Abstract: Methods for selecting polypeptides or proteins having one or more desired properties from a library of sequences expressed in eukaryotic cells, including: encapsulating the cells by photopolymerization; solubilizing the encapsulated cells to produce semipermeable microcapsules; optionally contacting the cells and/or the microcapsules with one or more agents to facilitate detection of activity or function of polypeptides or proteins of interest; and selecting polypeptides or proteins of interest having one or more desired properties. Also provided are methods for encapsulating eukaryotic cells for use in the selection of polypeptides and proteins as described above.

Abstract: The present disclosure relates generally to a composition for inhibiting the foreign body response to an implantable device and an implantable device that comprises the composition. The disclosure also relates to methods for preparing a device for implantation in a subject.

Abstract: Provided herein are methods for selecting polypeptides or proteins having one or more desired properties from a library of sequences expressed in eukaryotic cells, comprising: encapsulating said cells by photopolymerization; solubilizing said encapsulated cells to produce semipermeable microcapsules; optionally contacting said cells and/or said microcapsules with one or more agents to facilitate detection of activity or function of polypeptides or proteins of interest; and selecting polypeptides or proteins of interest having one or more desired properties. Also provided are methods for encapsulating eukaryotic cells for use in the selection of polypeptides and proteins as described above.

Abstract: A mechanism is provided for utilizing a nanodevice to distinguish molecules with different structure. The molecules translocate through or across a nanochannel filled with a electrolyte solution. An electrical signal through the nanochannel is measured for every translocation event. Inner surfaces of the nanochannel include a functional layer, which is a coating to functionalize the nanochannel, in which the functional layer is configured to interact with predetermined ones of the molecules during translocation events. It is determined that a combination of at least two different molecules is formed based on predetermined ones of the molecules interacting with the functional layer to change the electrical signal and/or change a translocation time for the translocation event.

Abstract: A mechanism is provided for utilizing a nanodevice to distinguish molecules with different structure. The molecules translocate through or across a nanochannel filled with a electrolyte solution. An electrical signal through the nanochannel is measured for every translocation event. Inner surfaces of the nanochannel include a functional layer, which is a coating to functionalize the nanochannel, in which the functional layer is configured to interact with predetermined ones of the molecules during translocation events. It is determined that a combination of at least two different molecules is formed based on predetermined ones of the molecules interacting with the functional layer to change the electrical signal and/or change a translocation time for the translocation event.

Abstract: A mechanism is provided for utilizing a nanodevice to distinguish molecules with different structure. The molecules translocate through or across a nanochannel filled with a electrolyte solution. An electrical signal through the nanochannel is measured for every translocation event. Inner surfaces of the nanochannel include a functional layer, which is a coating to functionalize the nanochannel, in which the functional layer is configured to interact with predetermined ones of the molecules during translocation events. It is determined that a combination of at least two different molecules is formed based on predetermined ones of the molecules interacting with the functional layer to change the electrical signal and/or change a translocation time for the translocation event.

Abstract: A mechanism is provided for utilizing a nanodevice to distinguish molecules with different structure. The molecules translocate through or across a nanochannel filled with a electrolyte solution. An electrical signal through the nanochannel is measured for every translocation event. Inner surfaces of the nanochannel include a functional layer, which is a coating to functionalize the nanochannel, in which the functional layer is configured to interact with predetermined ones of the molecules during translocation events. It is determined that a combination of at least two different molecules is formed based on predetermined ones of the molecules interacting with the functional layer to change the electrical signal and/or change a translocation time for the translocation event.

Abstract: Monomeric, cyclic peptide analogues of relaxin superfamily proteins, based on B-chains of relaxin superfamily proteins, and methods of making them, are described, as well as pharmaceutical compositions containing them and methods of utilising them.