Abstract: The present disclosure relates to a peptide and its analogs that selectively inhibit the NaV1.7 sodium channel. The present disclosure also relates to pharmaceutical compositions useful for treating or preventing a disorder responsive to the blockade of sodium ion channels, especially NaV1.7 sodium ion channels. The present disclosure provides methods of treating a disorder responsive to the blockade of sodium channels, and particularly NaV1.7 sodium channels, in a mammals. The present disclosure further provides compositions and methods for providing analgesia by administering a peptide of the invention.

Abstract: The present disclosure pertains to methods of growing bacterial host cells in a low-density polyethylene (LDPE) bag to produce plasmid DNA or express recombinant protein. The LDPE bag is filled with media, an antibiotic, and host bacterial cells that have been transformed with plasmid DNA encoding a protein of interest. The LDPE bag is sealable to the external environment and incubated at a growth temperature until a desired concentration of bacteria is achieved. When plasmid DNA is desired, host cells are harvested and plasmid DNA is separated from host cell components. When recombinant protein is desired, expression is induced while host cells are in the LDPE bag, followed by the harvest and separation of the recombinant protein. The LDPE bags are sterile and conducive to bacterial growth equal to or greater than that afforded by conventional shake flasks under similar growth conditions.

Abstract: The present disclosure pertains to methods of growing bacterial host cells in a low-density polyethylene (LDPE) bag to produce plasmid DNA or express recombinant protein. The LDPE bag is filled with media, an antibiotic, and host bacterial cells that have been transformed with plasmid DNA encoding a protein of interest. The LDPE bag is sealable to the external environment and incubated at a growth temperature until a desired concentration of bacteria is achieved. When plasmid DNA is desired, host cells are harvested and plasmid DNA is separated from host cell components. When recombinant protein is desired, expression is induced while host cells are in the LDPE bag, followed by the harvest and separation of the recombinant protein. The LDPE bags are sterile and conducive to bacterial growth equal to or greater than that afforded by conventional shake flasks under similar growth conditions.

Abstract: The present disclosure pertains to methods of growing bacterial host cells in a low-density polyethylene (LDPE) bag to produce plasmid DNA or express recombinant protein. The LDPE bag is filled with media, an antibiotic, and host bacterial cells that have been transformed with plasmid DNA encoding a protein of interest. The LDPE bag is sealable to the external environment and incubated at a growth temperature until a desired concentration of bacteria is achieved. When plasmid DNA is desired, host cells are harvested and plasmid DNA is separated from host cell components. When recombinant protein is desired, expression is induced while host cells are in the LDPE bag, followed by the harvest and separation of the recombinant protein. The LDPE bags are sterile and conducive to bacterial growth equal to or greater than that afforded by conventional shake flasks under similar growth conditions.