Nucleocytoplasmic movement of fluorescent tracers microinjected into living salivary gland cells.

The permeability of the nuclear envelop of a somatic cell, the C. thummi larval salivary gland cell, was studied by intracellular microinjection of fluorescent molecular tracers. As shown previously in oocytes (4,5,15,16), the envelop is permeable to a wide variety of materials, including molecules which are large enough to possess condiderable biological specificities and to play important roles in regulation of cellular activities. The envelop exhibits transport selectivity on the basis of size in the range of naturally occurring intracellular materials and it may thus perform important controlling functions in nucleocytoplasmic exchange. The nucleus to cytoplasm movement of in vivo ribonucleoprotein particulates in these synthetically active cells probably requires conformational changes in the particulates and/or the envelope pore complexes; morphological evidence exists for such processess in these cells (20).