Provided herein are polypeptides that bind to a transferrin receptor, methods of generating such polypeptides, and methods of using the polypeptides to target a composition to a transferrin receptor-expressing cell.

Provided herein are methods, processes and apparatuses for non-invasive assessment of genetic variations.

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.

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.

Provided herein are high-throughput sequencing methods to study the diversity and functionality of lymphocyte receptor chains and pairing of the same. Specifically, the methods provided herein are used to identify with confidence one or more lymphocyte receptor chain pairs in a sample, for example one or more functional chain pairs.

Provided herein are high-throughput sequencing methods to study the diversity and functionality of lymphocyte receptor chains and pairing of the same. Specifically, the methods provided herein are used to identify with confidence one or more lymphocyte receptor chain pairs in a sample, for example one or more functional chain pairs.

The present disclosure relates to a method of protein structure and amino acid residue interaction prediction based on saturation suppressor mutagenesis screening of a protein of interest. The method of the instant disclosure can be adapted for multi-protein complexes, and is useful where crystal structure of a protein of interest is not available.

Disclosed is an in situ method for detecting spatial proximity relationships between nucleic acid sequences, such as DNA, in a cell. The method includes: providing a sample of one or more cells comprising nucleic acids; fragmenting the nucleic acids present in the cells that leaves 5′ overhanging ends; filling in the overhanging ends with at least one labeled nucleotide; joining the filled in end of the fragmented nucleic acids that are in close physical proximity to create one or more end joined nucleic acid fragments having a junction; isolating the one or more end joined nucleic acid fragments using the labeled nucleotide; and determining the sequence at the junction of the one or more end joined nucleic acid fragments.

The present invention is a method for measuring the amount of at least one molecule in a biological sample, the method comprising a) combining the sample, or a derivative thereof, with one or more aptamers and allowing one or more molecules in the sample to bind to the aptamer(s); b) separating bound from unbound molecules; and c) quantifying the molecule(s) bound to the or each aptamer, wherein quantification of the bound molecule(s) is carried out by sequencing at least part of the or each aptamer. Uses of and products derived from the method are also contemplated.

Provided herein are high-throughput sequencing methods to study the diversity and functionality of lymphocyte receptor chains and pairing of the same. Specifically, the methods provided herein are used to identify with confidence one or more lymphocyte receptor chain pairs in a sample, for example one or more functional chain pairs.