneliği gereklidir.  Oturum açın veya ücretsiz deneme sürümünü başlatın.
Cell Fate Reprogramming of Nematode Germ Cells into Neurons

Cell Fate Reprogramming of Nematode Germ Cells into Neurons

DEŞİFRE METNİ

Take genetically engineered bacteria on a nematode growth medium.       

The bacteria carry a plasmid with a nematode chromatin-regulating factor gene.

The medium contains an inducer that triggers the expression of a transgenic RNA polymerase from the bacterial genome that transcribes the chromatin-regulating factor gene into a dsRNA.

Add transgenic nematode larvae carrying a neuron fate-inducing transcription factor gene under a heat-shock promoter.

Upon bacterial consumption, the ingested dsRNA generates siRNA that downregulates the chromatin-regulating factor expression, facilitating cell fate reprogramming.         

Through the parents' germ cells, the siRNA is passed onto the progeny.

Downregulation of the chromatin-regulating factor expression in the progeny germ cells, indicated by a protruding vulva phenotype, allows their reprogramming.

Apply heat shock to the progeny, activating the heat-shock promoter and expressing the neuron fate-inducing transcription factor that triggers neuronal differentiation, transforming germ cells into neurons.

The neurons express a transgenic fluorescent reporter protein, facilitating microscopic visualization.

İlgili Videolar

Read Article